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ASSESSMENT REPORT
DIAMOND DRILLING
On the
DONNELLY NORTH, SADDLE, YT AND NORTH ZONES
KINASKAN LAKE PROPERTY,
GJ PROJECT, 2006
Liard Mining Division, British Columbia, Canada
Latitude: 57° 39´ 21” N Longitude: 130° 15´ 21” W
UTM: 425062 E 6390993 N; Zone 9
NTS; 104G-069
For
CANADIAN GOLD HUNTER CORP.
2101-885 West Georgia St. Vancouver, B.C., V6C-3E8
Canada
Prepared By: Dave Mehner, MSc., P. Geo.
March 21, 2007
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TABLE OF CONTENTS Page 1.0 SUMMARY………………………………………………………………………………………... 1 2.0 INTRODUCTION AND TERMS OF REFERENCE ….…………………………………………. 2 3.0 PROPERTY DESCRIPTION AND LOCATION………..……………..…………….…………… 2 3.1 Location………………………………………………………………………………………. 2 3.2 Description……………………………………………………………………………………. 3 3.3 Ownership…………………………………………………………………………………….. 4 3.4 Taxes and Assessment Work Requirements……………………………………………....... 4 3.5 Permits and Liabilities…………………………………………………………….……..... … 5 4.0 ACCESSIBILITY, CLIMATE, LOCAL RESOURCES, INFRASTRUCTURE AND PHYSIOGRAPHY …………..……………………………………………………………………. 5 4.1 Access…………………………………………………………………………………….…… 5 4.2 Climate………………………………………………………………………………………... 5 4.3 Local Resources……………………………………………………………………..………... 5 4.4 Infrastructure…………………………………………………………………………………. 5 4.5 Physiography…………………………………………………………………………………... 6 5.0 HISTORY………..……….………………………………………………………………..………. 6 6.0 GEOLOGICAL SETTING…………..………………………………..…………………….……... 8 6.1 Regional Geology……………………………………………………………………….……... 8 6.2 Property Geology…....…………………………………………………………………….….. 10 6.3 Structural Geology…....……………………………………………………………………... 11 6.4 Mineralization……………………………………………………………………………….. 12 7.0 2005 EXPLORATION PROGRAM…..………………………………………..…………….….. 14 8.0 DIAMOND DRILLING……………………….………………………………..………………… 14
8.1 General……..…….…………………………………………………………………………. 14 8.2 2006 Drilling Procedures...………………………………………………………………… 15
8.3 Drilling Results.…..…..…………………………………………………………………….. 15 9.0 BULK DENSITY DETERMINATIONS…………………………………………………………. 16 9.1 Results………………………………………………………………………………………. 16 9.2 Methodology………………………………………………………………………………… 17 10.0 SURVEYING……………………………………………………………………………………. . 17 11.0 SAMPLE PREPARATION, ANALYSIS AND SECURITY………………………………..…… 17 11.1Sample Preparation..………………………………………………………………………. 17 11.2 Sample Analysis…………………………………………………..……………………….. 18 11.3 Security…………………………………………………………………..………………… 18 12.0 DATA VERIFICATION…………………………………………………………………….….. 18 13.0 INTERPRETATION AND CONCLUSIONS……………………………………………….. 19 14.0 RECOMMENDATIONS ………………………………………………………..……………... 19 15.0 REFERENCES……………………………………………………………………..…………… 19
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TABLES 3.2 Kinaskan Lake Property Mineral Claims, as of March 3, 2007…………..…………..… 3 8.1 Diamond Drill Holes in the Groat Stock, Porphyry Copper-Gold System……………... 14 8.3.1 Significant Mineralized DDH Intercepts in 2005, GJ Zone Drill Holes……..…...……... 16 9.1 In-situ, Bulk Density Determinations of 2006 Drill Core…..…………….……………….. 17 12.1 Grade and Range of Standards Employed With 2006 Drill Core Analysis…………….. 18
FIGURES After Page
3.1.1 Kinaskan Lake Project, Location Map: 1:8,000,000……..………….………………….. 2 3.1.2 Kinaskan Lake Project, Claim Outline Map: 1:150,000…….………...………….……. 2 5.0 Kinaskan Lake Project, Mineralized Showings Map: 1:100,000……………………… 6 6.1.1 Kinaskan Lake Project, Geological Terrane Boundaries: 1:5,000,000....……………… 8 6.1.2 Kinaskan Lake Project, Regional Geology: 1:1,000,000……..………..……………….. 8 6.1.3 Kinaskan Lake Project, Property Geology: 1:100,000……..………..………………….. 8 6.2.1 Kinaskan Lake Project, West GJ - Donnelly Area Geology: 1:2,500……………… in pocket 6.4.2 Kinaskan Lake Project, GJ-Donnelly-North Area: Geophysics-Total Magnetics…. In pocket 8.3.1 Kinaskan Lake Project, Donnelly North Zone Cross-section 423910E .….………… in pocket 8.3.2 Kinaskan Lake Project, Donnelly North Zone Cross-section 424110E…..………… in pocket 8.3.3 Kinaskan Lake Project, Donnelly North Zone Cross-section 424270E.….………… in pocket 8.3.4 Kinaskan Lake Project, Donnelly North Zone Cross-section 424430E…..………… in pocket 8.3.5 Kinaskan Lake Project, Donnelly North Zone Cross-section 424550E…..………… in pocket 8.3.6 Kinaskan Lake Project, Donnelly North Zone Cross-section 424670E…..………… in pocket 8.3.7 Kinaskan Lake Project, Donnelly North Zone Cross-section 424770E…..………… in pocket 8.3.8 Kinaskan Lake Project, Saddle Zone Cross-section 424960E…..................………… in pocket 8.3.9 Kinaskan Lake Project, Saddle Zone Cross-section 425110E……………………….. in pocket 8.3.10 Kinaskan Lake Project, Saddle Zone Cross-section 425110E…..…………………… in pocket 8.3.11 Kinaskan Lake Project, Saddle Zone Cross-section 425625E…………..…………… in pocket 8.3.12 Kinaskan Lake Project, Saddle Zone Cross-section 425885E………..……………… in pocket 8.3.13 Kinaskan Lake Project, North Zone Cross-section 426085E…..…………………….. in pocket 8.3.14 Kinaskan Lake Project, North Zone Cross-section 426900E………..……………….. in pocket 8.3.15 Kinaskan Lake Project, YT Zone Cross-section CGH-06-121,124………………….. in pocket
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APPENDICES A. Certificate of Author B. Statement of Expenditures C. 2006, GJ, Copper-Gold Project Diamond Drill Program Statistics D. 2006 Drill Logs E. 2006, Drill Hole Assay Database F. Bulk Density Determinations of 2006 Drill Core G. 2006 Drill Hole Survey Data, (collar and down-the-hole) H. ALS Chemex Analytical and Sample Preparation Procedures
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
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1.0 SUMMARY The Kinaskan Lake Property, hosts the GJ, copper-gold porphyry project on the southern end of the Klastline Plateau in the Stikine River region of north-western British Columbia. The project is located approximately 200 kilometres (“kms”) north of Stewart and 75 kms south of Dease Lake. The Donnelly, Donnelly North, GJ and North zones are the principal copper-gold exploration targets within the 38 mineral claim, 20,049.8 hectare, property (“the property”) owned and operated by Canadian Gold Hunter Corp. (“CGH”) of Vancouver, BC. The rocks underlying the property have been mapped as Upper Triassic, Stuhini Group (basic volcanic flows, volcaniclastics and sedimentary rocks), unconformably overlain by Lower Jurassic, Hazelton Group andesitic to felsic flows and volcaniclastic rocks. Intruding the Stuhinni Group rocks throughout the property are numerous small, quartz deficient plugs, sills and dykes of Late Triassic or Early Jurassic age, diorite to monzodiorite and monzonite composition. The largest of these is the south-west striking Groat Stock which is at least 10 kms long and up to 1.5 kms wide, and is off-set by numerous, north-south striking faults. Copper-gold mineralization has been identified in at least four zones developed along the south-west and west extremities of the stock. In 2006, CGH concentrated most of its exploration efforts on the Donnelly Zone and to a lesser extent over untested geophysical targets in the YT, Saddle and North Zones. The scope of the work included picket grid line construction for ground control, ground magnetometer and IP geophysical surveys, minor soil sampling, prospecting and geological mapping followed by diamond drilling 18,133.16 meters of NQ2 sized core in 62 holes. This assessment report applies to the 7279.44 meters of diamond drilling in 33, NQ2 holes carried out over the Donnelly North, North, Saddle and YT Zones. In the Donnelly North Zone, 23 holes totalling 5240.33 metres tested a 1400 metre, northeast-southwest by 525 meter, northwest-southeast oriented chargeability anomaly situated west of the Groat Stock. Widely spaced holes encountered a number of significant mineralized intersections including 48.77 meters grading 0.610% copper and 0.432 g/t gold in hole CGH-06-130 and 79.24 meters grading 0.339% copper and 0.638 g/t gold in CGH-06-099. Numerous thick but lower grade intercepts were also encountered including 106.68 meters grading 0.142% copper and 0.158 g/t gold in CGH-06-091. The zone remains open in all directions. In the North Zone, two drill holes totalling 316.99 meters encountered hydrothermally altered, pyritic rocks but no significant copper-gold mineralization. In the Saddle Zone, six holes totalling 1130.81 meters intersected weakly altered, pyritic rocks but no significant copper mineralization. In the YT Zone, two holes totalling 591.31 meters failed to get below overlying, post mineralization Hazelton stratigraphy. Future recommended exploration of the Donnelly North Zone includes step-out diamond drill holes to the west, east and north to establish the outer limits of the mineralized zone and in-fill holes that effectively reduce hole spacing to about 100 meters to resolve the shape, continuity and grade of the mineralized zone. In-fill ground magnetic and induced polarization surveys are recommended to help define post mineral faults and off-sets and assist in spotting drill hole collars. Continued drill testing of chargeability anomalies in the North Zone is also recommended but only as part of larger drilling campaigns carried out elsewhere on the property. No further drill testing is recommended in the YT or Saddle Zones.
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
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2.0 INTRODUCTION AND TERMS OF REFERENCE The 2006 field program was contracted to Equity Engineering Ltd. of Vancouver who, as field managers, were responsible for hiring staff, managing all field exploration work and arranging for fuel, food, helicopter, supplies and assaying. Scott Geophysics Ltd. of Vancouver was contracted to carry out I.P. and ground magnetic geophysical surveys while Britton Bros. Diamond Drilling of Smithers were retained to carry out all diamond drilling using two fly rigs capable of coring to depths of at least 600 meters. Ranex Exploration Ltd. (Steve Soby) of Smithers, BC. were hired to survey all drill hole collars using differential GPS equipment. TNES of Smithers provided all personnel for core splitting and grid construction. Dr. Giles Peatfield was retained as independent consultant for the project and was responsible for designing and monitoring the Quality Control-Quality Assurance program. Analytical work was carried out by ALS Chemex in North Vancouver. Field work was carried out from a permanent, 30 person camp located at the headwaters of Groat Creek. Core logging, processing and storage is carried out at a facility situated about 200 meters northwest of camp. Project air support was provided by Pacific Western Helicopters who based a Jet Ranger 206 with pilot at the project site. For drill holes located in the trees at the west end of the Donnelly and Donnelly North Zones, Pacific Western provided an A-Star helicopter. Program personnel included Dave Mehner (project manager and geologist), John Bellamy (senior geologist), Jan Christoffersen (company VP and geologist) and Chris Balardo (geotechnician, cook and clerical) all who contracted directly to Canadian Gold Hunter Corp. Remaining personnel were employed by Equity Engineering and reported to Stewart Harris, senior geologist and on-site Equity supervisor. They included Anna Tsaloumas (geologist), Ira Good (first aid attendant and geotechnician), Kyle Todoruk (sampler, geotechnician), Max Wadstrom (sampler), Alan Jarvis (first aid attendant, cook), Cheryl McRae (first aid attendant and cook), Mikey Spittal (cook), Gail Fell (cook), Jutta Stenkowski (cook) and Cas Sowa (camp manager/maintenance). TNES personnel included Victor Louie (core splitter), Darren Louie (core splitter), Neil McLean (core splitter), Trevor Larsen (core splitting, IP crew), Gilroy Quock (IP helper), Blaine Louie (line cutter, IP crew helper), Wilfred Hawkins (line cutter), Jordan Hawkins (line cutter/swamper), Fred Kale (line cutter/swamper), Myles Louie (line cutter), Magan Havard (swamper) and Jared Dennis (swamper). 3.0 PROPERTY DESCRIPTION AND LOCATION 3.1 Location The Kinaskan Lake Property is situated in the Liard Mining Division within the Stikine River region of north-western British Columbia, Canada (Figure 3.1.1). The property is situated approximately 200 kms north of Stewart B.C., with the closest populated centre being Iskut Village, located along Highway 37 about 23 kms to the northeast of the project camp (Figure 3.1.2). The project staging area at Tatogga Lake Resort is about 13 kms. east-northeast of the project camp while Kinaskan Lake is about 5.6 kms due east. The centre of the approximately 19 kms long by 13 kms wide property is at about UTM1 co-ordinates 427500 East and 6398000 North. The GJ Zone showing is centered at 425800 East and 6390450 North. The mineral claims are plotted on British Columbia Government claim map sheets 104G069, 104G070, 104G079, 104G080 and 104G090. 1 Universal Transverse Mercator Grid co-ordinates are NAD (North American Datum) 83.
(
A L A S K A
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CHARLOTTE
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KINASKAN LAKEPROJECT
Fraser
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VANCOUVER
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A L B E R T A
60°N 135°W130°W
50°N
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125°W 120°W
FIGURE NO:
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DATE: Mar. 2007
1:8,000,000
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C A N A D A
3.1.1
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
B.C., CANADA
1200
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800LA
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MTPOELZER
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TEN
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505097505233
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504368507681
508187
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504206522331532248
532251
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FIGURE NO:
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DATE: Mar 2007
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CLAIM MAP
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
UTM Zone 9, NAD83
B.C., CANADA
3.1.2
104G/9,16
0
Meters
2500 5000
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
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3.2 Description The Company’s Kinaskan Lake Property consists of thirty-eight (38) mineral claims covering 20,049.771 hectares on the Klastline Plateau. Twenty-one of the claims were originally staked as 4-post, located claims that have been subsequently converted to the newer, “cell” variety issued by the “Mineral Titles Online”(MTO) system. The remaining seventeen (17) claims were all staked “on line” and are of the “cell” variety. The property includes no surface rights nor has it been legally surveyed, although a number of legal corner posts of the former, located claims have been surveyed using a differential GPS system. The mineral claims are plotted on British Columbia Government claim map sheets 104G069, 104G070, 104G079 and 104G080. A complete list of the claims, their size and expiry date is provided in Table 3.2. Table 3.2 Kinaskan Lake Property Claims as of March 3, 2007
Claim Name
Tenure Number
Tag Number
Area Hectares
Expiry Date
Map Number
QC 1 392329 238709 500.000 April 7/2009 104G079 QC 2 392330 238710 500.000 April 7/2009 104G079 QC 3 392331 238711 500.000 April 7/2012 104G079 QC 4 392332 238712 500.000 April 7/2012 104G079 QC 5 392333 238713 500.000 April 7/2012 104G079 QC 6 392334 238714 500.000 April 7/2009 104G079 QC 7 392335 238715 500.000 April 7/2009 104G079 QC 8 392336 238716 500.000 April 7/2009 104G079 QC 9 392337 238735 500.000 April 7/2009 104G080 QC 10 392338 238736 500.000 April 7/2009 104G080 QC 11 392339 238737 500.000 April 7/2009 104G080 QC 12 392340 238738 500.000 April 7/2009 104G080 Horn 1 392361 238717 450.000 April 7/2012 104G079 Horn 2 392362 238718 450.000 April 7/2009 104G079 SH 1 392375 238727 500.000 April 7/2009 104G069 SH 2 392376 238728 500.000 April 7/2009 104G069 SS 1 392379 238731 450.000 April 7/2009 104G080 SS 2 392380 238732 450.000 April 7/2009 104G080 SS 3 392381 238733 450.000 April 7/2009 104G080 SS 4 392382 238734 450.000 April 7/2009 104G080 KJ 413153 245706 500.000 April 7/2012 104G079 MJ 504206 MTO i 432.852 April 7/2014 104G069 NJ 505233 MTO i 311.781 April 7/2015 104G069
No name 504368 MTO ii 432.858 April 7/2015 104G069 No name 505097 MTO iii 779.524 April 7/2015 104G069 No name 507681 MTO iv 1367.926 April 7/2015 104G069 No name 508121 MTO v 1471.308 April 7/2013 104G070 No name 508187 MTO vi 1297.603 April 7/2014 104G069
PJ 511073 MTO i 311.537 April 7/2012 104G069 RJ 522331 MTO i 415.62 April 7/2012 104G069 SJ 532248 MTOi 311.72 April 17/2012 104G069 TJ 532251 MTOi 363.50 April 17/2012 104G069 VJ 532254 MTOi 415.19 April17/2012 104G069 WJ 532258 MTOi 415.20 April 17/2012 104G069 XJ 532259 MTOi 415.22 April 17/2012 104G069 YJ 532260 MTOi 415.23 April 17/2012 104G069 ZJ 532261 MTOi 259.50 April 17/2012 104G069
No name 553372 MTOi 433.202 March 2/2008 104G069
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
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i MTO denotes claims acquired under the Province of British Columbia’s “Mineral Titles Online” system, post January 12, 2005; ii MTO is a new claim comprised of newly acquired ground and pre-existing claim “LJ”, tenure no. 412803 iii MTO this is a new claim comprised by combining pre-existing claims “SPIKE #1, tenure no. 221687 with “BJ”, tenure no. 370171
iv MTO is a new claim comprised largely by combining pre-existing claims GJ, JJ and Spike #2, tenure numbers 221658, 404750 and 221688 respectively v MTO is a new claim comprised largely by combining pre-existing claims T1 to T4, tenure numbers 392363 to 392366 respectively vi MTO is a new claim comprised largely by combining pre-existing claims SH 3, SH 4, DJ and OJ, tenure numbers 392377, 392378, 370170 and 370172 respectively. 3.3 Ownership All thirty-eight (38) mineral claims comprising the Kinaskan Lake Property are owned 100% by Canadian Gold Hunter Corp. with offices at 2101-885 West Georgia St., Vancouver B.C., V6C-3E8. The first claims making up the property were staked in 1975 and 1976 as the GJ, Spike #1 and Spike #2. They were subsequently acquired in the early 1980’s by International Curator Resources Ltd. (Curator), a predecessor company to Canadian Gold Hunter Corp (CGH). In 2000, Curator added to their holdings by staking the DJ, BJ and OJ claims to the west and north of the GJ claim and in 2003, the JJ claim was staked immediately east of the GJ and Spike #2 claim. In 2004, the LJ claim was staked immediately west of the BJ and DJ claim while the KJ was staked approximately 8 km to the north northwest. In March, 2002, Viceroy Resource Corporation (Viceroy) staked twenty-seven claims totalling 13,200 hectares north and northeast of Curator’s holdings, effectively covering the remaining portion of the Klastline Plateau including about 25% of the North Zone. In May, 2002, Viceroy granted an option to Consolidated Earth Stewards Inc. (C.E.W.) of suite 810-1708 Dolphin Ave., Kelowna B.C. to earn a 100% interest subject to a 1% NSR in the twenty-seven mineral claims by paying $12,000 and issuing 200,000 shares. As part of the agreement, C.E.W. underwent a reorganization and consolidation, changed its name to Royal County Minerals Corp. and issued 100,000 post consolidation shares in January, 2003. In early 2003, Viceroy was reorganized into a number of different companies with the underlying ownership of the twenty-seven claims on the Klastline Plateau ultimately being transferred into 650399 BC Ltd., a numbered company which was a wholly owned subsidiary of Spectrum Gold which in turn was 59% owned by Novagold Resources Inc. On August 4th, 2003, International Curator Resources Ltd. and Royal County merged into a single entity on the basis of 1 share of Royal County for every 5 shares of Curator. The resulting company retained the name, “International Curator Resources Ltd.” and the Curator, Vancouver office. In December, 2003, Curator underwent a corporate re-organization, share consolidation and name change to Canadian Gold Hunter Corp. (CGH). On January 21, 2005, CGH made the second (final) share issue of 80,000 shares (converted from 100,000 shares in Curator) to 650399 BC Ltd. to acquire 100% ownership of the property subject to the 1% NSR. Since then CGH has acquired additional ground west and southwest of the original combined Curator – Royal County holdings by staking four-post claims and acquiring claims through the MTO system. All claims have been converted to the MTO, “cell” system with many of the original located claims being merged into larger, MTO claims with common expiry dates. 3.4 Taxes and Assessment Work Requirements With the filing of this assessment report, all mineral claims covering known mineralization in the Donnelly and Donnelly North Zones will be in good standing until at least April 7, 2015. The remainder
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
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of the property will be in good standing until at least April 7, 2009 with the exception of tenure 553372 which was just acquired and expires March 2, 2008. 3.5 Permits and Liabilities To date, reclamation bonds of $35,000 have been posted under work permit MX-1-603 with the Ministry of Finance and Corporate Relations to cover the estimated cost of reclamation of both the camp-site and drilling areas. As the project is on-going, the bonds remain outstanding. 4.0 ACCESSIBILITY, CLIMATE, LOCAL RESOURCES, INFRASTRUCTURE AND PHYSIOGRAPHY 4.1 Access Access to the area is gained by taking Highway 37, commonly referred to as the Stewart-Cassiar Highway, north from Smithers or by taking a scheduled air flight from Smithers to Dease Lake. Property access is via Pacific Western Helicopters based in Dease Lake, approximately 75 km north of the claims. In summer months a helicopter is commonly stationed at Tatogga Lake Lodge situated along Highway 37, 13 km. east-northeast of the property camp. 4.2 Climate The climate in the area is northern temperate with moderately warm summers and cold dry winters. Typical daytime temperature ranges are from the mid to upper 20o’s Celsius in summer and -20o to -30o Celsius in winter. Precipitation averages about 100 cm. per year. Thick accumulations of snow are common in winter. Fieldwork can normally start at lower elevations in mid May and at the upper elevations by early to mid June. Cold weather, winds and snow squalls make field work difficult at the upper elevations past late September although programs have been carried out until mid October. 4.3 Local Resources Fuel, tire repairs, accommodation and restaurant meals, covered and secure storage, floatplane, forklift, telephone and FAX are available at Tatogga Lake Lodge. A nursing station, grocery store, gas station, school, telephone and the Iskut First Nations Band office are located in Iskut Village, 23 km northeast of the project camp. Propane, welding, the Bandstra Trucking agent, tire repair, accommodation and meals are available at Eddontenajon, 2 km. south of Iskut. About 75 km north of the project camp in Dease Lake, a hardware and grocery store, RCMP office, Government of BC Forestry office, small hospital, school, gas station, accommodation (hotels and bed and breakfast), airport and restaurant are available. Both unskilled labourers and skilled personnel trained at the Eskay Creek Mine or the now closed Snip and Golden Bear mines are available in Iskut Village, Dease Lake and Telegraph Creek. 4.4 Infrastructure The main access route to the area is Highway 37, which passes along the eastern side of Kinaskan and Eddontenajon Lakes, 5.5 kms east of the property. The old, “B.C Rail” roadbed to Dease Lake (now owned by Canadian National Railway) is situated about 22 km. east of the highway while a gravel airstrip capable of handling small aircraft is located just north of Iskut Village and a paved runway and airport capable of handling small jets is located in Dease Lake.
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
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Secondary access to within 12.2 km. of the western end of the project site (Donnelly Zone; see Figure 3.1.2) is available from the Willow Creek Forestry Service Road (FSR) which leaves Hwy. 37 about 36 km. south of Tatogga Lake Lodge and follows the Little Iskut River for about 22.4 km. Preliminary road planning and layout has identified a 15.7 km route at 8 percent or less grade from the end of Willow Creek FSR to within 2 km southwest of the Donnelly Zone. The proposed route, which traverses 4.5 km of old burn, 4.2 km of scrub balsam, swamps and shrub and 7 km of old growth balsam would head north-east to the base of the Klastline Plateau and then follow along the foot of talus slopes in a north-northwest direction. At the present time electric power in the region is restricted to a diesel generation plant at Iskut Village. With the issuance of a mine permit for the Red Chris project and the expectation another will be issued for development of the Galore Creek deposit, it is anticipated the North American power grid will be extended up to Iskut Village in the next 12-36 months. 4.5 Physiography The claim group is situated along the top and eastern edge of the Klastline Plateau. Topography varies from fairly subdued with gently rolling hills atop the plateau, to extremely rugged with steep slopes and cliffs along the deeply incised creek valleys. At the higher elevations in the northwest portion of the property south of the QC target, the final remnants of small glaciers can be found. Elevations on the property vary from 825 metres along the southeast side of the property near Kinaskan Lake to 2110 metres in the northwest. In the Donnelly North-Saddle-North Zone area, topography is relatively flat with a very gentle and gradual, west facing dip that steepens to the west at lower elevations. Steep banks occur along Donnelly Creek west of the Donnelly showing, where the creeks have cut down through the plateau. Glacial overburden cover is extensive, reaching up to 20 metres thick. The YT Zone sits atop a small hill that rises above all other zones in the GJ project to about 1785 meters above sea level. Elsewhere elevations vary from 1740 metres above sea level in the North Zone to 1680 metres at camp and 1415 metres along Donnelly Creek at the southwest corner of the Donnelly North Zone. For the most part, vegetation is limited and consists primarily of alpine grasses, flowers and lichen on the plateau with occasional shrubs and stunted spruce in hollows or wind protected areas. Poplar and slide-alder are common at the lowest elevations along creek valleys, while spruce and balsam are common along the steeper slopes overlooking Kinaskan Lake to the east, Nuttlude Lake to the west and along both sides of Quash Creek to the north. At about the 1520 metre elevation a band of sub-alpine scrub meanders throughout the property. The tree line is at about the 1470 metre elevation. 5.0 HISTORY The Kinaskan Lake property is located in the Stikine River area of north-western British Columbia, a region well known for its sub-alkalic to alkalic plutons, associated porphyry copper-gold mineralization and peripheral gold-silver bearing quartz veins. The first recorded exploration work carried out in the area dates back to 1964, when Conwest carried out a regional evaluation of the Klastline Plateau and identified a number of porphyry copper-gold and precious metal shear-vein targets on the plateau including the GJ and QC porphyry systems and the Horn (SF) silver prospect (Figure 5.0). After staking claims over each prospect, follow-up exploration programs were carried out. At GJ this included mapping and prospecting outcrop exposures along Groat Creek and carrying out limited silt and soil geochemical surveys near mineralized outcrops in 1964. This was
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
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followed in 1965 by completion of 1.52 kms of I.P. and 1.83 kms of ground magnetometer surveys over 2 perpendicular lines centered on the GJ showing. In 1970, Amoco optioned the GJ project from Conwest and carried out 32 kms of I.P. and ground magnetic surveying along with geological mapping and soil sampling in the area of the main showing, before drilling five BQ diamond drill holes from one set-up (the “starburst” holes), totaling 1529.8 metres on the main showing in Groat Creek. In 1971, Amoco constructed a rough access road from the south-west end of Kinaskan Lake up to the south end of the Klastline Plateau, thence northward to the GJ showing and the headwaters of Groat Creek. They carried out further geological mapping and, having barged a diamond drill across the lake and dragged it up the access road, drilled an additional 2479.1 metres of BQ core in 14 holes, nine in the GJ zone and five in the North Zone. In the 1950’s and 1960’s the Geological Survey of Canada (“GSC”) mapped in the region (Souther,1971); this was followed by an airborne magnetic survey between 1975 and 1978 (see Geophysical Series Map 9217G – Kinaskan Lake, Sheet 104 G/9). In October 1975, the Amoco claims were allowed to lapse and the 12 unit GJ claim was staked over the GJ showing and target by United Mineral Services Ltd. (“UMS”). A few days later Texasgulf staked claims to the west, north and northeast effectively covering what are now known as the Donnelly and North Zones. In 1976, Great Plains Development Corp. (“Great Plains”) (whose assets were subsequently transferred to the parent company Norcen Energy Resources Ltd. (“Norcen”) in October 1978) optioned the GJ property from UMS and carried out geological mapping, geochemical surveys, 22 metres of trenching along with constructing a 15.5 kilometre (“km”) picket-line grid for a ground magnetic survey. During the same year, Texasgulf constructed 10.6 kms of picket-line grid over the Donnelly showing and target, completed I.P. and ground magnetic surveys over the grid, and did geological mapping and 51 metres of trenching. The following year Great Plains carried out an I.P. survey over the 15.5 km GJ grid as well as deep overburden geochemical sampling, and then dropped their option. Texasgulf continued exploration of the Donnelly target by extending the picket-line grid a further 13.1 kms, carrying out 18.5 kms of I.P. surveys, collecting 75 bedrock surface samples using a hand-held, gas powered “pinjaar” drill. They then tested the Donnelly target with ten BQ diamond drill holes totaling 1523.9 metres. No further work was carried out on the Donnelly Zone until 1980 when Texasgulf returned to the property and drilled an additional 1115.0 metres of BQ core in five holes, including four new holes and the deepening of previous hole TG-77-04. Texasgulf (which became Kidd Creek Mines Ltd. and was ultimately acquired by Falconbridge Limited) carried out no additional exploration work and allowed the claims to lapse in 2000. In 1979, Dimac Resources Corp. (“Dimac”) purchased the GJ claims from United Mineral Services and then optioned them to Canorex Minerals Ltd. (“Canorex”) in 1981, who diamond drilled seven NQ holes totaling 1779.4 metres in the GJ Zone, thereby earning a 50% interest in the property. Following Dimac declaring bankruptcy, a reorganization of Canorex and the purchase of Dimac’s interest in the GJ property from the Royal Bank, Curator Resources Ltd. (“Curator”) (which became International Curator Resources in October 1985) emerged as the sole owner of the GJ property in 1983. In 1989, Ascot Resources Ltd. (“Ascot”) optioned a large number of claims covering the eastern half of the Klastline Plateau plus the GJ property from Curator. Field work in 1989 included taking 73 silts from drainages around the GJ target, 62 rock chip samples from exposures along creek drainages, and construction of a flagged grid from which 389 bedrock surface rock chip samples were collected using a
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
8
gas powered “wacker” drill. The following summer Ascot took 274 soils from contour lines along the plateau edge, conducted 20.7 kms of I.P. and ground magnetics on flagged grid lines and then drilled 1656 metres of BTW (1.654 inch diameter) sized core in nine holes before dropping the option. From 1990 to 2000 the area was inactive apart from a regional geological mapping program carried out over the Tatogga Lake area including the Klastline Plateau. This work, at 1:50,000 scale, was completed by the British Columbia Ministry of Energy, Mines and Petroleum Resources (Ash 1997). In 2000, Curator carried out a very small program that involved taking 18 rock and 61 soil samples from newly staked ground covering the Donnelly and North zone targets when Falconbridge Limited allowed the Texasgulf claims to lapse. This was followed in 2002, with the first of a multi-year, systematic evaluation of the copper-gold porphyry mineralization related to the Groat Stock. This work involved constructing a picket-line grid and carrying out 17.85 kms of I.P. and ground magnetic surveys over the Donnelly Zone target. In mid 2003, by virtue of taking over Royal County, Curator acquired claims covering most of the remaining portions of Klastline Plateau including those immediately east and north of the North and GJ Zones. Work carried out included extending the Donnelly picket grid east and north to cover the North Zone, geological mapping, prospecting, hand trenching and sampling, contour soil sampling, bedrock surface (“wacker”) sampling, and 18.35 kms of I.P. and ground magnetic surveys. In the fall, an airborne magnetic survey was flown over the entire plateau area. In December 2003, Curator underwent a corporate re-organization and changed its name to Canadian Gold Hunter Corp. In 2004, the Company extended the picket-line grids north of the Donnelly grid and east and south of the North grid. A further 17.45 kms of I.P. and 24.5 kms of ground magnetic survey were completed, additional “wacker” drilling in the North, GJ East and Donnelly Zone were carried out and detailed silt sampling of drainages coming from the porphyry zones were conducted, along with rock and soil sampling. A total of 4236.0 metres of BTW sized core were drilled in 20 holes divided equally between the North and Donnelly Zones. As a result of the success of the 2004 program, CGH accelerated exploration on the Donnelly-GJ-North Zones in 2005 by building a permanent, 30 person camp, preparing a new orthophoto map of the area, conducting 26.95 km of I.P. plus 38.375 km of ground magnetic geophysical surveys, carrying out further prospecting and geological mapping that included collecting 117 rock and 376 soil samples, taking 434 rock chip samples from 13 hand trenches, re-sampling 193 sections of old core to confirm published values and drilling 16,394.35 meters in 56 holes. 6.0 GEOLOGICAL SETTING 6.1 Regional Geology The Kinaskan Lake property is located in the north-east part of the so-called Stikine Arch, within Stikine Terrane (“Stikinia”) rocks of the Canadian Cordillera (Figure 6.1.1). The regional geology (Figures 6.1.2 & 6.1.3) as mapped by Souther (1972) and Ash et al. (1995; 1996; 1997a; 1997b), includes Upper Triassic Stuhini Group marine clastic sedimentary rocks including pelagic to fine grained wackes with minor volcanic conglomerate, limestone and mafic volcanics overlain by Lower Jurassic rocks that are considered by most to be correlative with the Hazelton Group. These include a lower volcaniclastic and derived epiclastic sequence of trachyandesite composition overlain by a bi-modal, basalt–ryholite suite consisting of augite-andesite flows, pillow lavas, pyroclastics and derived volcaniclastic rocks alternating with felsic flows and pyroclastics. Unconformably overlying the above units to the south are
(
WRANGELL
COAST
COAST
COAST
COAST
COAST
COAST
COAST
COAST
COAST
PLUTONIC
PLUTONIC
PLUTONIC
PLUTONIC
PLUTONIC
PLUTONIC
PLUTONIC
PLUTONIC
PLUTONIC
(
mid-upper Jurassic
STEWART
CO
MPLEX
CO
MPLEX
CO
MPLEX
CO
MPLEX
CO
MPLEX
CO
MPLEX
CO
MPLEX
CO
MPLEX
CO
MPLEX
(
n
PRINCERUPERT
BOWSERBASIN
(
SMITHERS
KINASKAN LAKEPROJECT
(
CACHE CREEK
CACHE CREEK
CACHE CREEK
CACHE CREEK
CACHE CREEK
CACHE CREEK
CACHE CREEK
CACHE CREEK
CACHE CREEK
SLIDE MOUNTAIN
SLIDE MOUNTAIN
SLIDE MOUNTAIN
SLIDE MOUNTAIN
SLIDE MOUNTAIN
SLIDE MOUNTAIN
SLIDE MOUNTAIN
SLIDE MOUNTAIN
SLIDE MOUNTAIN
CACHE CREEK
CACHE CREEK
CACHE CREEK
CACHE CREEK
CACHE CREEK
CACHE CREEK
CACHE CREEK
CACHE CREEK
CACHE CREEK
QUESNELLIA
QUESNELLIA
QUESNELLIA
QUESNELLIA
QUESNELLIA
QUESNELLIA
QUESNELLIA
QUESNELLIA
QUESNELLIA
ALEXANDER
ALEXANDER
ALEXANDER
ALEXANDER
ALEXANDER
ALEXANDER
ALEXANDER
ALEXANDER
ALEXANDER
S T I K I N I A
S T I K I N I A
S T I K I N I A
S T I K I N I A
S T I K I N I A
S T I K I N I A
S T I K I N I A
S T I K I N I A
S T I K I N I A
SLIDE MOUNTAIN
SLIDE MOUNTAIN
SLIDE MOUNTAIN
SLIDE MOUNTAIN
SLIDE MOUNTAIN
SLIDE MOUNTAIN
SLIDE MOUNTAIN
SLIDE MOUNTAIN
SLIDE MOUNTAIN
CASSIARCASSIARCASSIARCASSIARCASSIARCASSIARCASSIARCASSIAR
CASSIAR
CHUGACH
CHUGACH
CHUGACH
CHUGACH
CHUGACH
CHUGACH
CHUGACH
CHUGACH
CHUGACH
WRANGELLIA
WRANGELLIA
WRANGELLIA
WRANGELLIA
WRANGELLIA
WRANGELLIA
WRANGELLIA
WRANGELLIA
WRANGELLIA
135°W
60°N
130°W 125°W
55°N
FIGURE NO:
NTS:
SCALE:
DATE: Mar. 2007
1:5,000,000
TERRANE BOUNDARIES
Kilometres
0 100 200
Source of Information: http://www.em.gov.bc.ca/Mining/Geolsurv/MapPlace6.1.1
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
B.C., CANADA
WRANGELL
Snip
CopperCanyon
TELEGRAPH CREEK
Golden Bear
AL
A S
K A
CB
..
GaloreCreek
SchaftCreek
EskayCreekJohnny
Mountain
GJ - DONNELY
QC
(Canadian Gold Hunter)
SpectrumRed Dog
KINASKANLAKE
PROJECTRed Chris(bcMetals)
Bell II
Bob QuinnLake
-130°
58°
-132°
F GURE :I NO
NTS:
SCALE:
DATE: Mar. 2007
1:1,000,000
REGIONAL GEOLOGY
B.C., CANADA
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Kilometres
0 25 50
L E G E N D
Upper Cretaceous and younger Mainly basalt flows.
Source of Information: http://www.em.gov.bc.ca/Mining/Geolsurv/MapPlace
Jurassic/Cretaceous and younger Intrusives. Mainly Coast Plutonic complex.
Triassic and Jurassic Intrusive rocks.
Upper Triassic to Middle Jurassic volcanicsand sediments - Hazelton and Stuhini groups.
Permian and older sediments and volcanicsand metamorphic equivalents
Mine or former producer
Developed Prospect (Cu &/or Au)
6.1.2
"37
CopperCreek
Iskut
$$$$
$$
$$
$$
$$
$$
$$$$
$$
$$$$
$$
$$
$$
$$
$$
$$
$$
$$$$
$$
LAK
E
KIN
AS
KA
N
GROAT STOCK
GROATGROATGROATGROATGROATGROATGROATGROATGROAT
(DONNELLY)(DONNELLY)(DONNELLY)(DONNELLY)(DONNELLY)(DONNELLY)(DONNELLY)(DONNELLY)(DONNELLY)
PASSPASSPASSPASSPASSPASSPASSPASSPASS
GOSSANGOSSANGOSSANGOSSANGOSSANGOSSANGOSSANGOSSANGOSSAN
HORNHORNHORNHORNHORNHORNHORNHORNHORN
NORTHNORTHNORTHNORTHNORTHNORTHNORTHNORTHNORTHHORNHORNHORNHORNHORNHORNHORNHORNHORN
EASTEASTEASTEASTEASTEASTEASTEASTEAST
SOUTHSOUTHSOUTHSOUTHSOUTHSOUTHSOUTHSOUTHSOUTH
SEESTERSEESTERSEESTERSEESTERSEESTERSEESTERSEESTERSEESTERSEESTER
GJGJGJGJGJGJGJGJGJ
TREVOR PEAKTREVOR PEAKTREVOR PEAKTREVOR PEAKTREVOR PEAKTREVOR PEAKTREVOR PEAKTREVOR PEAKTREVOR PEAK
WOLFWOLFWOLFWOLFWOLFWOLFWOLFWOLFWOLF
ARTARTARTARTARTARTARTARTART
SUNSUNSUNSUNSUNSUNSUNSUNSUN
BLOW DOWNBLOW DOWNBLOW DOWNBLOW DOWNBLOW DOWNBLOW DOWNBLOW DOWNBLOW DOWNBLOW DOWN
CENTRALCENTRALCENTRALCENTRALCENTRALCENTRALCENTRALCENTRALCENTRAL
QUASHQUASHQUASHQUASHQUASHQUASHQUASHQUASHQUASH
GORDONGORDONGORDONGORDONGORDONGORDONGORDONGORDONGORDON
TUKTUKTUKTUKTUKTUKTUKTUKTUK
QCQCQCQCQCQCQCQCQC
CASTLECASTLECASTLECASTLECASTLECASTLECASTLECASTLECASTLE
A9/A8A9/A8A9/A8A9/A8A9/A8A9/A8A9/A8A9/A8A9/A8
HORN (SF)HORN (SF)HORN (SF)HORN (SF)HORN (SF)HORN (SF)HORN (SF)HORN (SF)HORN (SF)
NORTHNORTHNORTHNORTHNORTHNORTHNORTHNORTHNORTH
YTYTYTYTYTYTYTYTYT
Andesitic to Felsic Volcanics & volcaniclasticsminor limestone
Mafic to intermediate volcaniclastics
UPPER TRIASSIC Stuhini Group
Siltstones, volcanic sandstones, basalt flows, limestone
Quartz Diorite - Monzodiorite - Monzonite
Map Modified From Open File 1997-3 by C.Ash et al, 1997
GEOLOGICAL LEGEND
PLIOCENE TO RECENT
Olivine Basalt: flows, pyroclastics
LOWER JURASSIC Hazelton Group
LOWER JURASSIC - UPPER TRIASSIC
Fault Approximate
Fault Defined
Mineral Showing
Thrust Fault
Fault Inferred
Alkali granite / felsite
INTRUSIVES - EARLY JURASSIC
$$
FIGURE NO:
NTS:
SCALE:
DATE: Mar. 2007
1:100,000
Source of Information: http://www.em.gov.bc.ca/Mining/Geolsurv/MapPlace Open File 1997-3 by C.Ash et al, 1997
PROPERTY GEOLOGY
Meters
0 2000 4000
6.1.3
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
B.C., CANADA
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
9
chert pebble conglomerate, grit, greywacke and siltstone of the Middle Jurassic Bowser Lake Group (Ash et al., 1997a). Transecting the Upper Triassic to Middle Jurassic assemblage are a distinctive suite of massive, flow-banded and locally spherulitic rhyolites and associated pyroclastics that have been variously interpreted as Lower Jurassic (Read, 1984) or Upper Cretaceous to Lower Tertiary (Souther, 1972) in age. Capping the stratigraphy at the higher elevations are Upper Tertiary and Pliocene to Recent basalt and olivine basalt flows, commonly exhibiting excellent columnar jointing. Intrusive rocks in the Klastline Plateau area are typically fine to medium grained dykes, sills and plutons of Early Jurassic age (Ash et al, 1997b)2 with compositions varying from diorite to granodiorite, monzodiorite, monzonite and syenite. A U-Pb zircon determination of 205.1 + 0.8 Ma for the Groat Stock (Friedman and Ash, 1997) dates this intrusive body as probably Late Triassic (see previous footnote) and suggests that it is slightly older than the presumed lower volcaniclastic sequence in the Hazelton Group, from which a U-Pb zircon date of 202.1 + 4.2 Ma was obtained from “. . . quartz-phyric alkali trachyte clasts from the volcanic breccia unit . . . .” (Friedman, 1995; quoted in Ash, et al., 1997b). This occurrence was on the north side of Ealue Lake, some 12 kilometres to the north-east of the Groat Stock. In 2005, Danni Alldrick of the BC Geological Survey Branch collected two drill core samples of Groat Stock, monzodiorite from the Donnelly Zone (DDH CGH-05-035 @ 87-107 meters & CGH-05-036 @ 383-405 meters) that returned U-Pb ages of 206.25 + 0.39 Ma and 206.81 + 0.65 Ma respectively (e-mail communication, July 14, 2006). A younger intrusive suite includes alkali-granite to felsite dykes that range from a few metres to over a kilometre in width and are coeval with felsic volcanics in the upper volcanic sequence of the Hazelton Group. U-Pb zircon age dates (Ash et al., 1997b) were reported from an alkali granite dyke (180.0 +10.1/-1.0 Ma) and massive fine-grained quartz porphyritic rhyolite (181.0 +5.9/-0.4 Ma) within the Hazelton sequence. Regionally, intrusive rocks all fall within the Stikine Arch structural domain, a regional feature along which Late Triassic-Early Jurassic intrusive and related (island arc type) volcanic activity took place. Commonly the quartz deficient, alkalic and sub-alkalic intrusive rocks, including the Groat Stock and related dykes and sills on the property, have associated copper-gold porphyry and/or precious metal vein systems. Significant deposits of this type in the region include: Red Chris, where at a 0.20% Cu cut-off, measured and indicated resources total 446.1 million tonnes averaging 0.36% Cu and 0.29 gpt Au, with an additional inferred tonnage of 268.7 million tonnes at 0.30% Cu and 0.27 gpt Au (Collins et al., 2004); Galore Creek, where published measured and indicated resources using a 0.25% Cu equivalent cut-off, are about 749 million tonnes grading 0.52% Cu, 0.30 gpt Au and 4.9 gpt Ag. A further 300.1 million tonnes of inferred resources grade 0.37% Cu, 0.21 gpt Au and 3.7 gpt Ag. These resources were
2 There is also the problem that much of the recent published work in the region (see, e.g., Ash, et al. (1995, 1996, 1997a, 1997b); Logan et al., 2000; Evenchick and Thorkelson, 2005) uses the previously accepted 208+7.5 Ma Triassic-Jurassic Boundary assignment of Harland et al. (1990), rather than the more recently proposed 200+1.0 Ma designation (see Okulitch, 1999; Pálfy et al., 2000). For the purposes of this report, we have chosen to use the more recent chronology, and refer to the Stuhini Group strata and associated intrusive rocks as Triassic, and the overlying Hazelton rocks as Jurassic.
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
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published in the Galore Creek Project Feasibility Study, prepared by Hatch Ltd. of Vancouver for NovaGold Canada Inc., October 31, 2006. Schaft Creek, where at a 0.35% “copper equivalent” cut-off, measured and indicated resources total 464.7 million tonnes grading 0.359% Cu, 0.040% MoS2, 0.25 gpt Au and 1.99 gpt Ag; with an additional inferred resource of 169.3 million tonnes grading 0.358% Cu, 0.045% MoS2, 0.26 gpt Au and 2.19 gpt Ag (Giroux and Ostensoe, 2003; quoted in McCandlish, 2004). A revised resource estimate is expected by the end of March, 2007. The younger, felsic intrusives are also mineralized with finely disseminated pyrite + chalcopyrite containing elevated copper and gold values. These sulphides commonly occur in silicified zones within the dykes and adjacent country rocks. Showings of this type exist in the northern portions of the property at the Horn, Tuk and Castle prospects. 6.2 Property Geology The southern third of the property and that which is the focus of this report is underlain by Stuhini Group rocks intruded by the Groat Stock and its various apophyses all unconformably overlain by Lower Jurassic Hazelton volcanics. Porphyry copper-gold style mineralization and alteration related to the Groat Stock exists in the Stuhini Group rocks but not in the unconformably overlying Hazelton volcanics. Within the core project area (Figure 6.2.1), Stuhini Group rocks are dominated by thinly bedded to laminated, siltstones, siliceous siltstones, mudstones, chert, graphitic chert and minor limestone interbedded with lesser amounts of massive, fine to medium grained feldspathic wackes, volcanic derived conglomerate beds, minor massive andesite and augite porphyritic basalt flows all intruded by the Groat Stock. The siltstones vary from buff to light grey and pale green, cherts vary from white to black and the wackes vary from grey to brown depending upon biotite content. Radiolarian fauna taken from these fine grained sediments near the southwestern boundary of the Groat Stock are Middle(?) to Late Triassic in age (Ash, 1997). Conglomerates are reworked intermediate volcaniclastics, likely lahars and debris flows, probably andesite to trachyandesite in composition and are likely equivalent to the lower volcanic suite within the Hazelton volcanics mapped by Ash. They vary from matrix to clast supported with clast size ranging from mm through pebble to cobble and locally boulder size. The unit is typically light grey to grey-green coloured. The best exposure and thickest occurrence of the conglomerates occur immediately northeast of the North Zone. Similar but much thinner intervals of conglomerate interbedded with siltstones and wackes were intersected in drill holes in the central part of the North Zone and occasionally in the Donnelly Zone. The massive andesite units are restricted to a few outcrops south and north of the western end of the North Zone. These may represent dykes or sills of the lower Hazelton volcanic suite. Their overall extent appears to be very limited. The basalt flows are dark grey to green or black. They appear to be massive, contain augite + plagioclase phenocrysts and are restricted to the western half of the study area where they have been intersected in numerous holes within the Donnelly and Donnelly North Zones. Intruding the Stuhini Group rocks as a complex series of sills, dykes and irregular plugs are fine-medium grained, equigranular to porphyritic diorite-monzodiorite-monzonite of the Groat Stock. East of the North Zone, the Groat Stock appears to be a weakly altered, massive quartz-deficient plug whereas in
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
11
the North, GJ, Donnelly and Donnelly North Zones, drilling suggests the stock consists of numerous fault bounded dykes-sills that are up to at least 100 meters thick and are relatively concordant with bedding in the host sedimentary rocks. The elongate, east northeast by west southwest shape of the stock in fact appears to be a function of parallel, strike slip faulting, possibly related to the regional, Ealue Lake fault that has had the net effect of stretching the stock into its current shape. In the most common, monzodiorite phase, primary mineralogy consists of 25-55%, 1.5-2 mm, plagioclase phenocrysts and 5-20%, similar sized hornblende phenocrysts set in a very fine grained to aphanitic groundmass composed of K-feldspar, plagioclase, hornblende + biotite. The unit typically has a trachyitic texture. Unconformably overlying both the Stuhini Group stratigraphy and Groat Stock are black, grey and maroon coloured, sub aqueous to sub aerial volcaniclastics and flows of the upper, Hazelton Group volcanic suite. These rocks occur as a flat to shallow, south westerly dipping sequence of relatively unaltered strata that cap the underlying units including on occasion, copper-gold mineralization, along ridges to the north and south of the Donnelly Zone as well as at lower elevations west of the Donnelly Zone. 6.3 Structural Geology Rocks throughout the property are affected by large scale, open folding or warping and significant, high angle brittle faulting. Evidence of folding in thick bedded sequences is largely based on observations in the thinly bedded sediments where general variations in strikes and dips can be used to infer folding. In the North-GJ-Donnelly area, dips and strikes within the sediments differ substantially over short distances. However as one gets further away from the Groat Stock, bedding continues to strike approximately east-west but dips in the north are generally at –55º to -75º to the north while south of Groat Creek they are -55º to -75º to the south suggesting a broad anticline centred along the Groat Stock. Faulting is widespread throughout the property along three principal directions. The dominant and most important is a generally east-west striking fault system that forms a splay off the regionally prominent Ealue Lake fault. Emplacement of the Groat Stock as well as later, strike-slip faulting that has apparently “stretched” the stock into its current elongated shape are related to this fault direction. Porphyry copper-gold mineralization related to emplacement of the stock, and post-mineral, post Hazelton ankerite alteration are both believed related to this long lived, pre, syn and post mineralization fault direction. A second, later but significant faulting event occurred along north-south striking structures. These left lateral faults post-date emplacement of the Groat Stock and are responsible for the apparent 1 km. offset between the relatively massive intrusive outcropping on Wolf Plateau and the more elongate sills and dykes observed in the Donnelly-GJ-North zones. Late, north-south striking, post copper-gold mineralization dolomite veins, many with significant gold + arsenic + zinc + silver values, are observed throughout the property and are believed related to this fault system. A third fault system striking north-northwest and dipping south-west is inferred from airphoto and topographic lineaments, offsets in geophysical data and geological data from drill holes at the western end of the Donnelly and Donnelly North Zones, where Hazelton stratigraphy appears to be down dropped along these normal faults with little to no lateral movement. The faults are post copper-gold mineralization and based on current geological interpretation, are cut by late movement along the east-west striking faults. Recent geological mapping by the BC Geological Survey Branch (personal communication – Dani Alldrick) has traced the Middle Jurassic Eskay Creek Rift to within a few
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
12
kilometres south of the property and it is reasonable to assume these north-northwest oriented faults are the northern projection of the eastern side of that rift-fault system. 6.4 Mineralization The Kinaskan Lake property hosts three principal styles of mineralization: i.) porphyry copper-gold mineralization related to 200-205 MA aged quartz deficient intrusives like the Groat Stock. ii.) disseminated pyrite + chalcopyrite mineralization with copper-gold values associated with silicification related to 180 MA aged alkali granite/felsite dykes. iii.) dolomite-quartz vein/fault controlled pyrite-chalcopyrite-arsenopyrite + sphalerite + galena with gold and silver values. Occurs along more or less north-south structures possibly related to mid Jurassic rifting. Style i.) The most significant of the three and the subject of this report is the porphyry style mineralization currently being explored in an area measuring 3.5 km east-west by 3.5 km north-south where disseminated, fracture, quartz vein and quartz stockwork controlled pyrite with variable chalcopyrite, rare bornite and trace molybdenite mineralization containing elevated gold values has been identified in the North-GJ-Donnelly and Donnelly North Zones. Throughout the GJ, North, and eastern half of the Donnelly Zone most of the chalcopyrite mineralization occurs where pyrite is weak and IP chargeability readings are in the 8-18 mv/v range. Chalcopyrite tends to be fine to medium grained allowing for reasonable grade estimating. Secondary magnetite as disseminations, irregular clots, in veins with K-spar + chlorite + epidote or as filling in single or sheeted fractures, 1-3 mm thick and mm to 10 cm apart is generally associated with chalcopyrite. Exceptions to this association (include the Donnelly and North Zone showings, the Donnelly North Zone) appear to be where magnetite has since been altered to hematite. Malachite occurs in the upper, weathered/oxidized portions of a few drill holes but for the most part is insignificant. In the western half of the Donnelly Zone and virtually all the Donnelly North Zone, mineralization has significantly different characteristics including chalcopyrite being much finer grained and associated with significant amounts of finely disseminated pyrite, often with silica flooding. Typically the better copper grades occur where chargeability values exceed 18 mv/v. Copper grade estimating is very difficult in this zone. On the GJ project, host rocks to the porphyry copper-gold (type i) and later dolomite-quartz veins (type iii) styles of mineralization include: various intrusive phases; basalt tuffs, flows and dykes; and sedimentary rocks of which the wackes are by far the most significant. Where mineralization occurs in siltstones or cherts, it tends to be restricted to a few metres laterally from intrusive rocks or fault structures and only where in close proximity to intrusives. In wackes and basaltic rocks mineralization is largely disseminated with fracture and quartz-chalcopyrite-pyrite + K-feldspar + magnetite + epidote + carbonate veins constituting a significant but smaller portion. Mineralization in intrusive rocks is largely confined to a fine to medium grained, equigranular monzodiorite phase although mineralized monzonites, crowded feldspar porphyries and mafic to leucocratic syenite phases have been noted. Generally the mineralization style is similar to that of the volcanic and sedimentary rocks where disseminated pyrite-chalcopyrite dominate with fracture and quartz-pyrite-chalcopyrite + K-feldspar + carbonate veins constituting a slightly smaller percentage. Along the northern margin of the Donnelly Zone (near the footwall contact) a relatively continuous fault-bounded interval of intensely altered intrusive with up to 55% quartz as veining, stockwork and sheeted veining is enriched in chalcopyrite and typically yields significantly higher copper-gold-silver
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grades (Figure 6.2.1). Similar, albeit finer grained mineralization has been encountered in the Donnelly North Zone but to date no distribution pattern has been noted. Style ii.) Mineralization of this style is not apparent in the GJ project area. However, finely disseminated pyrite occasionally with relatively coarse chalcopyrite in veins has been noted in dacite units within the Hazelton stratigraphy in the western Donnelly and Donnelly North Zones. This mineralization which may be similar in age to style ii can be associated with weak silicification and weakly anomalous gold values. It is unclear if this “younger” mineralizing event has had any effect on the underlying copper-gold mineralized Stuhinni rocks but it is curious that this area is where the copper-gold mineralization tends to be finer grained and more pyritic. Style iii.) Cutting the southern Klastline Plateau including the Groat Stock, copper-gold mineralization and overlying Hazelton Stratigraphy are north striking, steeply dipping dolomite veins up to about 2 metres wide that contain pyrite + arsenopyrite + chalcopyrite + sphalerite + galena. These veins have been mapped on surface east of the drilling area and along Groat Creek and have been intersected in numerous drill holes, most commonly in the eastern portion of the Donnelly Zone. 6.5 Alteration Alteration associated with emplacement of the Groat Stock and subsequent hydrothermal fluids related to mineralization is varied and irregular. All units are micro fractured and brecciated. In some drill holes, clasts in brecciated intervals are rounded and strongly altered; the rocks are reminiscent of hydrothermal breccias. In the siltstones, micro fractures are often filled with fine-grained, grey quartz. Where the siltstones are in or close to mineralization and intrusive rocks, they tend to be very hard, silicified and have a mottled, cream to grey-green to brown or red brown colouration. Whether some of this apparent silicification is due to hornfelsing by post-mineral phases of the Groat Stock is unclear. In some localities, the siltstones appear to have been altered and recrystallized into what are now best called quartzites. Within the mineralized zone, regardless of whether the rocks are intrusive or wackes, alteration consists of an early, selective pervasive potassic alteration overprinted by later, phyllic and propylitic (carbonate) alterations (Petrascience Consultants, 2004). The potassic alteration includes:
• Selective replacement by K-feldspar of rims to plagioclase crystals • K-feldspar–magnetite-chalcopyrite + quartz + epidote + bornite veins • K-feldspar vein selvages • Patchy replacement by K-feldspar • Replacement of mafic phenocrysts or phases by actinolite or secondary biotite • Secondary biotite envelopes developed along veins
The phyllic and propylitic alterations are represented by quartz-sericite + carbonate + chlorite + pyrite + epidote which overprint the potassic alteration and yield the following textures:
• Selective replacement of plagioclase cores by sericite + carbonate • Veinlets of quartz-pyrite-chalcopyrite + carbonate • Patchy and disseminated carbonate alteration of plagioclase, biotite and hornblende • Replacement of secondary biotite by chlorite + carbonate + epidote + rutile • Magnetite, chalcopyrite and pyrite are variably rimmed and replaced by hematite.
Late, orange weathering ankerite which overprints the potassic and phyllic alteration appears to be related to the east-west fault structures and is likely of Hazelton age. Calcite veins cut the ankerite.
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7.0 2006 EXPLORATION PROGRAM Following the success of the 2005 program, CGH continued its exploration of the Donnelly Zone and commenced drilling untested anomalies to the north and northeast including the Donnelly North, YT, Saddle and North Zones. Work carried out included constructing 22.4 line km of cut grid line and 33.4 line km of flagged, picket grid line; completing 32.1 line km of deep penetrating (“a” spacing of 100 meters; n=1 to 8) pole dipole array IP and 53.8 line km of ground magnetometer (12.5 meter spaced readings) geophysical surveys; geological mapping and prospecting; collecting 14 rock and 69 soil samples and diamond drilling 18,133.16 meters of NQ2 sized core in 62 holes, 33 of which are the subject of this report. 8.0 DIAMOND DRILLING 8.1 General To date, 187 diamond holes totalling 48,844.07 metres have been drilled by five separate companies to test geophysical and geochemical anomalies associated with porphyry copper-gold mineralization exposed in outcrops along the northwest, west and southwest margins of the Groat Stock. This includes 27,756.38 meters in 91 holes within the Donnelly Zone, plus a further 5240.33 meters in 23 holes in the Donnelly North Zone, 9771.49 meters in 39 holes in the GJ Zone plus another 645.56 meters in 4 holes over the GJ East Zone, 3708.19 meters in 22 holes over the North Zone, 1130.81 meters in 6 holes in the Saddle Zone and 591.31 meters in the YT Zone. A chronological listing of the drilling campaigns is shown in Table 8.1. Table 8.1: Diamond Drill Holes in the Groat Stock, Porphyry Copper-Gold System:
Year Company Zone No. of Holes
Metres Core Size
1970 Amoco (AM holes) GJ 5 1529.8 BQ 1971 Amoco (AM holes) GJ 9 1720.2 BQ 1971 Amoco (AM holes) North 5 759.0 BQ 1977 Texasgulf (TG holes) Donnelly 10 1523.9 BQ 1980 Texasgulf (TG holes) Donnelly 4* 1115.0 BQ 1981 Canorex (CA holes) GJ 7 1779.4 BQ 1990 Ascot (AS holes) GJ 7 1287.5 BTW 1990 Ascot (AS holes) Donnelly 2 365.8 BTW 2004 CGH (CGH holes) Donnelly 10 2617.2 BTW 2004 CGH (CGH holes) North 10 1618.8 BTW 2005 CGH (CGH holes) Donnelly 36 11,280.76 NQ2 2005 CGH (CGH holes) GJ 11 3454.59 NQ2 2005 CGH (CGH holes) GJ East 4 645.56 NQ2 2005 CGH (CGH holes) North 5 1013.4 NQ2 2006 CGH (CGH holes) Donnelly 29 10,853.72 NQ2 2006 CGH (CGH holes) Donnelly North 23 5240.33 NQ2 2006 CGH (CGH holes) Saddle 6 1130.81 NQ2 2006 CGH (CGH holes) YT 2 591.31 NQ2 2006 CGH (CGH holes) North 2 316.99 NQ2
* includes deepening hole TG-77-04 from 178.6 metres to 328.5 metres
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8.2 2006 Drilling Procedures From June 19 to September 21, Britton Brothers Diamond Drilling Ltd. cored 62, NQ2 (47.6mm diameter core) sized holes totalling 18,133.16 meters over the Groat Stock, copper-gold porphyry system. Thirty-three (33) holes totalling 7279.44 meters were drilled between July 9 and September 21 in the Donnelly North, Saddle, YT and North Zones (see Appendix C for details on drilling statistics). Drilling was carried out using two, Britton Bros., 2500 fly rigs with most drill moves and drill support completed with a Bell 206 Jet Ranger on contract from Pacific Western. Holes located below tree line at the extreme west end of the Donnelly North Zone were completed using an A-Star, model B helicopter also belonging to Pacific Western. For safety, speed and because of numerous “no-fly” days due to weather, daily crew changes were accomplished with ATV’s. Throughout the program, core was quick-logged at each hole then flown on a regular basis by helicopter to the core logging facility situated 200 meters northwest of camp. Prior to logging, core boxes were re-labeled, “from-to” intervals were inscribed on the front and top left hand corner of each box, core recoveries calculated, RQD geotechnical measurements taken and bulk densities determined (see section 9.0) by geotech personnel. Geologists logged, marked out sample intervals and photographed core before it was handed over to samplers who the cut the core with a rock saw or split it with a mechanical splitter depending upon geologists’ instructions which varied depending upon the competency of the core and degree of mineralization. Including inserted blanks, standards and duplicates (see section 12.0 on QC/QA), 1908 samples were collected (Donnelly North 1548; YT 9; Saddle 284; North 67) and analyzed. After sampling, boxes were stacked on 4 inch by 4 inch pressure treated posts adjacent to the logging facility in columns measuring 12-14 boxes high. Aluminum tags with hole number and interval were fastened to the front of each box and lids nailed to the top box in each column.
Drill hole collars were surveyed at the completion of the program. Down-the-hole surveying was carried out at the completion of each hole by drillers using a reflex survey tool. Readings were typically taken every 80-140 meters on shorter holes and every 200 meters on deeper holes. Drill logs including core recovery and RQD geotechnical data plus drill collar and down-the-hole survey data are contained in Appendix D. The drill hole assay database including sample numbers, intervals, I.C.P. values, gold and copper assays, check assays and oxide copper analysis, all by ALS Chemex are contained in Appendix E. Hole locations are shown on Figure 6.4.2. 8.3 Drilling Results In the Donnelly North Zone, drilling was carried out over an 860 meter east-west by 700 meter north-south area within a much larger, previously untested chargeability geophysical anomaly coincident with a ground magnetic high in the east and magnetic low in the west. A couple of anomalous gold and copper bedrock chip samples collected by Texasgulf in 1977, using a gas powered pinjaaar were reported to have been taken over the eastern half of the chargeability anomaly. Strongly developed hydrothermal, porphyry style alteration associated with widespread disseminated and fracture controlled pyrite with varying amounts of chalcopyrite were encountered in most drill holes. Numerous thick intersections of lower but significant grade material were encountered including 100.59 meters grading 0.147% copper and 0.221 g/t gold in CGH-06-093 as well as higher grade intervals including 39.76 meters grading 0.648% copper and 0.773 g/t gold in CGH-06-127.
Cross-sections of Donnelly North Zone holes showing geology, topography and copper-gold results are plotted as Figures 8.3.1 to 8.3.7. Significant mineralized intercepts are compiled in Table 8.3.1.
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Table 8.3.1 Significant Mineralized DDH Intercepts in The Donnelly North Zone
Interval Hole from to
Length (m)
Cu ( %)
Au (ppm)
CGH-06-090 79.25 137.16 57.91 0.339 0.385 CGH-06-091 112.78 219.46 106.68 0.142 0.158 CGH-06-093 24.38 124.97 100.59 0.147 0.221 CGH-06-094 146.30 271.27 124.97 0.135 0.204 CGH-06-096 141.40 179.83 38.43 0.139 0.196 CGH-06-098 131.06 204.22 73.16 0.174 0.219 CGH-06-099 143.26 222.50 79.24 0.339 0.638 CGH-06-103 60.96 152.40 91.44 0.300 0.401 CGH-06-104 146.30 179.83 33.53 0.247 0.530 CGH-06-106 23.00 207.26 184.26 0.166 0.143 CGH-06-127 15.77 55.53 39.76 0.648 0.773
and 201.17 304.80 103.63 0.145 0.236 CGH-06-130 29.00 274.32 245.32 0.332 0.228
includes 201.17 249.94 48.77 0.610 0.432 CGH-06-133 42.67 106.68 64.01 0.179 0.209 CGH-06-134 57.91 126.80 68.89 0.173 0.087 CGH-06-136 15.24 131.06 115.82 0.136 0.140 CGH-06-138 118.87 146.30 27.43 0.103 0.153
Immediately east of the Donnelly North Zone, covering the area between it and the North Zone is the Saddle Zone where six widely spaced holes tested a number of chargeabilty anomalies. Weakly altered Stuhinni Group sediments and volcanics containing minor disseminated and fracture controlled pyrite were encountered but no significant mineralized intercepts were noted. Based on alteration and sulphide intensity and style, it would appear the Saddle Zone is on the outer flanks of the GJ hydrothermal porphyry system. Cross-sections of Saddle Zone holes showing geology, topography and copper-gold results are plotted as Figures 8.3.8 to 8.3.12. As part of the on-going exploration of geophysical targets in the North Zone, two holes were drilled to test widely spaced anomalies. Both encountered Stuhinni age rocks with varying degrees of alteration and pyrite mineralization but no copper mineralization was intersected. Cross-sections of the two holes are plotted as Figures 8.3.13 and 8.3.14. North of the Saddle Zone, the YT copper showing is situated along the lower section of a small hill capped by younger Hazelton stratigraphy coincident with a strong airborne and ground magnetic high. It was believed the poorly exposed mineralization was hosted by strongly altered diorite situated below the Upper Triassic – Lower Jurassic unconformity. Two holes tested the area but failed to get through Hazelton stratigraphy. No mineralization was intersected. A cross-section of the holes is plotted as Figure 8.3.15. 9.0 BULK DENSITY DETERMINATIONS 9.1 Results As part of the 2006 drilling program, drill core was routinely and systematically tested to determine the “in-situ”, bulk density. For the 228 tests completed, the average density was 2.73 g/cm³, similar to the values determined in the 2005 drilling campaign and by Ascot Resources when testing historic core in 1989. A summary of in-situ, bulk density values for the major rock types is shown in Table 9.1. A
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complete list of individual tests including drill hole, zone, rock type, sample depth and dry and submerged weights is contained in Appendix F. Table 9.1 In-Situ, Bulk Density Determinations by Rock Type from 2006 Drill Core
Rock Type Age No. of Sample Measurements
Bulk Density (in g/cm³)
Andesites Hazelton post-mineral 5 2.71 Dacites Hazelton post-mineral 8 2.70 Basalts Hazelton post-mineral 9 2.68 Cherts Stuhinni pre-mineral 22 2.70
Siltstones Stuhinni pre-mineral 4 2.81 Basalts Stuhinni pre-mineral 10 2.77
Monzodiorite Triassic-Jurassic syn-mineral 31 2.70 9.2 Methodology Bulk densities were determined using an electronic scale capable of measuring up to 3000 grams with an accuracy stated at + 1 gram. Tests were systematically carried out on core generally weighing at least 800 grams which equates to pieces in the order of at least 12-15 cm long. To ensure the testing was systematic, a piece of drill core was tested about every 30 meters with the first sample in each hole corresponding to the first solid piece of core long enough to meet testing criteria. Where core was ground, broken or otherwise unsuitable for measuring, the piece of core closest to 30 meters from the previous sample in the hole was used for testing. To measure bulk density the core sample was cleaned of any loose or friable material, submerged in water to let all pores and cracks fill with water (as it would be in-situ), then wiped of any excessive water and weighed in a wire basket a minimum of three times to determine its dry weight. Once repeatable weights were obtained, the sample was put in another basket and weighed submerged. Volume was calculated by subtracting the submerged weight from the dry weight and bulk density was calculated by dividing the “dry” weight by the volume. 10.0 SURVEYING Between September 17 and September 20, Steve Soby surveyed all the CGH, 2006 drill hole collars as well as CGH-05-065. Surveying was completed with a differential GPS instrument. A complete list of 2006 drill hole collars and down-the-hole survey data is available in Appendix G. This information is also available on all drill logs. 11.0 SAMPLE PREPARATION, ANALYSIS AND SECURITY 11.1 Sample Preparation All core samples were submitted to ALS Chemex in North Vancouver. Sample preparation included drying followed by crushing the entire sample to better than 70% passing a 2 mm (Tyler 10 mesh) screen. A split of up to 250 grams was taken and pulverized to better than 85% passing a 75 micron (Tyler 200 mesh) screen; this pulp was sub-sampled for analysis.
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11.2 Sample Analysis Each sample was analyzed for 34 elements including copper and silver with conventional inductively coupled plasma-atomic emission spectrometry (“ICP-AES”) analysis using 0.50 gram sub-samples digested with aqua regia. Samples yielding >10,000 ppm (1.0%) Cu or > 100 ppm Ag were re-assayed by dissolving 0.4-2.0 grams of sample pulp with concentrated nitric acid for 0.5 hours then analyzing by the AAS method, controlled by matrix-matched standards. Gold values were determined using a standard fire assay – atomic absorption (“FA/AAS”) procedure on 30 gram sub-samples. All samples returning >1 ppm Au were re-assayed using a gravimetric analytical procedure on a 30gram sub-sample. Details on ALS Chemex’s analytical and sample preparation procedures are in Appendix H. 11.3 Security Core samples were collected in plastic sample bags secured with sure-lock straps. For shipping, samples were put into numbered rice sacks secured with “randomly numbered” sure-lock straps at the project site then flown by helicopter to Tatogga Lake Lodge where they were received and put into a locked storage facility until picked up by Bandstra Trucking. From Tatogga, samples were transported direct to the ALS Chemex laboratory in North Vancouver for preparation and analysis. A list of rice sacks, their contents and the “random numbered” sure-lock strap put on each rice sack were e-mailed to Equity Engineering’s office in Vancouver at the time the samples left the project site. Equity then notified ALS Chemex of the number of rice sacks, samples and sample type that were being shipped. 12.0 DATA VERIFICATION Quality control (“QC”) and data verification during the 2006 drill program was effected by the use of three dedicated standards, each being inserted in every 77 samples (in addition to the laboratory’s in-house standards) prepared by CDN Resource Laboratories (“CDN”) of Burnaby, British Columbia and subjected to multiple round-robin analyses by ten different laboratories to establish confidence limits for copper and gold. Table 12.1 lists the acceptable values and ranges for the three standards employed. Table 12.1 Grade and Range of Standards Employed With 2006 Drill Core Analysis
Standard Copper (%) Gold (g/t) Number Accepted Range (+) Accepted Range (+)
CDN-CGS-2 1.177 0.046 0.97 0.092
CDN-CGS-5 0.155 0.006 0.13 0.020
CDN-CGS-6 0.318 0.018 0.26 0.030
Note: The + range is the 95% confidence limits.
Monitoring of the standards assays indicated most assay reports returned acceptable results from the point of view of the standard assays falling within the acceptable limits. As an additional component of the data verification process, one sample in every 77 had a second pulp prepared from reject material (prep duplicate), one sample had two assays carried out on the same pulp (assay duplicate), one sample had both halves of the core analysed (core duplicate) and a single blank from previously assayed, “barren” material was inserted. Throughout the drilling program, Dr. Giles Peatfield closely monitored analytical results, resulting in a small number of minor discrepancies being identified through the use of blanks, standards and duplicates. These resulted in samples being re-assayed by ALS Chemex until the problems were resolved to Giles’s satisfaction.
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13.0 INTERPRETATION AND CONCLUSIONS Drilling of the previously untested, 1400 meter by 525 meter, Donnelly North, IP, chargeability anomaly has encountered porphyry copper style alteration with widespread pyrite containing significant intersections of copper-gold values. Although controls on mineralization are poorly understood, sulphides appear to be finer grained, and the Au:Cu ratio and pyrite:chalcopyrite ratios are higher than noted elsewhere on the GJ project. East-west and north-northwest striking, post-mineral faulting combined with wide drill hole spacing makes interpretation of the zone and in particular, the connection of mineralized intercepts from section to section, very difficult. However, with significant copper-gold grades occurring over at least 560 meters in an east-west direction, the Donnelly North Zone has the potential to add substantial resources to the overall GJ project. Two widely spaced holes in the North Zone failed to encounter copper-gold mineralization although both holes did intersect hydrothermally altered, pyrite-bearing, Stuhinni stratigraphy with a couple of samples yielding weakly elevated gold values. As in past drilling, core from the North Zone suggests it is relatively high in the porphyry system and may represent an area where copper-gold mineralization exists at depth. Initial drill testing of the Saddle Zone, covering the area between the highly altered and mineralized North and Donnelly North Zones intersected weakly altered, pyrite-bearing, Stuhinni Group stratigraphy. It would appear that these rocks occur in the outermost fringes of the GJ project, copper-gold porphyry mineralized system. Two widely spaced holes drilled in the YT Zone to test a magnetic high and small copper showing failed to get out of weakly altered, non-mineralized Hazelton stratigraphy. The showing appears to be of limited extent and unrelated to the GJ, copper-gold porphyry system. 14.0 RECOMMENDATIONS To more accurately define the extent, shape, continuity and grade of the mineral resource in the Donnelly North Zone, substantially more diamond drilling is recommended. This includes in-fill holes that reduce hole spacing to about 100 meters over the mineralized zone plus step-out drilling to the west, north and east to better define the extent of the mineralized zone. To help locate and define fault offsets and possible mineralization trends, additional, ground-magnetometer and IP, geophysical surveys are recommended as in-fill between existing geophysical lines. Ground magnetometer surveys should reduce line spacing to 50 meters with readings taken every 12.5 meters. IP surveys should reduce line spacing to 100 meters. The geophysical work should be conducted prior to drilling and be used in spotting drill hole locations. Continued exploratory drill holes are recommended over untested chargeability anomalies within the North Zone but they should only be drilled in conjunction with larger drill programs being carried out elsewhere on the property. No further exploration work is recommended in the Saddle or YT Zones. 15.0 REFERENCES Ash, C., Macdonald, R., Stinson, P. et al, 1997. Geology and Mineral Occurrences of the Tatogga Lake
Area. B.C. Geological Survey Branch Open File 1997-3
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Collins, J., Colquhoun, W., Giroux, G.H., Nilsson, J.W. and Tenney, D., 2004. Technical Report on The Red Chris Copper-Gold Project, Liard Mining Division. Merit Consultants International
Inc., Amec Americas ltd., Giroux Consultants Ltd., Nilsson Mine Services Ltd. and Mine Geology Services. Report prepared for Red Chris Development Company Ltd. and bcMetals Corporation (posted on Sedar).
Dodds, A.R., 1965. Report on an Induced Polarization and Magnetometer Survey, Q.C. Claim Group,
Kinaskan lake, British Columbia. Assessment Report 701. Evenchik, C.,1991. Geometry, Evolution and Tectonic Framework of the Skeena Fold Belt, North
Central British Columbia; Tectonics, in press.
Giroux, G.H. and Ostensoe, E.A. 2003. Summary Report Status and Resource Estimate, Schaft Creek Property, Northwestern British Columbia. Giroux Consultants Ltd. and E.A. Ostensoe Report prepared for 955528 Alberta Ltd. (quoted in McCandlish, 2004).
Harris, S. 2006. 2005 Geological, Geochemical and Geophysical Report on the Kinaskan Lake/GJ Property. Equity Engineering Ltd. Unpublished report prepared for Canadian Gold Hunter Corp.
Lacroix, P.A., 2004. Update on Resources, Galore creek Project, British Columbia. Hatch/Associated Mining Consultants Ltd. Report for NovaGold Resources Inc. and SpectrumGold Inc. (posted on Sedar).
Logan, J.M. and Loyanagi, V.M., 1989: Geology and mineral deposits of the Galore Creek area, Northwestern B.C.; British Columbia Ministry of Energy, Mines and Petroleum Resources,
Geological Fieldwork, 1988, Paper 1989-1, p. 269-284. McInnis, M.D., 1981. Drilling Report on the GJ and Spike 1 and Spike 2 Claims, Liard Mining Division. Report prepared for Dimac Resources Corp. by Canorex Minerals Ltd. Mehner, D.T., 1991c. Assessment Report on Soil and Rock Geochemical Sampling, Mapping and
Reconnaissance I.P. and Ground Magnetometer Surveys on the Axe Property, Liard Mining Division, B.C., NTS 104G/9 and 16 for Ascot Resources Ltd.
Mehner, D.T., 1991d. Assessment report on Diamond Drilling, Contour Soil Sampling and Geophysical
Surveys of the GJ Property, Liard Mining Division, B.C. Mehner, D.T., 2004. Geological Report on the Kinaskan Lake Project, Liard Mining Division, BC.
Report prepared by Keewatin Consultants (2000) Inc. for Canadian Gold Hunter Corp. Mehner, D.T. and Peatfield, G.R., 2005. Technical Report on the Donnelly-GJ-North, Copper-Gold
Porphyry Zones, Kinaskan Lake Project, Liard Mining Division, British Columbia. Report prepared for Canadian Gold Hunter Corp. (posted on Sedar).
Mehner, D.T. and Peatfield, G.R., 2006. Technical Report on the Kinaskan Lake, Copper-Gold Porphyry Project, Donnelly, GJ and North Zones, Liard Mining Division, British Columbia. Report prepared for Canadian Gold Hunter Corp. (posted on Sedar).
National Geochemical Reconnaissance, 1:250,000 Map Series, 1988. Geological Survey of Canada, Open File.
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Olfert, E., 1991. Assessment Report on the 1991. Exploration Program (Geology, Geochemistry, Trenching and Geophysics) on the Axe Property, Liard Mining Division, NTS 104 G/9 and 16
Phendler, R.W., 1980. Report on the Horn and Big Claims (Covering the S.F. and Q.C. Prospects), Liard Mining Division, B.C. Unpublished Company Report for ERL Resources Ltd. Rhys, D.A., 1995. The Red Bluff gold-copper porphyry and associated precious and base metal veins, Northwestern British Columbia. In Porphyry Deposits of the Northwestern Cordillera of North
America. Edited by T.G. Schroeter. Canadian Institute Of Mining, Metallurgy and Petroleum, Special Volume 46, p. 838-850
Scott, A., 2002. Logistical Report, Induced Polarization and Magnetometer Surveys, GJ Project, Iskut Area, B.C., on behalf of International Curator Resources Ltd. Scott, A., 2003. Logistical Report, Induced Polarization and Magnetometer Surveys, GJ Project,
Iskut Area, B.C., on behalf of International Curator Resources Ltd. Scott, A., 2004. Logistical Report, Induced Polarization and Magnetometer Surveys, GJ Project,
Iskut Area, B.C., on behalf of Canadian Gold Hunter Corp. Scott, B., 2005. Logistical Report, Induced Polarization and Magnetometer Survey, Kinaskan Lake Project, Iskut Area, B.C., on behalf of Canadian Gold Hunter Corp. Souther, J.G., 1971. Telegraph Creek Map Area, British Columbia. Geological Survey of Canada,
Paper 71-44.
Travis, A., 2002. Geological, Geochemical and Prospecting Report Undertaken on the Kinaskan Lake Property, Liard Mining Division, B.C., NTS 104G 69, 70, 79, 80 & 90. for Royal County
Minerals Ltd. Report prepared by Keewatin Consultants 2002. Respectfully Submitted, ____________________ Dave Mehner, MSc., P. Geo. March 21, 2007
APPENDIX A
CCEERRTTIIFFIICCAATTEE ooff AAUUTTHHOORR I, David Mehner, P. Geo. do hereby certify that: 1. I am a geological consultant with offices at 333 Scenic Drive, in the municipality of Coldstream, British Columbia, Canada. V1B-2X3 2. I graduated from the University of Manitoba with a Bachelor of Science Honours Degree in 1976 and a Master of Science Degree (Geology) in 1982. 3. I am a member of the association of Professional Engineers and Geoscientists of British Columbia and of the Geological Association of Canada. 4. I have worked as a geologist for a total of 31 years since my graduation from university. 5. I have worked on the Klastline Plateau including the area in and around the Donnelly-GJ-North copper-gold zones during the periods August-October, 1989; July-October, 1990; July-August, 1991; July-August, 2003, June-August, 2004, June-September, 2005 and June-September, 2006.. 6. The nature of my prior work was as project geologist for Keewatin Engineering Inc. from 1989-1991 when I was responsible for carrying out and supervising all field activities including prospecting, geological mapping, sampling over the entire plateau plus diamond drilling in the GJ zone. In 2003, I was senior geologist for Keewatin Consultants Inc., responsible for geological mapping and sampling of the GJ and North zones and since 2004 I have been project manager for Canadian Gold Hunter Corp., responsible for co-ordinating all field activities on the Klastline Plateau including prospecting, mapping, sampling, geophysical surveys, surveying and diamond drilling. Dated this 21nd Day of March, 2007. ____________________________ David T. Mehner, MSc., P. Geo.
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APPENDIX B
STATEMENT OF EXPENDITURES For Work on the 507681 and 508121 Claims; Drilling of holes & camp set-up-demobilization claimed in this report performed between July 8 & September 215, 2006; 63 drill rig days Salaries Dave Mehner (senior geologist/project manager)…… 28 mandays @ $ 450/day Jan Christoffersen (senior geologist)………………… 16 mandays @ $450/day John Bellamy (senior geologist)…………………….. 31 mandays @ $ 500/day Stewart Harris (senior geologist)…………………….. 19 mandays @ $ 632/day Anna Tsaloumas (geologist)…………… …………… 21 mandays @ $ 522/day Chris Balardo(technician/clerical)…………………… 5 mandays @ $ 200/day Ira Good (1st aid & technician) ……………………… 50 mandays @ $ 440/day Jutta Stenkowski (cook)………...……………………. 50 mandays @ $ 440/day Gail Fell (cook)………………..…………………….. 50 mandays @ $ 440/day Cas Sowa (camp maintenance/construction)…………. 50 mandays @ $ 440/day Victor Louie (senior sampler)………………………... 50 mandays @ $ 330/day Darren Louie (sampler)………………………………. 50 mandays @ $ 330/day _________________ $ 180,270.00 Accommodation and Food Food/ Room and Board @ $55/manday x 822 mandays (420 staff; 67 pilot; 268 drillers; 67 foreman)…………………………………… __________________ $ 45,210.00 Field Supplies Sample bags, rice sacks, rock saw rental, timber, labels etc…..………………… ___________________ $ 1,500.00 Diamond Drilling 7279.44 meters @ $71.82/meter “all in”, contractor costs……………….…….. ___________________ $ 522,809.00 Helicopter Helicopter (206 charter) …@ $ 955.00/hour with fuel (includes mobilization & demob of personnel, gear, fuel, food etc to site; 91.4 hrs prorated) .…………… __________________
$ 87,287.00
Equipment Rentals Generators, field gear, ATV’s, truck, computers, printer, radios, satellite dish, phone system, repeater, ……………………………………………… ………………. __________________ $ 16,595.00 Geochemistry 1908 drill core: 34 element ICP, + gold geochem @ $ 24.80/sample………… __________________
$ 47,318.00 Staff Mobilization/Demobilization to Project (airfare, hotel, meals) …………………………………………………………………………………. ___________________ $ 9,860.00 Shipping Shipping samples, camp equipment, groceries, fuel, propane ……………….. ___________________ $ 5250.00 Surveying Ranex Exploration……………………………………….………………………. __________________ $ 3059.00
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
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Fuel Diesel (drill, drill pumps, generators, core shack heat) $22,963.50 __________________ $ 22,963.00 Report Writing D. Mehner…9 days @ $575/day……………………………… $ 5,175.00 Autocad drafting, map plotting and copying, ………..………. 1,425.00 __________________ $ 6,600.00
Total Expenditures $ 948,721.00
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
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APPENDIX C
2006, GJ, COPPER-GOLD PROJECT,
DIAMOND DRILL PROGRAM STATISTICS
Drill Hole Drill Zone Casing Date Date Hole Cumulative Samples Days Cumulative Av. MetersStart Finish Depth Meters Taken Drilling Rig Days Per Rig Day from to
CGH-06-077 1 Donnelly 18.00 June 20 June 21 137.16 137.16 49 2 2 69 96001 96049CGH-06-078 2 Donnelly 6.10 June 22 June 27 527.30 664.46 199 6 8 83 98101 98299CGH-06-079 1 Donnelly 18.00 June 22 June 25 237.74 902.20 92 4 12 75 96050 96141CGH-06-080 1 Donnelly 21.34 June 26 June 27 91.44 993.64 27 2 14 71 96142 96168CGH-06-081 1 Donnelly 9.14 June 27 July 1 478.53 1,472.17 131 4 18 82 96169 96299CGH-06-082 2 Donnelly 9.14 June 27 July 2 408.43 1,880.60 156 5 23 82 98300 98455CGH-06-083 1 Donnelly 6.10 July 2 July 6 503.21 2,383.81 88 5 28 85 96300 96387CGH-06-084 2 Donnelly 3.05 July 2 July 6 536.45 2,920.26 210 4 32 91 100201 100410CGH-06-085 1 Donnelly 12.19 July 6 July 9 304.80 3,225.06 16 3 35 92 96388 96403CGH-06-086 2 Donnelly 9.14 July 6 July 12 621.79 3,846.85 226 6 41 94 98456 98681CGH-06-087 1 Donnelly North 39.62 July 9 July 11 256.03 4,102.88 86 2 43 95 96404 96489CGH-06-088 1 Donnelly North 16.46 July 11 July 13 259.08 4,361.96 34 2 45 97 520251 520284CGH-06-089 2 Donnelly 7.92 July 12 July 15 524.26 4,886.22 162 3 48 102 100411 100572CGH-06-090 1 Donnelly North 33.53 July 13 July 15 304.80 5,191.02 96 2 50 104 96490 96585CGH-06-091 1 Donnelly North 9.14 July 15 July 17 300.23 5,491.25 92 2 52 106 520285 520376CGH-06-092 2 Donnelly 15.85 July 16 July 19 405.38 5,896.63 151 4 56 105 96586 96736CGH-06-093 1 Donnelly North 21.34 July 17 July 19 295.66 6,192.29 100 2 58 107 100573 100672CGH-06-094 1 Donnelly North 9.14 July 19 July 20 295.66 6,487.95 75 1 59 110 100673 100747CGH-06-095 2 Donnelly 15.85 July 19 July 26 573.02 7,060.97 184 7 66 107 520377 520560CGH-06-096 1 Donnelly North 30.48 July 20 July 22 256.03 7,317.00 81 2 68 108 96737 96817CGH-06-097 1 Donnelly North 24.38 July 22 July 24 280.42 7,597.42 69 2 70 109 96818 96886CGH-06-098 1 Donnelly North 18.29 July 24 July 25 243.84 7,841.26 67 1 71 110 100748 100814
2 520717 520718CGH-06-099 1 Donnelly North 9.14 July 25 July 27 280.42 8,121.68 96 2 73 111 100815 100910CGH-06-100 2 Donnelly 9.14 July 28 Aug 2 633.98 8,755.66 231 5 78 112 96887 97117CGH-06-101 2 Donnelly 12.19 July 26 July 28 192.02 8,947.68 65 2 80 112 98682 98746CGH-06-102 1 Donnelly North 6.10 July 27 July 28 94.49 9,042.17 24 1 81 112 100911 100934CGH-06-103 1 Donnelly North 19.51 July 28 July 30 167.64 9,209.81 54 2 83 111 98747 98800CGH-06-104 1 Donnelly North 6.10 July 30 Aug 1 255.33 9,465.14 72 2 85 111 100935 101006CGH-06-105 1 Donnelly 6.10 Aug 1 Aug 11 499.87 9,965.01 49 10 95 105 101007 101055CGH-06-106 2 Donnelly North 21.34 Aug 3 Aug 5 207.26 10,172.27 81 3 98 104 98801 98883
1 re-sample 519830
Samples
GJ PROJECT2006 Drilling Program Summary
2006 Drilling Program Statistics GJ Project, 2007-06-12 Canadian Gold Hunter Corp.
Drill Hole Drill Zone Casing Date Date Hole Cumulative Samples Days Cumulative Av. MetersStart Finish Depth Meters Taken Drilling Rig Days Per Rig Day from to
Samples
CGH-06-107 2 Donnelly 9.14 Aug 5 Aug 9 451.10 10,623.37 173 4 102 104 98884 99056CGH-06-108 2 Donnelly 6.10 Aug 10 Aug 13 439.36 11,062.73 156 4 106 104 520561 520716CGH-06-109 1 Donnelly 12.19 Aug 12 Aug 14 298.70 11,361.43 71 3 109 104 101056 101126CGH-06-110 2 Donnelly 15.24 Aug 13 Aug 18 470.92 11,832.35 179 5 114 104 99057 99235CGH-06-111 1 Donnelly 9.14 Aug 14 Aug 19 405.38 12,237.73 129 5 119 103 101127 101255CGH-06-112 2 Saddle 6.10 Aug 18 Aug. 20 207.26 12,444.99 62 2 121 103 97119 97180CGH-06-113 1 Donnelly 7.32 Aug 19 Aug 22 274.32 12,719.31 15 3 124 103 97181 97195CGH-06-114 2 Saddle 12.19 Aug. 20 Aug 22 249.94 12,969.25 53 2 126 103 97196 97248CGH-06-115 2 Saddle 15.24 Aug 22 Aug 23 188.98 13,158.23 60 1 127 104 99236 99295CGH-06-116 1 Donnelly 9.14 Aug 22 Aug 26 288.95 13,447.18 9 4 131 103 97249 97257CGH-06-117 2 Saddle 9.14 Aug 23 Aug 24 155.45 13,602.63 62 1 132 103 99296 99357CGH-06-118 2 North 5.79 Aug 26 Aug 27 137.16 13,739.79 49 3 135 102 97258 97306CGH-06-119 1 Donnelly 22.56 Aug 26 Aug 30 292.61 14,032.40 92 5 140 100 101256 101347CGH-06-120 2 Saddle 9.14 Aug 27 Aug 29 149.35 14,181.75 38 2 142 100 99358 99395CGH-06-121 2 YT 6.10 Sept 1 Sept 4 384.05 14,565.80 6 6 148 98 97307 97312CGH-06-122 1 Donnelly 9.14 Sept 1 Sept 3 89.92 14,655.72 30 4 152 96 99396 99425CGH-06-123 1 Donnelly 12.19 Sept 3 Sept 4 75.29 14,731.01 17 1 153 96 99426 99442CGH-06-124 2 YT 6.10 Sept 4 Sept 6 207.26 14,938.27 3 2 155 96 97313 97315CGH-06-125 1 Donnelly 21.34 Sept 4 Sept 9 454.76 15,393.03 162 5 160 96 97316 97477CGH-06-126 2 Saddle 9.14 Sept 6 Sept 7 179.83 15,572.86 9 1 161 97 99443 99451CGH-06-127 2 Donnelly North 9.14 Sept 7 Sept 9 304.80 15,877.66 103 2 163 97 101348 101450
4 520719 520722CGH-06-128 1 Donnelly 9.14 Sept 9 Sept 11 100.58 15,978.24 33 2 165 97 520723 520755CGH-06-129 2 Donnelly 13.41 Sept 9 Sept 13 536.45 16,514.69 212 4 169 98 99452 99663CGH-06-130 1 Donnelly North 27.43 Sept 11 Sept 13 283.46 16,798.15 93 2 171 98 97478 97570CGH-06-131 1 Donnelly North 18.29 Sept 13 Sept 16 198.12 16,996.27 59 3 174 98 520756 520814CGH-06-132 2 Donnelly North 12.19 Sept 14 Sept 15 131.06 17,127.33 28 2 176 97 520815 520842CGH-06-133 2 Donnelly North 9.14 Sept 15 Sept 16 106.68 17,234.01 24 1 177 97 520843 520866CGH-06-134 2 Donnelly North 9.14 Sept 16 Sept 18 289.56 17,523.57 103 2 179 98 97571 97673CGH-06-135 1 Donnelly North 33.53 Sept 16 Sept 18 152.40 17,675.97 32 2 181 98 520867 520898CGH-06-136 1 Donnelly North 13.41 Sept 18 Sept 19 131.06 17,807.03 43 1 182 98 97674 97716CGH-06-137 2 North 6.10 Sept 18 Sept 19 179.83 17,986.86 18 1 183 98 520899 520916CGH-06-138 1 Donnelly North 24.38 Sept 19 Sept 20 146.30 18,133.16 29 1 184 99 519801 519829
Total 18,133.16 5222Drill Holes in Bold Print are the Subject of This Report 7,279.44 1908
2006 Drilling Program Statistics GJ Project, 2007-06-12 Canadian Gold Hunter Corp.
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
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APPENDIX D
2006 DIAMOND DRILL LOGS
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
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APPENDIX E
2006 DRILL HOLE ASSAY DATABASE
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-087 234.70 237.74 EL06069708 96482 0.014 0.5 1.69 9 <10 120 <0.5 <2 3.91 <0.5 12 2 73 3.74 10 <1 0.26 10 1.19 1775 <1 0.07 <1 1270 4 1.6 <2 5 124 <0.01 <10 <10 56 <10 55CGH-06-087 237.74 240.79 EL06069708 96483 0.018 0.6 1.59 16 <10 60 <0.5 <2 3.64 <0.5 10 2 100 3.57 10 <1 0.26 10 1.06 1545 1 0.07 1 1280 9 1.84 <2 5 134 <0.01 <10 <10 53 <10 53CGH-06-087 240.79 243.84 EL06069708 96484 0.010 <0.2 1.75 7 <10 160 <0.5 <2 3.35 <0.5 10 9 79 3.61 10 <1 0.26 10 1.06 1395 1 0.08 1 1280 6 0.76 <2 5 107 <0.01 <10 <10 61 <10 81CGH-06-087 243.84 246.89 EL06069708 96485 0.006 0.2 1.75 10 <10 400 <0.5 <2 3.7 <0.5 11 3 84 3.48 10 <1 0.23 10 1.1 1360 1 0.09 1 1230 10 0.6 <2 5 126 <0.01 <10 <10 64 <10 71CGH-06-087 246.89 249.94 EL06069708 96486 0.007 <0.2 2.06 7 <10 200 <0.5 <2 3.44 <0.5 12 1 70 3.71 10 1 0.25 10 1.39 1835 1 0.07 1 1350 7 1.01 <2 6 120 <0.01 <10 <10 62 <10 82CGH-06-087 249.94 252.98 EL06069708 96487 0.006 0.3 1.41 2 10 230 <0.5 <2 4.02 <0.5 9 10 79 3.21 10 <1 0.25 10 0.83 1430 1 0.08 1 1210 7 1.39 <2 6 144 <0.01 <10 <10 52 <10 48CGH-06-087 252.98 256.03 EL06069708 96488 0.046 0.7 0.94 35 10 80 0.5 <2 4.02 <0.5 9 1 155 3.35 <10 <1 0.22 10 0.48 1570 1 0.08 2 1160 12 1.84 <2 5 154 <0.01 <10 <10 18 <10 106CGH-06-087 252.98 256.03 EL06069708 96489 0.031 0.5 0.97 25 10 160 0.5 <2 4.22 <0.5 9 1 142 3.18 <10 <1 0.27 10 0.45 1595 1 0.08 1 1220 10 1.66 <2 5 157 <0.01 <10 <10 20 <10 88CGH-06-088 17.50 19.00 EL06070311 520251 0.090 0.2 0.58 13 10 220 <0.5 <2 2.8 <0.5 6 3 588 3.11 <10 <1 0.33 10 1.13 888 18 0.02 3 1080 <2 1.18 2 3 116 <0.01 <10 <10 37 <10 47CGH-06-088 19.00 21.34 EL06070311 520252 0.071 0.4 0.51 11 <10 290 <0.5 <2 3.99 <0.5 8 1 512 3.12 <10 <1 0.32 10 1.3 1040 21 0.01 4 1110 <2 1.09 <2 4 162 <0.01 <10 <10 30 <10 48CGH-06-088 21.34 24.38 EL06070311 520253 0.130 0.4 0.64 10 10 160 <0.5 <2 2.87 <0.5 8 3 982 3.91 <10 <1 0.36 10 0.92 668 99 0.02 4 1190 <2 2.13 <2 3 101 <0.01 <10 <10 28 <10 38CGH-06-088 24.38 27.43 EL06070311 520254 0.057 <0.2 0.64 8 10 110 <0.5 <2 3.13 <0.5 8 2 544 3.48 <10 <1 0.38 10 1.05 648 33 0.02 4 1180 <2 1.35 <2 3 151 <0.01 <10 <10 31 <10 30CGH-06-088 Blank EL06070311 520255 0.019 0.2 1.41 21 <10 270 0.6 <2 5.72 1.2 17 6 114 4.97 <10 1 0.31 10 1.24 2280 1 0.12 10 1520 35 1.26 3 11 199 <0.01 <10 <10 77 <10 205CGH-06-088 27.43 30.48 EL06070311 520256 0.071 0.9 0.67 22 10 220 <0.5 <2 3.42 <0.5 10 8 909 2.97 <10 <1 0.38 10 0.98 676 57 0.01 8 1040 2 1.25 2 5 117 <0.01 <10 <10 29 <10 20CGH-06-088 30.48 33.53 EL06070311 520257 0.132 2.0 0.6 34 10 30 <0.5 <2 4.43 <0.5 10 2 1650 3.28 <10 <1 0.32 <10 1.37 1050 91 0.01 7 1200 2 2.22 2 4 125 <0.01 <10 <10 20 <10 25CGH-06-088 33.53 36.58 EL06070311 520258 0.052 1.2 0.59 68 10 30 <0.5 <2 3.94 <0.5 10 2 755 3.08 <10 <1 0.3 <10 1.17 1075 44 0.01 9 920 2 2.2 13 5 114 <0.01 <10 <10 22 <10 34CGH-06-088 36.58 39.62 EL06070311 520259 0.029 1.1 0.63 102 10 30 <0.5 <2 4.97 <0.5 15 3 879 4.28 <10 <1 0.37 10 1.64 1360 35 0.01 11 1670 <2 3.17 5 6 116 <0.01 <10 <10 21 <10 44CGH-06-088 39.62 42.67 EL06070311 520260 0.066 1.8 0.57 231 10 30 <0.5 <2 4.33 <0.5 12 3 843 3.6 <10 <1 0.35 <10 1.47 1465 49 <0.01 15 1270 5 2.45 25 6 128 <0.01 <10 <10 21 <10 41CGH-06-088 42.67 45.72 EL06070311 520261 0.171 1.4 0.41 270 10 20 <0.5 <2 3.01 <0.5 11 3 1310 3.25 <10 <1 0.25 <10 0.8 755 83 <0.01 10 1130 3 2.7 16 4 91 <0.01 <10 <10 14 <10 23CGH-06-088 45.72 48.79 EL06070311 520262 0.352 0.6 0.67 265 10 40 <0.5 <2 4.48 <0.5 10 4 2030 4.32 <10 <1 0.34 10 0.8 755 50 0.01 4 970 3 3.69 3 3 113 <0.01 <10 <10 15 <10 15CGH-06-088 48.79 51.82 EL06070311 520263 0.188 1.5 0.44 212 <10 20 <0.5 <2 2.73 <0.5 13 4 1220 3.91 <10 <1 0.26 <10 0.66 830 65 <0.01 26 660 2 3.42 5 3 71 <0.01 <10 <10 21 <10 14CGH-06-088 51.82 54.86 EL06070311 520264 0.027 1.6 0.36 86 <10 60 <0.5 <2 2.05 <0.5 8 7 89 2.35 <10 <1 0.18 <10 0.64 872 35 <0.01 40 840 4 1.65 11 3 105 <0.01 <10 <10 38 <10 23CGH-06-088 73.15 76.20 EL06070311 520265 0.132 1.0 0.35 296 <10 120 <0.5 <2 2.92 0.5 8 1 718 4.85 <10 <1 0.2 <10 0.98 1115 10 0.01 3 1180 2 3.37 41 4 157 <0.01 <10 <10 34 <10 83CGH-06-088 Standard 5 EL06070311 520266 0.129 0.3 1.71 12 <10 180 <0.5 <2 1.44 <0.5 21 1060 1590 4.83 <10 <1 0.26 <10 0.89 606 16 0.13 845 640 4 0.97 2 5 79 0.12 <10 <10 66 <10 51CGH-06-088 76.20 79.25 EL06070311 520267 0.057 0.3 0.67 126 10 120 <0.5 <2 4.14 <0.5 8 3 277 3.13 <10 <1 0.33 10 0.79 1220 7 0.01 7 980 5 1.44 19 5 158 <0.01 <10 <10 26 <10 48CGH-06-088 79.25 82.30 EL06070311 520268 0.097 0.3 0.53 96 10 50 <0.5 <2 3.36 <0.5 6 1 299 3.48 <10 <1 0.31 10 1 1515 10 0.01 2 1010 2 1.59 17 4 156 <0.01 <10 <10 26 <10 39CGH-06-088 82.30 85.34 EL06070311 520269 0.054 0.4 0.61 113 10 170 0.5 <2 3 <0.5 9 3 315 3.33 <10 2 0.32 10 0.82 1095 25 0.02 3 1250 2 1.06 17 5 142 <0.01 <10 <10 37 <10 40CGH-06-088 85.34 88.39 EL06070311 520270 0.080 0.3 0.57 15 10 90 <0.5 <2 3.99 <0.5 8 1 613 4.03 <10 2 0.32 10 0.97 992 8 0.03 3 1290 <2 1.82 3 4 141 <0.01 <10 <10 42 <10 43CGH-06-088 88.39 91.44 EL06070311 520271 0.041 0.2 0.49 22 10 130 <0.5 <2 3.71 <0.5 7 1 354 3.07 <10 <1 0.31 10 0.78 813 7 0.02 1 1200 <2 1.35 3 4 114 <0.01 <10 <10 28 <10 27CGH-06-088 91.44 94.49 EL06070311 520272 0.040 0.3 0.54 59 10 90 <0.5 <2 4.39 <0.5 7 4 348 3.11 <10 1 0.31 10 0.91 987 23 0.02 1 1060 2 1.81 4 4 135 <0.01 <10 <10 22 <10 24CGH-06-088 94.49 97.54 EL06070311 520273 0.083 0.3 0.54 56 10 120 <0.5 <2 3.97 <0.5 8 2 435 2.85 <10 <1 0.34 10 0.68 891 51 0.02 3 1130 2 1.43 3 4 123 <0.01 <10 <10 21 <10 22CGH-06-088 97.54 100.58 EL06070311 520274 0.129 0.4 0.41 73 10 60 <0.5 <2 5.02 <0.5 8 1 550 4.48 <10 <1 0.29 10 0.76 1495 32 0.02 1 950 2 1.43 4 3 158 <0.01 <10 <10 21 <10 26CGH-06-088 100.58 103.63 EL06070311 520275 0.193 0.5 0.49 113 10 60 <0.5 <2 2.91 <0.5 10 2 1050 4.71 <10 1 0.31 10 0.69 867 100 0.02 3 820 2 1.86 36 3 92 <0.01 <10 <10 22 <10 44CGH-06-088 103.63 106.68 EL06070311 520276 0.271 0.6 0.42 66 10 70 <0.5 <2 4.16 <0.5 8 1 1500 2.48 <10 <1 0.33 10 0.44 811 161 0.02 1 1010 2 1.91 4 2 110 <0.01 <10 <10 9 <10 13CGH-06-088 103.63 106.68 EL06070311 520277 0.286 0.6 0.44 64 10 80 <0.5 <2 4.28 <0.5 8 1 1550 2.4 <10 <1 0.34 10 0.42 875 169 0.02 1 1010 2 1.79 5 2 110 <0.01 <10 <10 8 <10 13CGH-06-088 106.68 109.73 EL06070311 520278 0.151 0.5 0.5 25 10 30 <0.5 <2 4.42 <0.5 11 2 1050 3.08 <10 <1 0.33 10 0.62 1135 79 0.01 1 1000 <2 1.99 4 3 126 <0.01 <10 <10 8 <10 11CGH-06-088 109.73 112.78 EL06070311 520279 0.295 0.7 0.54 27 10 60 <0.5 <2 5.32 <0.5 5 1 1470 2.03 <10 <1 0.33 10 0.52 1270 91 0.02 2 1100 3 1.22 4 3 182 <0.01 <10 <10 9 <10 13CGH-06-088 112.78 115.82 EL06070311 520280 0.368 0.6 0.47 36 10 50 <0.5 <2 3.65 <0.5 9 1 1300 2.32 <10 1 0.27 10 0.76 772 68 0.03 2 1600 <2 1.79 2 3 126 <0.01 <10 <10 16 <10 19CGH-06-088 115.82 118.87 EL06070311 520281 0.216 0.7 0.52 45 10 110 <0.5 <2 3.82 <0.5 12 4 1100 1.92 <10 <1 0.28 10 0.48 703 58 0.02 1 1230 2 1.71 4 3 105 <0.01 <10 <10 10 <10 14CGH-06-088 118.87 121.92 EL06070311 520282 0.106 0.3 0.5 14 10 170 <0.5 <2 3.22 <0.5 8 2 556 2.27 <10 <1 0.27 10 0.57 559 138 0.03 1 1040 <2 1.58 <2 3 102 <0.01 <10 <10 17 <10 16CGH-06-088 121.92 124.97 EL06070311 520283 0.062 2.0 0.48 60 10 70 <0.5 <2 2.92 0.6 9 3 349 2.93 <10 <1 0.26 <10 0.83 869 20 0.01 12 880 13 2.25 10 3 91 <0.01 <10 <10 18 <10 80CGH-06-088 175.36 176.55 EL06070311 520284 0.116 36.3 0.43 555 <10 10 <0.5 <2 5.72 191 6 17 813 7.78 <10 1 0.21 <10 1.69 3310 7 0.01 36 4500 232 9.18 57 3 164 <0.01 <10 <10 24 10>10000CGH-06-090 38.55 39.62 EL06076640 96490 0.080 0.4 1 <2 <10 910 <0.5 <2 3.61 0.5 8 1 756 3.62 <10 <1 0.3 10 1.01 1405 3 0.04 2 1230 5 0.54 <2 6 117 <0.01 <10 <10 59 <10 106CGH-06-090 39.62 42.67 EL06076640 96491 0.113 0.7 0.67 16 <10 150 <0.5 <2 3 0.5 9 1 927 3.25 <10 <1 0.34 10 0.85 1040 3 0.04 3 1250 2 1.14 9 6 134 <0.01 <10 <10 43 <10 65CGH-06-090 42.67 45.72 EL06076640 96492 0.139 1.4 0.92 28 10 240 <0.5 <2 2.66 0.5 9 2 1150 3.51 <10 <1 0.33 10 0.73 1180 3 0.04 3 1200 7 1.05 23 5 111 <0.01 <10 <10 41 <10 90CGH-06-090 45.72 48.77 EL06076640 96493 0.374 1.5 0.75 11 10 350 <0.5 <2 3.68 <0.5 9 1 2030 3.32 <10 1 0.34 10 0.96 1325 4 0.05 1 1200 4 0.88 31 7 141 <0.01 <10 <10 52 <10 75CGH-06-090 48.77 51.82 EL06076640 96494 0.223 0.7 0.86 <2 <10 250 <0.5 <2 3.77 <0.5 9 1 1600 3.72 <10 <1 0.21 10 0.93 1245 3 0.05 2 1290 3 0.52 <2 9 146 <0.01 <10 <10 84 <10 75CGH-06-090 51.82 54.86 EL06076640 96495 0.254 2.7 0.89 30 10 70 <0.5 2 3.76 <0.5 15 1 2320 4.46 <10 <1 0.36 10 1.02 1845 6 0.05 2 1190 8 2.58 12 6 155 <0.01 <10 <10 42 <10 106CGH-06-090 54.86 57.91 EL06076640 96496 0.225 2.3 0.83 13 10 40 <0.5 3 3.07 <0.5 13 1 2250 4.51 <10 <1 0.41 10 0.9 1730 5 0.06 2 1180 7 3.26 <2 4 152 <0.01 <10 <10 27 <10 70CGH-06-090 57.91 60.96 EL06076640 96497 0.209 1.0 1.07 <2 10 170 <0.5 <2 3.84 <0.5 13 2 2400 3.79 <10 <1 0.37 10 0.98 1670 19 0.07 2 1020 3 1.63 <2 4 199 <0.01 <10 <10 42 <10 83CGH-06-090 60.96 64.01 EL06076640 96498 0.219 0.8 1.28 <2 <10 490 <0.5 2 3.86 <0.5 9 2 1910 3.8 <10 <1 0.37 10 0.86 1330 3 0.09 2 1090 3 0.91 <2 5 208 <0.01 <10 <10 56 <10 88CGH-06-090 64.01 67.06 EL06076640 96499 0.180 1.1 1.66 2 <10 220 0.5 2 3.48 1 9 2 1370 3.53 <10 1 0.41 10 1.02 1530 3 0.09 1 1210 6 1.21 19 4 209 <0.01 <10 <10 47 <10 102CGH-06-090 Standard 2 EL06076640 96500 0.987 3.0 0.95 11 10 90 <0.5 8 1.65 <0.5 29 1510 >10000 10.85 <10 <1 0.45 <10 0.8 1030 30 0.04 1200 650 9 3.64 2 5 65 0.01 <10 <10 56 <10 84 1.18CGH-06-090 67.06 70.10 EL06076640 96501 0.031 0.3 1.47 <2 <10 380 <0.5 <2 4.03 <0.5 7 3 86 2.9 <10 <1 0.26 10 1.01 1565 3 0.1 2 1210 3 0.5 <2 4 210 <0.01 <10 <10 37 <10 89CGH-06-090 70.10 73.15 EL06076640 96502 0.018 0.2 1.7 4 10 530 <0.5 2 3.16 <0.5 6 2 66 3.09 <10 <1 0.36 10 1.04 1810 2 0.08 3 1170 7 0.44 4 3 176 <0.01 <10 <10 35 <10 121CGH-06-090 73.15 76.20 EL06076640 96503 0.082 0.6 1.25 4 10 410 <0.5 2 3.93 0.5 7 2 824 3.07 <10 <1 0.44 10 0.69 1675 3 0.09 2 1160 5 1.05 <2 4 197 <0.01 <10 <10 34 <10 70CGH-06-090 76.20 79.25 EL06076640 96504 0.149 1.8 1.14 12 10 50 <0.5 <2 5.01 <0.5 14 3 1760 4.85 <10 <1 0.36 10 0.82 1895 11 0.07 4 880 5 3.37 <2 4 185 <0.01 <10 <10 31 <10 80CGH-06-090 79.25 82.30 EL06076640 96505 0.179 1.9 0.67 5 10 50 <0.5 <2 6.19 0.5 14 4 2380 4.38 <10 <1 0.4 10 0.65 2040 2 0.08 2 990 6 3.08 2 4 212 <0.01 <10 <10 27 <10 49CGH-06-090 82.30 85.34 EL06076640 96506 0.502 5.8 1.15 5 <10 50 <0.5 <2 6.16 0.5 16 2 3710 4.53 <10 <1 0.36 <10 0.74 2080 5 0.06 2 950 5 3 <2 4 204 <0.01 <10 <10 31 <10 117CGH-06-090 85.34 88.39 EL06076640 96507 0.319 4.1 0.81 15 <10 130 <0.5 2 4.77 2.2 15 8 2780 4.65 <10 <1 0.29 10 0.92 2050 8 0.08 8 1010 5 2.99 <2 5 172 <0.01 <10 <10 28 <10 210CGH-06-090 88.39 91.44 EL06076640 96508 0.456 2.2 1.54 4 <10 190 <0.5 2 3.11 <0.5 18 3 4200 4.71 10 1 0.31 <10 1.09 1265 4 0.08 3 1050 4 1.47 <2 5 141 <0.01 <10 <10 73 <10 99CGH-06-090 91.44 94.49 EL06076640 96509 0.514 1.9 1.51 <2 <10 290 <0.5 <2 2.12 0.8 14 2 4270 4.41 10 <1 0.28 10 1.03 850 2 0.1 1 1140 3 0.94 <2 5 2490 0.01 <10 <10 75 <10 88CGH-06-090 94.49 97.54 EL06076640 96510 0.070 1.4 1.59 13 <10 290 <0.5 2 3.55 0.7 8 2 96 3.92 <10 1 0.33 10 0.93 1880 2 0.08 3 1180 7 1.49 <2 4 160 <0.01 <10 <10 39 <10 120CGH-06-090 94.49 97.54 EL06076640 96511 0.071 1.5 1.7 16 <10 230 <0.5 <2 3.64 0.5 7 2 109 4 <10 <1 0.37 10 0.95 1915 2 0.09 3 1230 5 1.52 <2 5 161 <0.01 <10 <10 40 <10 121CGH-06-090 97.54 100.58 EL06076640 96512 0.162 2.5 2.02 18 <10 150 <0.5 <2 3.73 <0.5 15 39 1450 4.72 10 1 0.33 10 1.45 1890 2 0.06 26 1100 4 2.07 <2 6 136 <0.01 <10 <10 51 <10 175CGH-06-090 100.58 103.63 EL06076640 96513 0.503 6.8 0.89 24 <10 40 <0.5 3 3.34 <0.5 19 <1 4030 6.34 <10 <1 0.27 <10 0.88 1610 2 0.07 2 1090 6 5.34 <2 3 126 <0.01 <10 <10 37 <10 128CGH-06-090 103.63 106.68 EL06076640 96514 0.317 3.3 1.02 5 10 60 <0.5 <2 3.7 0.5 14 2 4710 4.86 <10 <1 0.4 10 0.93 1535 2 0.1 3 1190 5 2.99 3 5 157 <0.01 <10 <10 39 <10 91CGH-06-090 106.68 109.73 EL06076640 96515 0.247 2.9 0.78 22 10 170 <0.5 <2 3.46 0.5 13 2 2590 3.9 <10 <1 0.45 10 0.68 1565 2 0.09 3 1270 2 2.15 12 4 166 <0.01 <10 <10 31 <10 76CGH-06-090 109.73 112.78 EL06076640 96516 0.086 1.7 0.87 35 10 150 <0.5 <2 3.61 <0.5 13 2 1110 4.28 <10 <1 0.39 10 0.87 1840 3 0.09 2 1230 4 1.88 <2 5 161 <0.01 <10 <10 39 <10 84CGH-06-090 112.78 115.82 EL06076640 96517 0.395 2.5 1.3 4 <10 60 <0.5 <2 3.47 <0.5 18 2 4310 5.32 <10 <1 0.4 10 1.14 1635 4 0.1 1 1200 2 1.99 3 6 152 <0.01 <10 <10 67 <10 92CGH-06-090 115.82 118.87 EL06076640 96518 0.441 3.9 0.97 12 10 50 <0.5 <2 3.54 0.5 18 2 5200 4.94 <10 <1 0.42 <10 1.07 1640 5 0.09 2 1230 6 2.96 6 5 156 <0.01 <10 <10 47 <10 96CGH-06-090 118.87 121.92 EL06076640 96519 0.619 4.1 0.93 25 <10 110 <0.5 <2 3.82 <0.5 16 2 5630 4.48 <10 <1 0.29 <10 1.09 1685 3 0.08 3 1180 2 2.17 <2 5 162 <0.01 <10 <10 44 <10 118CGH-06-090 121.92 124.97 EL06076640 96520 0.922 4.1 1.05 2 <10 120 <0.5 <2 3.34 0.7 18 2 7280 4.61 <10 <1 0.38 <10 0.94 1285 4 0.1 2 1210 5 1.84 <2 5 159 <0.01 <10 <10 57 <10 95CGH-06-090 124.97 128.02 EL06076640 96521 0.393 2.8 0.34 45 <10 160 <0.5 <2 3.42 <0.5 13 <1 3190 3.87 <10 1 0.27 <10 0.64 1510 3 0.07 2 1050 8 2.42 16 4 131 <0.01 <10 <10 20 <10 43CGH-06-090 Standard 6 EL06076640 96522 0.262 0.5 1.05 15 10 90 <0.5 <2 3.13 0.6 17 434 3420 6.31 <10 1 0.35 10 1.22 794 11 0.06 334 1190 14 3.4 12 8 208 <0.01 <10 <10 60 <10 127CGH-06-090 128.02 131.06 EL06076640 96523 0.514 1.2 0.57 12 <10 210 <0.5 <2 4.29 <0.5 12 1 3260 4.04 <10 <1 0.41 <10 0.96 1570 4 0.07 2 1010 4 1.63 22 4 148 <0.01 <10 <10 35 <10 61CGH-06-090 131.06 134.11 EL06076640 96524 0.373 1.2 0.72 8 10 390 <0.5 <2 3.77 0.5 9 1 2240 3.48 <10 <1 0.38 <10 0.9 1170 3 0.09 1 1220 4 1 20 6 155 <0.01 <10 <10 53 <10 83CGH-06-090 134.11 137.16 EL06076640 96525 0.302 1.5 0.6 30 <10 190 <0.5 <2 4.35 <0.5 11 <1 1885 3.73 <10 <1 0.37 <10 0.79 1490 2 0.08 1 1250 3 1.93 3 5 160 <0.01 <10 <10 28 <10 47CGH-06-090 137.16 140.21 EL06076640 96526 0.163 0.6 0.82 5 <10 270 <0.5 <2 3.85 <0.5 9 1 1175 3 <10 <1 0.38 10 0.99 1200 12 0.12 1 1280 3 1.01 3 6 205 <0.01 <10 <10 59 <10 67CGH-06-090 140.21 143.26 EL06076640 96527 0.142 0.2 1.28 <2 10 210 <0.5 <2 3.44 <0.5 9 1 959 3 <10 <1 0.37 10 1.13 940 9 0.13 1 1430 <2 0.76 <2 6 181 <0.01 <10 <10 65 <10 74CGH-06-090 143.26 146.30 EL06076640 96528 0.125 0.3 1.54 6 <10 260 <0.5 <2 5.28 <0.5 15 <1 1010 3.58 <10 1 0.33 10 1.04 1410 41 0.1 2 1560 <2 1.39 <2 7 182 <0.01 <10 <10 72 <10 91CGH-06-090 146.30 149.35 EL06076640 96529 0.024 0.6 1.4 15 10 250 <0.5 <2 4.97 <0.5 10 1 63 3.55 <10 <1 0.34 10 0.84 2020 2 0.07 4 1420 2 1.73 2 4 172 <0.01 <10 <10 49 <10 111CGH-06-090 149.35 152.40 EL06076640 96530 0.011 0.2 1.77 9 10 210 <0.5 <2 4.04 <0.5 10 <1 37 3.53 <10 <1 0.41 10 0.97 1720 1 0.08 3 1370 2 1.47 <2 4 150 <0.01 <10 <10 56 <10 128CGH-06-090 152.40 155.44 EL06076640 96531 0.042 0.2 1.61 22 10 300 <0.5 <2 5 <0.5 9 <1 232 3.57 <10 <1 0.32 10 0.92 1980 1 0.09 1 1420 4 1.3 3 5 179 <0.01 <10 <10 50 <10 151CGH-06-090 155.44 158.50 EL06076640 96532 0.180 1.0 1.22 18 <10 240 <0.5 <2 5.11 <0.5 10 <1 1220 3.34 <10 <1 0.26 10 0.81 2000 49 0.08 4 1420 4 1.67 4 4 178 <0.01 <10 <10 36 <10 115
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-090 155.44 158.50 EL06076640 96533 0.177 1.1 1.42 13 10 270 <0.5 <2 4.96 <0.5 10 <1 1135 3.44 <10 <1 0.38 10 0.81 1970 41 0.08 4 1380 3 1.71 2 4 177 <0.01 <10 <10 38 <10 115CGH-06-090 158.50 161.54 EL06076640 96534 0.174 0.8 1.72 4 <10 330 <0.5 <2 4.64 <0.5 11 1 1385 3.94 <10 <1 0.27 10 1.09 1310 74 0.11 1 1420 3 1.42 4 7 183 <0.01 <10 <10 88 <10 107CGH-06-090 161.54 164.59 EL06076640 96535 0.115 0.5 1.57 2 <10 310 <0.5 <2 3.65 <0.5 9 1 792 2.7 <10 <1 0.23 10 1.05 960 16 0.12 2 1460 3 1.13 2 7 164 <0.01 <10 <10 56 <10 87CGH-06-090 164.59 167.64 EL06076640 96536 0.115 0.8 1.89 <2 <10 190 <0.5 <2 4.59 <0.5 11 1 948 3.88 <10 <1 0.28 10 1.26 1660 57 0.12 1 1550 4 2.19 <2 6 171 <0.01 <10 <10 71 <10 162CGH-06-090 167.64 170.69 EL06076640 96537 0.161 0.5 1.89 2 10 350 <0.5 <2 3.35 <0.5 12 <1 1140 4.18 10 <1 0.3 10 1.36 1130 38 0.14 3 1780 <2 1.34 <2 8 172 0.01 <10 <10 104 <10 116CGH-06-090 170.69 173.74 EL06076640 96538 0.100 0.3 1.04 4 <10 280 <0.5 <2 4.52 <0.5 11 1 1010 2.49 <10 <1 0.22 10 0.43 925 16 0.12 2 1410 3 1.12 <2 6 196 <0.01 <10 <10 39 <10 53CGH-06-090 173.74 176.78 EL06076640 96539 0.087 0.5 1.92 <2 <10 240 0.5 <2 3.49 <0.5 10 1 898 3.42 <10 1 0.28 10 1.03 1150 15 0.13 2 1730 3 1.26 <2 7 182 <0.01 <10 <10 93 <10 110CGH-06-090 176.78 179.83 EL06076640 96540 0.160 1.6 2.26 <2 <10 70 <0.5 <2 5.12 1.8 17 <1 1615 5.08 10 <1 0.27 10 1.41 2140 11 0.12 3 1730 5 2.83 <2 8 213 <0.01 <10 <10 99 <10 288CGH-06-090 179.83 182.88 EL06076640 96541 0.183 2.4 1.54 9 <10 30 <0.5 <2 4.88 6.8 18 1 2640 4.85 <10 <1 0.29 10 0.91 1350 64 0.09 3 1660 6 3.63 2 6 187 <0.01 10 <10 65 <10 752CGH-06-090 182.88 185.93 EL06076640 96542 0.556 9.7 1.55 8 <10 50 <0.5 <2 5.71 1.5 22 1 3140 4.17 <10 1 0.31 10 1.05 1640 4 0.08 4 1590 6 2.31 41 7 202 <0.01 <10 <10 61 <10 94CGH-06-090 185.93 188.98 EL06076640 96543 0.291 2.0 2.13 2 10 90 <0.5 <2 4.93 0.8 31 <1 3820 5.28 <10 1 0.32 10 1.3 1460 4 0.11 5 1970 7 2.96 4 8 188 <0.01 <10 <10 98 <10 179CGH-06-090 BLANK EL06076640 96544 0.016 0.2 0.43 10 <10 370 <0.5 <2 5.37 48.5 13 2 286 4.09 <10 15 0.28 10 1.16 3280 1 0.09 14 1400 8 0.84 3 9 160 <0.01 <10 <10 64 <10 5260CGH-06-090 188.98 192.02 EL06076640 96545 0.232 2.1 1.99 5 <10 100 <0.5 <2 4.84 0.6 23 2 2910 4.46 <10 <1 0.32 10 1.24 1480 3 0.12 4 1990 3 2.38 <2 8 325 <0.01 <10 <10 99 <10 163CGH-06-090 192.02 195.07 EL06076640 96546 0.380 1.9 1.81 3 <10 150 <0.5 <2 7.42 <0.5 20 10 3910 4.01 <10 <1 0.25 10 1.25 1660 47 0.1 6 1870 6 2.33 2 8 246 <0.01 <10 <10 80 <10 143CGH-06-090 195.07 198.12 EL06076640 96547 0.221 1.5 2.24 <2 <10 220 <0.5 <2 5.54 <0.5 17 1 2730 3.78 10 <1 0.29 10 1.54 1640 102 0.13 6 2940 4 2.07 11 11 208 <0.01 <10 <10 94 <10 163CGH-06-090 198.12 201.17 EL06076640 96548 0.241 2.9 2.15 2 <10 140 0.5 <2 5.51 1.2 23 2 3730 4.3 10 <1 0.3 10 1.44 1980 24 0.15 6 2270 9 2.89 4 11 231 <0.01 <10 <10 128 <10 184CGH-06-090 201.17 204.22 EL06076640 96549 0.125 1.6 2.07 4 <10 210 <0.5 <2 4.26 0.6 13 2 1350 3.32 <10 <1 0.23 10 1.42 1480 8 0.14 3 1760 4 1.68 2 10 191 <0.01 <10 <10 106 <10 156CGH-06-090 204.22 207.26 EL06076640 96550 0.139 1.3 1.54 41 <10 60 <0.5 <2 4.16 <0.5 14 2 1145 4.15 <10 <1 0.19 10 1.15 1250 12 0.1 4 1550 6 2.96 2 7 179 <0.01 <10 <10 83 <10 112CGH-06-090 207.26 210.31 EL06076640 96551 0.222 2.9 2.07 9 <10 190 <0.5 <2 4.82 0.8 12 7 2240 3.84 <10 <1 0.25 10 1.74 1720 9 0.11 5 1720 5 2.34 5 7 207 <0.01 <10 <10 109 <10 200CGH-06-090 210.31 213.36 EL06076640 96552 0.068 1.4 2.1 5 <10 60 <0.5 <2 3.7 1.3 13 3 721 4.37 <10 <1 0.29 10 1.46 1610 20 0.14 5 1570 8 3.21 2 7 201 <0.01 <10 <10 95 <10 219CGH-06-090 213.36 216.41 EL06076640 96553 0.015 0.3 1.93 2 <10 270 <0.5 <2 3.39 0.8 3 2 243 2.11 <10 <1 0.17 10 1.27 1360 10 0.2 3 1230 5 1.05 <2 6 172 <0.01 <10 <10 59 <10 131CGH-06-090 216.41 219.46 EL06076640 96554 0.026 0.6 2.16 <2 <10 160 <0.5 <2 2.97 0.5 6 5 362 3.03 10 <1 0.2 10 1.71 1260 193 0.14 2 1680 9 1.74 4 8 147 <0.01 <10 <10 104 <10 132CGH-06-090 Standard 5 EL06076640 96555 0.123 0.2 1.74 4 <10 180 <0.5 <2 1.42 <0.5 23 1115 1615 4.65 10 <1 0.24 10 0.87 614 18 0.13 855 660 6 1 <2 5 82 0.12 <10 <10 69 <10 55CGH-06-090 219.46 222.50 EL06076640 96556 0.058 1.0 2.29 3 10 140 <0.5 <2 3.68 0.6 9 14 834 4.05 <10 <1 0.29 10 1.79 1700 139 0.11 6 1850 7 2.26 <2 7 1835 <0.01 <10 <10 113 <10 179CGH-06-090 222.50 225.55 EL06076640 96557 0.120 1.7 1.73 14 <10 100 <0.5 <2 4.07 3 10 8 1235 4.01 10 <1 0.18 10 1.49 1925 97 0.1 8 1790 7 2.5 <2 8 152 <0.01 <10 <10 115 <10 423CGH-06-090 225.55 228.60 EL06076640 96558 0.117 1.7 1.75 15 <10 40 <0.5 <2 3.86 1.7 13 10 1370 4.26 <10 <1 0.32 <10 1.28 1215 32 0.09 8 1600 11 2.83 3 7 166 <0.01 <10 <10 93 <10 156CGH-06-090 228.60 231.65 EL06076640 96559 0.106 0.7 1.83 9 <10 70 <0.5 <2 4.01 <0.5 13 6 1165 3.75 10 <1 0.34 <10 1.33 903 56 0.1 6 1780 5 1.74 2 7 896 0.01 <10 <10 103 <10 88CGH-06-090 231.65 234.70 EL06076640 96560 0.093 0.9 1.92 9 <10 50 <0.5 <2 4.31 <0.5 16 6 1490 4.96 10 <1 0.3 10 1.49 1145 51 0.12 9 1700 3 2.63 <2 7 199 <0.01 <10 <10 104 <10 110CGH-06-090 234.70 237.74 EL06076640 96561 0.108 0.8 1.97 20 <10 50 <0.5 <2 4.32 <0.5 14 12 1275 4.69 10 <1 0.34 10 1.5 1100 19 0.11 8 1810 3 2.58 3 7 238 <0.01 10 <10 94 <10 98CGH-06-090 237.74 240.79 EL06076640 96562 0.104 1.1 1.83 26 <10 40 <0.5 <2 3.97 <0.5 11 7 1020 4.04 10 <1 0.31 10 1.38 1215 40 0.1 9 1670 6 1.98 7 7 271 <0.01 <10 <10 94 <10 86CGH-06-090 240.79 243.84 EL06076640 96563 0.065 0.6 1.49 27 <10 60 <0.5 <2 8.35 <0.5 5 2 207 3.69 <10 <1 0.21 10 1.05 1905 5 0.06 2 920 7 1.64 3 4 292 <0.01 <10 <10 36 <10 82CGH-06-090 243.84 246.89 EL06076640 96564 0.070 1.2 1.64 30 <10 60 <0.5 <2 4.14 <0.5 9 2 416 4.66 <10 <1 0.32 10 0.98 1320 6 0.07 3 1150 4 2.42 <2 4 160 <0.01 <10 <10 38 <10 78CGH-06-090 246.89 249.94 EL06076640 96565 0.071 0.2 1.73 40 <10 80 <0.5 <2 4.18 <0.5 7 2 202 4.11 <10 <1 0.33 10 1.01 1680 4 0.09 2 1120 8 1.63 2 4 201 <0.01 <10 <10 46 <10 99CGH-06-090 246.89 249.94 EL06076640 96566 0.059 0.3 1.72 43 <10 100 <0.5 <2 3.98 <0.5 8 2 195 4.16 <10 <1 0.29 10 1.04 1570 3 0.1 2 1160 5 1.67 2 4 184 <0.01 <10 <10 46 <10 110CGH-06-090 249.94 252.98 EL06076640 96567 0.039 0.2 2.01 4 <10 140 <0.5 <2 3.44 <0.5 8 2 268 4.41 10 <1 0.36 10 1.21 1485 4 0.09 2 1210 5 1.71 2 4 153 <0.01 <10 <10 51 <10 138CGH-06-090 252.98 256.03 EL06076640 96568 0.042 0.3 1.58 5 <10 270 <0.5 <2 4.24 <0.5 6 2 155 4.11 <10 <1 0.3 10 1 1515 7 0.1 3 1200 3 1.32 3 5 169 <0.01 <10 <10 55 <10 144CGH-06-090 256.03 259.08 EL06076640 96569 0.045 0.5 1.51 11 <10 80 0.5 <2 4.26 <0.5 9 2 199 4.12 <10 <1 0.32 10 0.88 1265 8 0.12 3 1180 5 2.07 <2 4 200 <0.01 10 <10 44 <10 64CGH-06-090 259.08 262.13 EL06076640 96570 0.024 0.2 1.57 <2 <10 390 <0.5 <2 4.17 <0.5 6 2 221 3.45 10 <1 0.29 10 0.96 1220 7 0.14 3 1180 3 0.75 <2 5 171 <0.01 10 <10 58 <10 73CGH-06-090 262.13 265.18 EL06076640 96571 0.065 0.2 1.53 5 <10 210 <0.5 <2 2.95 <0.5 11 1 405 4.12 10 <1 0.16 10 1.14 1045 14 0.11 2 1220 4 1.48 <2 5 111 <0.01 <10 <10 60 <10 79CGH-06-090 265.18 268.22 EL06076640 96572 0.030 0.4 1.42 4 <10 190 <0.5 <2 4.08 <0.5 7 3 224 3.66 <10 <1 0.29 10 0.92 1115 15 0.1 3 1290 2 1.65 3 4 141 <0.01 10 <10 49 <10 58CGH-06-090 268.22 271.27 EL06076640 96573 0.029 0.2 1.6 2 <10 300 <0.5 <2 3.94 <0.5 9 2 313 3.75 10 <1 0.32 10 0.92 1130 7 0.13 2 1150 3 1.16 3 4 156 <0.01 10 <10 55 <10 81CGH-06-090 271.27 274.32 EL06076640 96574 0.035 0.3 1.58 8 <10 210 <0.5 <2 3.86 <0.5 8 2 346 3.49 <10 <1 0.35 10 0.9 1190 8 0.12 2 1200 5 1.25 <2 4 158 <0.01 <10 <10 45 <10 78CGH-06-090 274.32 277.37 EL06076640 96575 0.017 0.3 1.57 <2 <10 210 <0.5 <2 2.87 <0.5 9 2 294 3.71 10 <1 0.2 10 1.24 1095 4 0.12 1 1230 3 1.36 3 4 116 <0.01 <10 <10 55 <10 89CGH-06-090 277.37 280.42 EL06076640 96576 0.018 0.2 1.86 2 <10 160 <0.5 <2 3.24 <0.5 8 2 251 4.39 10 <1 0.31 10 1.24 1300 10 0.12 3 1200 5 2 <2 3 118 <0.01 <10 <10 51 <10 102CGH-06-090 Standard 2 EL06076640 96577 0.948 2.9 0.94 14 10 80 <0.5 <2 1.77 <0.5 28 1585 >10000 11.95 <10 1 0.46 <10 0.86 1065 30 0.04 1260 660 10 3.59 10 5 65 0.01 <10 <10 58 10 91 1.17CGH-06-090 280.42 283.46 EL06076640 96578 0.035 0.3 2.09 2 <10 160 <0.5 <2 3.82 <0.5 8 3 313 4.47 10 <1 0.3 10 1.2 1375 5 0.16 3 1210 5 1.62 5 4 142 <0.01 <10 <10 55 <10 110CGH-06-090 283.46 286.51 EL06076640 96579 0.043 0.4 1.84 7 <10 130 <0.5 <2 7.57 <0.5 9 3 622 4.59 10 <1 0.28 10 1.22 1805 34 0.11 4 1070 4 2.17 <2 4 180 <0.01 <10 <10 51 <10 93CGH-06-090 286.51 289.56 EL06076640 96580 0.019 0.2 1.82 <2 <10 120 <0.5 <2 4.35 <0.5 8 3 294 3.92 10 <1 0.33 10 1.07 1390 14 0.13 2 1170 8 1.42 <2 5 183 <0.01 <10 <10 59 <10 104CGH-06-090 289.56 292.61 EL06076640 96581 0.031 0.5 1.8 <2 <10 220 0.5 <2 3.77 <0.5 7 3 409 3.68 10 <1 0.32 10 1.07 1110 15 0.13 3 1210 4 1.46 3 4 134 <0.01 <10 <10 50 <10 136CGH-06-090 292.61 295.66 EL06076640 96582 0.051 0.7 1.41 9 <10 100 0.5 <2 4.27 <0.5 8 1 414 3.85 <10 <1 0.22 10 1 1370 11 0.1 3 1180 6 1.82 5 4 169 <0.01 10 <10 36 <10 81CGH-06-090 295.66 298.70 EL06076640 96583 0.059 <0.2 1.57 8 <10 110 <0.5 <2 3.8 <0.5 9 2 298 3.78 <10 <1 0.29 10 1 1230 10 0.12 2 1160 5 1.48 2 4 141 <0.01 <10 <10 44 <10 89CGH-06-090 298.70 301.75 EL06076640 96584 0.019 <0.2 1.62 <2 <10 110 <0.5 <2 3.18 <0.5 9 1 120 3.73 <10 <1 0.28 10 0.99 916 3 0.14 2 1230 3 1.73 3 4 129 0.01 <10 <10 50 <10 76CGH-06-090 301.75 304.80 EL06076640 96585 0.060 0.3 1.16 16 <10 150 <0.5 <2 4.48 <0.5 8 1 299 3.79 <10 <1 0.33 10 0.92 1430 25 0.1 1 1150 3 1.64 <2 3 190 <0.01 <10 <10 36 <10 95CGH-06-091 9.14 12.19 EL06076642 520285 0.452 2.6 0.54 79 <10 10 <0.5 <2 2.75 1.8 20 4 1440 8.33 <10 1 0.25 <10 0.75 1400 7 0.03 15 1270 20 5.78 11 5 71 <0.01 <10 <10 69 <10 240CGH-06-091 12.19 15.24 EL06076642 520286 0.073 0.9 0.51 58 <10 180 <0.5 <2 1.99 <0.5 7 9 502 2.79 <10 <1 0.3 10 0.45 1215 5 0.04 4 1300 7 1.41 7 6 58 <0.01 <10 <10 26 <10 23CGH-06-091 15.24 18.29 EL06076642 520287 0.188 2.1 0.34 24 <10 160 <0.5 <2 3.52 0.6 8 2 2800 3.38 <10 2 0.2 10 0.67 1510 7 0.05 5 1690 7 1.71 6 7 116 <0.01 <10 <10 34 <10 113CGH-06-091 Standard 2 EL06076642 520288 0.777 3.8 0.9 7 10 90 <0.5 3 1.72 <0.5 29 1555 >10000 11.05 <10 1 0.43 <10 0.8 1040 29 0.04 1220 620 9 3.52 9 5 63 0.01 <10 <10 56 <10 86 1.18CGH-06-091 18.29 21.34 EL06076642 520289 0.164 3.2 0.55 63 10 20 <0.5 <2 3 <0.5 12 3 2320 4.5 <10 <1 0.32 10 0.72 1520 38 0.06 10 1510 12 3.56 9 4 73 <0.01 <10 <10 17 <10 64CGH-06-091 21.34 24.38 EL06076642 520290 0.061 1.6 0.59 124 10 30 <0.5 <2 2.16 <0.5 12 10 2870 4.51 <10 <1 0.31 10 0.51 1255 9 0.09 6 1300 11 3.54 14 6 58 <0.01 <10 <10 24 <10 23CGH-06-091 24.38 27.43 EL06076642 520291 0.052 1.1 0.57 24 <10 60 <0.5 <2 1.95 <0.5 12 1 964 3.9 <10 <1 0.28 10 0.58 889 6 0.09 4 1250 6 3.32 4 5 65 <0.01 <10 <10 29 <10 46CGH-06-091 27.43 30.48 EL06076642 520292 0.024 0.5 0.56 7 <10 110 <0.5 <2 2.8 <0.5 9 2 87 3.18 <10 <1 0.27 10 0.89 1210 1 0.1 2 1120 5 2.29 4 5 79 <0.01 <10 <10 35 <10 53CGH-06-091 30.48 33.97 EL06076642 520293 0.015 0.3 0.55 9 <10 70 <0.5 <2 2.04 <0.5 8 11 36 2.58 <10 <1 0.23 10 0.6 776 <1 0.12 3 1130 4 1.67 4 5 81 <0.01 <10 <10 34 <10 41CGH-06-091 33.97 36.58 EL06076642 520294 0.018 0.9 0.32 71 <10 80 <0.5 <2 2.55 <0.5 8 1 104 3.21 <10 <1 0.18 10 0.78 1030 <1 0.09 3 1110 10 2.63 10 4 83 <0.01 <10 <10 27 <10 47CGH-06-091 36.58 39.62 EL06076642 520295 0.158 0.7 0.57 92 <10 30 <0.5 <2 2.04 <0.5 9 2 62 2.68 <10 <1 0.29 10 0.37 785 1 0.1 2 840 8 2.22 8 4 89 <0.01 <10 <10 14 <10 16CGH-06-091 39.62 42.67 EL06076642 520296 0.077 0.9 0.64 37 10 40 <0.5 <2 4.93 <0.5 10 12 470 3.19 <10 <1 0.34 10 0.8 1580 11 0.11 3 1040 13 2.05 17 5 118 <0.01 <10 <10 18 <10 51CGH-06-091 42.67 45.72 EL06076642 520297 0.291 0.4 0.42 88 <10 50 <0.5 <2 4.48 <0.5 13 7 245 3.11 <10 <1 0.24 10 0.85 1200 2 0.11 5 1310 9 2.04 3 8 160 <0.01 <10 <10 28 <10 52CGH-06-091 45.72 48.77 EL06076642 520298 0.034 0.5 0.79 36 10 30 <0.5 <2 4.24 <0.5 20 3 299 4.66 <10 <1 0.35 <10 1.19 1485 8 0.14 7 1210 9 3.83 5 6 106 <0.01 <10 <10 30 <10 44CGH-06-091 45.72 48.77 EL06076642 520299 0.032 0.5 0.75 36 <10 30 <0.5 <2 4.1 <0.5 20 13 290 4.75 <10 <1 0.34 10 1.13 1420 7 0.14 7 1180 9 3.81 3 5 105 <0.01 <10 <10 29 <10 43CGH-06-091 48.77 51.82 EL06076642 520300 0.046 1.1 0.47 45 <10 40 <0.5 <2 4.93 10.3 19 1 503 5.34 <10 1 0.24 <10 1.57 2060 8 0.12 5 1700 34 4.28 6 9 121 <0.01 <10 <10 56 <10 1545CGH-06-091 51.82 54.86 EL06076642 520301 0.028 0.5 0.86 24 10 60 <0.5 <2 3.12 <0.5 22 1 271 5.65 <10 <1 0.38 <10 1.29 1410 <1 0.15 2 1700 7 4.11 9 11 127 <0.01 <10 <10 73 <10 86CGH-06-091 54.86 56.54 EL06076642 520302 0.018 0.2 1.17 30 10 160 0.5 <2 2.51 <0.5 14 4 177 3.79 <10 <1 0.54 <10 1.03 952 1 0.17 3 1980 4 1.3 6 8 101 <0.01 <10 <10 71 <10 55CGH-06-091 56.54 58.54 EL06076642 520303 0.114 0.3 0.75 92 10 50 <0.5 <2 1.97 <0.5 28 8 452 4.24 <10 <1 0.35 <10 0.54 768 13 0.14 20 1330 8 3.72 9 7 62 <0.01 <10 <10 32 <10 16CGH-06-091 58.54 60.96 EL06076642 520304 0.024 0.2 0.75 37 10 130 <0.5 <2 2.09 <0.5 6 2 47 2.6 <10 <1 0.39 10 0.57 1040 1 0.13 4 1190 3 1.64 15 5 67 <0.01 <10 <10 23 <10 29CGH-06-091 60.96 64.01 EL06076642 520305 0.014 0.2 0.83 14 10 50 <0.5 <2 2.4 <0.5 8 16 119 2.78 <10 1 0.41 <10 0.7 1120 12 0.13 5 1040 4 1.84 13 4 137 <0.01 <10 <10 22 <10 60CGH-06-091 64.01 67.49 EL06076642 520306 0.013 0.2 0.44 14 10 160 <0.5 <2 2.7 <0.5 8 4 154 2.85 <10 <1 0.27 <10 0.89 1180 3 0.11 7 980 5 1.87 8 4 80 <0.01 <10 <10 20 <10 40CGH-06-091 67.49 70.10 EL06076642 520307 0.017 0.3 0.89 32 10 90 0.5 <2 3.57 <0.5 9 1 94 3.36 <10 <1 0.47 <10 1.23 1430 1 0.15 6 1170 8 2.24 16 5 107 <0.01 <10 <10 25 <10 30CGH-06-091 70.10 73.15 EL06076642 520308 0.010 <0.2 1.01 21 10 160 0.5 <2 1.76 <0.5 9 9 85 4.08 <10 <1 0.37 <10 0.81 832 1 0.16 9 1300 7 1.86 4 5 77 <0.01 <10 <10 38 <10 68CGH-06-091 73.15 76.20 EL06076642 520309 0.007 <0.2 0.49 23 10 170 <0.5 <2 2.26 <0.5 8 2 72 3.27 <10 <1 0.25 <10 0.88 930 <1 0.13 11 1240 8 1.64 9 5 90 <0.01 <10 <10 34 <10 61CGH-06-091 76.20 77.86 EL06076642 520310 0.009 0.2 1.12 6 10 110 0.5 <2 2.17 <0.5 12 2 202 3.49 <10 <1 0.5 <10 0.77 906 1 0.17 4 1380 4 2.65 7 5 114 <0.01 <10 <10 36 <10 111CGH-06-091 77.86 79.86 EL06076642 520311 0.016 0.3 0.68 30 10 50 <0.5 <2 2.07 <0.5 19 53 251 3.51 <10 <1 0.29 <10 0.57 951 117 0.08 17 550 4 2.17 19 3 68 <0.01 <10 <10 19 <10 36CGH-06-091 79.86 82.30 EL06076642 520312 0.028 0.4 0.3 24 10 80 <0.5 <2 1.76 <0.5 31 6 551 2.83 <10 <1 0.14 <10 0.46 878 295 0.08 30 680 8 2.28 16 5 51 <0.01 <10 <10 20 <10 28CGH-06-091 82.30 85.34 EL06076642 520313 0.020 0.5 0.46 46 10 40 <0.5 <2 1.97 <0.5 12 9 241 3.17 <10 <1 0.16 <10 0.49 1230 332 0.05 20 490 10 1.98 13 4 68 <0.01 <10 <10 21 <10 44CGH-06-091 85.34 88.39 EL06076642 520314 0.010 0.6 0.23 15 <10 60 <0.5 <2 3.72 <0.5 8 67 152 3.34 <10 1 0.1 <10 0.72 2020 28 0.03 19 220 5 1.41 5 3 78 <0.01 <10 <10 14 <10 40CGH-06-091 88.39 91.44 EL06076642 520315 0.013 0.5 0.45 27 10 30 <0.5 <2 1.64 <0.5 14 6 242 3.34 <10 <1 0.26 <10 0.46 669 10 0.14 29 1220 8 2.95 5 4 110 <0.01 <10 <10 14 <10 49CGH-06-091 91.44 93.44 EL06076642 520316 0.011 8.2 0.46 22 <10 50 <0.5 <2 2.32 <0.5 12 29 196 3.21 <10 <1 0.21 <10 0.73 1040 22 0.07 50 410 8 2.01 4 5 110 <0.01 <10 <10 29 50 53
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-091 93.44 95.81 EL06076642 520317 0.084 0.8 0.75 64 10 30 <0.5 <2 2.26 <0.5 14 41 106 5.27 <10 <1 0.37 <10 0.55 1220 5 0.08 20 940 7 3.91 5 5 65 <0.01 <10 <10 21 <10 25CGH-06-091 95.81 97.54 EL06076642 520318 0.157 1.2 0.76 38 10 20 <0.5 <2 3.1 <0.5 18 3 115 6.39 <10 <1 0.44 <10 0.77 1650 2 0.08 4 1460 5 5.83 3 5 91 <0.01 <10 <10 22 <10 21CGH-06-091 97.54 100.58 EL06076642 520319 0.112 0.9 0.84 55 10 20 <0.5 <2 3.55 <0.5 14 2 44 5.76 <10 <1 0.46 <10 0.97 1710 3 0.09 5 1550 7 5.01 4 6 106 <0.01 <10 <10 23 <10 90CGH-06-091 100.58 103.63 EL06076642 520320 0.157 1.6 0.79 87 10 10 <0.5 <2 1.84 1.3 13 22 86 6.77 <10 <1 0.43 <10 0.38 1030 3 0.09 4 1570 10 6.3 4 5 69 <0.01 <10 <10 18 <10 201CGH-06-091 100.58 103.63 EL06076642 520321 0.153 1.6 0.97 86 10 10 <0.5 <2 1.87 1.1 14 4 103 6.35 <10 <1 0.53 <10 0.39 1080 3 0.09 4 1550 9 6.13 4 5 70 <0.01 <10 <10 22 <10 207CGH-06-091 103.63 106.68 EL06076642 520322 0.106 0.7 0.83 16 10 30 <0.5 <2 3.58 0.6 12 3 213 5.28 <10 <1 0.44 <10 0.79 1510 3 0.09 3 1600 8 4.6 3 5 98 <0.01 <10 <10 36 <10 166CGH-06-091 106.68 109.73 EL06076642 520323 0.129 0.7 1.08 31 10 20 <0.5 <2 3.9 <0.5 11 32 203 6.86 <10 <1 0.57 <10 0.87 1730 9 0.09 6 1390 11 5.55 2 4 120 <0.01 <10 <10 34 <10 149CGH-06-091 109.73 112.78 EL06076642 520324 0.026 0.3 0.47 21 10 360 <0.5 <2 2.52 0.6 6 2 292 3.28 <10 <1 0.3 10 0.6 2180 1 0.12 4 1740 3 1.13 3 5 101 <0.01 <10 <10 23 <10 195CGH-06-091 112.78 115.82 EL06076642 520325 0.111 0.5 0.8 12 10 240 <0.5 <2 3.96 <0.5 8 2 867 3.63 <10 <1 0.44 10 1 2180 10 0.11 2 1460 3 1.48 3 5 118 <0.01 <10 <10 37 <10 165CGH-06-091 115.82 118.87 EL06076642 520326 0.363 1.3 0.83 14 10 170 <0.5 <2 2.87 <0.5 12 21 2990 4.58 <10 <1 0.4 <10 1.11 1540 34 0.12 2 1470 6 2.06 22 6 166 <0.01 <10 <10 52 <10 112CGH-06-091 118.87 121.92 EL06076642 520327 0.138 0.7 0.64 8 10 140 <0.5 <2 3.19 <0.5 9 2 1545 4.87 <10 <1 0.29 10 1.27 1810 2 0.13 3 1850 4 1.84 13 6 153 <0.01 <10 <10 53 <10 119CGH-06-091 121.92 124.97 EL06076642 520328 0.061 0.9 0.85 15 10 80 <0.5 <2 3.51 0.5 5 1 81 3.74 <10 <1 0.48 10 0.85 1970 <1 0.1 3 1430 6 2.07 3 4 117 <0.01 <10 <10 34 <10 207CGH-06-091 124.97 128.02 EL06076642 520329 0.036 1.2 0.95 36 10 50 <0.5 <2 2.79 0.8 6 21 44 3.56 <10 <1 0.53 10 0.5 1250 1 0.07 4 1400 5 2.55 <2 3 86 <0.01 <10 <10 17 <10 182CGH-06-091 128.02 131.06 EL06076642 520330 0.079 2.4 0.36 44 10 60 <0.5 <2 2.81 0.9 9 1 233 4.23 <10 <1 0.24 10 0.73 2030 2 0.07 4 1450 7 3.62 14 3 68 <0.01 <10 <10 8 <10 114CGH-06-091 131.06 134.11 EL06076642 520331 0.129 2.5 0.89 32 10 40 <0.5 <2 3.27 <0.5 14 1 1220 5.21 <10 <1 0.47 <10 0.92 1780 14 0.1 5 2090 9 4.16 5 7 115 <0.01 <10 <10 47 <10 135CGH-06-091 BLANK EL06076642 520332 0.020 0.6 1.71 19 10 90 0.6 <2 5.87 5.9 16 14 139 5.49 <10 1 0.45 <10 1.18 3260 1 0.11 10 1570 22 1.41 2 9 198 <0.01 <10 <10 66 <10 864CGH-06-091 134.11 137.16 EL06076642 520333 0.354 2.4 1.15 16 10 40 <0.5 <2 2.31 <0.5 17 3 3790 5.08 <10 1 0.55 <10 0.71 1210 17 0.09 4 1700 8 3.61 7 5 96 <0.01 <10 <10 50 <10 80CGH-06-091 137.16 140.21 EL06076642 520334 0.265 2.2 1.35 22 10 40 <0.5 <2 2.23 <0.5 17 3 3820 4.34 <10 <1 0.67 <10 0.69 1390 5 0.1 5 1420 7 2.76 5 4 93 <0.01 <10 <10 34 <10 95CGH-06-091 140.21 143.26 EL06076642 520335 0.295 2.1 0.94 28 10 40 <0.5 <2 3.38 <0.5 11 24 3100 3.57 <10 1 0.48 <10 0.64 1250 2 0.1 3 1360 5 2.15 16 4 124 <0.01 <10 <10 30 <10 44CGH-06-091 143.26 146.30 EL06076642 520336 0.091 1.1 0.45 11 <10 40 <0.5 <2 3.24 <0.5 9 2 943 3.33 <10 <1 0.26 10 0.83 1010 4 0.1 2 1270 4 2.09 2 4 114 <0.01 <10 <10 32 <10 41CGH-06-091 146.30 149.35 EL06076642 520337 0.119 1.2 0.87 22 <10 60 <0.5 <2 3.13 <0.5 8 2 1075 3.87 <10 <1 0.41 10 0.67 951 2 0.11 3 1180 5 1.88 6 4 105 <0.01 <10 <10 39 <10 39CGH-06-091 149.35 152.40 EL06076642 520338 0.100 1.7 0.85 36 <10 50 <0.5 <2 2.89 1.7 8 22 986 3.02 <10 <1 0.44 <10 0.41 842 4 0.1 3 1230 8 2.2 10 4 97 <0.01 <10 <10 14 <10 189CGH-06-091 152.40 155.45 EL06076642 520339 0.053 0.6 1.08 5 <10 260 <0.5 <2 3.22 <0.5 6 3 776 2.29 <10 1 0.3 10 0.81 781 4 0.14 3 1280 5 1.34 6 6 134 <0.01 <10 <10 44 <10 44CGH-06-091 155.45 158.50 EL06076642 520340 0.061 0.5 1.36 12 <10 180 0.5 <2 3.33 <0.5 6 2 606 2.16 <10 1 0.38 10 0.6 745 5 0.15 1 1260 6 1.13 6 5 116 <0.01 <10 <10 41 <10 39CGH-06-091 158.50 161.54 EL06076642 520341 0.086 1.4 1.33 15 <10 90 <0.5 <2 3.07 7 6 22 816 2.74 <10 1 0.38 <10 0.64 711 7 0.1 2 1110 16 1.61 8 3 112 <0.01 <10 <10 33 <10 1035CGH-06-091 161.54 164.59 EL06076642 520342 0.062 0.5 1.34 6 <10 180 <0.5 <2 2.78 <0.5 12 4 567 2.4 <10 1 0.24 <10 1.07 662 5 0.12 3 1340 8 1.37 <2 5 104 <0.01 <10 <10 58 <10 80CGH-06-091 Standard 5 EL06076642 520343 0.132 0.5 1.62 12 <10 170 <0.5 <2 1.29 <0.5 21 1035 1490 4.34 <10 1 0.22 <10 0.81 579 16 0.12 812 660 7 0.94 2 5 74 0.11 <10 <10 63 10 51CGH-06-091 164.59 167.64 EL06076642 520344 0.063 0.3 1.81 5 <10 150 0.5 <2 2.33 <0.5 18 7 680 3.35 <10 1 0.35 10 1.27 592 23 0.14 5 1460 4 1.5 2 6 90 <0.01 <10 <10 73 <10 49CGH-06-091 167.64 170.69 EL06076642 520345 0.097 0.7 1.83 10 <10 160 <0.5 <2 3.38 <0.5 22 24 782 3.58 <10 1 0.42 10 0.89 752 60 0.13 4 1460 5 2.2 3 5 112 <0.01 <10 <10 57 <10 45CGH-06-091 170.69 173.74 EL06076642 520346 0.129 0.9 1.35 14 <10 60 <0.5 <2 4.17 <0.5 36 2 901 4.51 <10 <1 0.21 10 1.04 832 50 0.1 3 1820 6 3.93 <2 6 128 0.01 <10 <10 62 <10 39CGH-06-091 173.74 176.78 EL06076642 520347 0.090 0.5 1.44 9 10 80 <0.5 <2 3.37 <0.5 42 2 982 4.17 <10 1 0.36 10 1.18 731 47 0.13 2 1920 4 3.06 3 7 171 <0.01 <10 <10 83 <10 42CGH-06-091 176.78 180.56 EL06076642 520348 0.081 1.1 1.11 18 <10 30 <0.5 <2 4.12 2.4 14 14 674 5.14 <10 1 0.35 10 0.99 1145 3 0.09 2 1580 18 4.55 <2 8 191 <0.01 <10 <10 71 <10 334CGH-06-091 180.56 182.88 EL06076642 520349 1.185 1.23 4.8 0.88 7 <10 50 <0.5 <2 3.03 <0.5 24 2 >10000 5.25 <10 1 0.21 10 1.28 1165 2 0.08 5 1120 7 3.43 <2 8 145 <0.01 <10 <10 80 <10 87 1.14CGH-06-091 182.88 185.93 EL06076642 520350 0.249 2.2 0.81 10 <10 40 <0.5 <2 2.69 <0.5 15 2 3090 4.61 <10 <1 0.36 10 0.99 886 3 0.08 2 1190 8 4.02 <2 4 134 <0.01 <10 <10 40 <10 63CGH-06-091 185.93 188.98 EL06076642 520351 0.206 1.6 0.77 9 <10 40 <0.5 <2 2.15 <0.5 15 23 1955 5.58 <10 1 0.37 <10 0.65 601 5 0.06 3 1140 4 5.21 3 4 74 <0.01 <10 <10 29 <10 27CGH-06-091 188.98 190.72 EL06076642 520352 0.208 1.7 0.23 37 <10 10 <0.5 <2 2.06 <0.5 14 2 1760 9.98 <10 1 0.13 <10 0.31 597 4 0.02 3 910 8 >10.0 3 1 35 <0.01 <10 <10 4 <10 7CGH-06-091 190.72 192.02 EL06076642 520353 0.032 0.5 1.15 10 10 80 0.5 <2 2.77 <0.5 10 2 151 3.88 <10 1 0.34 <10 0.98 572 1 0.12 3 1270 2 3.27 <2 7 121 <0.01 <10 <10 57 <10 27CGH-06-091 190.72 192.02 EL06076642 520354 0.033 0.5 1.22 10 10 70 0.5 <2 2.86 <0.5 11 16 138 4.17 <10 1 0.37 10 1 589 1 0.13 4 1270 5 3.36 <2 7 127 <0.01 <10 <10 58 <10 30CGH-06-091 192.02 195.07 EL06076642 520355 0.092 0.6 0.99 10 10 20 0.5 <2 3.19 <0.5 24 1 722 5.66 <10 <1 0.22 10 1.31 653 10 0.12 4 1960 3 5.09 <2 11 181 <0.01 <10 <10 88 <10 37CGH-06-091 195.07 198.12 EL06076642 520356 0.105 0.5 1.84 10 10 30 <0.5 <2 3.1 <0.5 27 1 748 5.65 10 1 0.36 <10 1.68 603 5 0.14 4 2240 5 4.53 <2 10 157 <0.01 <10 <10 105 <10 35CGH-06-091 198.12 201.17 EL06076642 520357 0.133 0.4 2 6 10 40 <0.5 <2 2.63 <0.5 18 2 610 5.34 10 1 0.38 10 1.85 623 11 0.11 2 2050 4 4.04 <2 9 135 <0.01 <10 <10 110 <10 36CGH-06-091 201.17 204.22 EL06076642 520358 0.087 0.5 1.38 8 10 20 <0.5 <2 3.51 <0.5 18 1 620 5.23 <10 1 0.37 10 1.69 733 22 0.11 3 1890 7 3.87 2 10 177 <0.01 <10 <10 100 <10 46CGH-06-091 204.22 207.26 EL06076642 520359 0.108 0.8 1.27 14 10 20 <0.5 <2 3.91 <0.5 20 15 620 5.12 <10 <1 0.4 <10 1.57 867 7 0.1 4 1780 5 4.6 3 9 161 <0.01 <10 <10 74 <10 34CGH-06-091 207.26 210.31 EL06076642 520360 0.121 1.3 0.27 16 <10 20 <0.5 <2 1.89 1.1 20 4 760 5.04 <10 1 0.13 <10 0.7 453 19 0.03 17 1100 9 5.43 9 3 64 <0.01 <10 <10 12 <10 137CGH-06-091 210.31 213.36 EL06076642 520361 0.143 2.0 0.26 18 <10 20 <0.5 <2 0.9 <0.5 31 9 1040 5.27 <10 <1 0.12 <10 0.41 247 28 0.02 27 250 3 5.56 9 2 34 <0.01 <10 <10 9 <10 13CGH-06-091 213.36 216.41 EL06076642 520362 0.194 1.3 0.51 9 <10 20 <0.5 <2 1.76 <0.5 43 42 1330 6.17 <10 <1 0.19 <10 0.82 452 48 0.03 24 890 17 6.13 2 5 51 <0.01 <10 <10 32 <10 26CGH-06-091 216.41 219.46 EL06076642 520363 0.124 1.1 0.33 16 <10 30 <0.5 <2 2.23 0.7 16 29 910 5.18 <10 1 0.09 <10 1.2 561 16 0.03 22 1800 4 4.98 2 8 74 <0.01 <10 <10 52 <10 92CGH-06-091 219.46 222.50 EL06076642 520364 0.073 0.5 0.48 12 <10 20 <0.5 <2 1.29 <0.5 14 14 319 4.57 <10 1 0.17 <10 0.77 287 12 0.03 20 610 3 4.41 5 5 53 <0.01 <10 <10 40 <10 22CGH-06-091 Standard 2 EL06076642 520365 0.798 2.8 0.9 14 <10 50 <0.5 4 1.6 <0.5 26 1435 >10000 10.35 <10 2 0.43 <10 0.77 975 27 0.04 1120 610 10 3.34 3 5 60 0.01 <10 <10 55 10 74 1.16CGH-06-091 222.50 225.55 EL06076642 520366 0.095 0.7 0.45 8 <10 20 <0.5 <2 1.62 3.6 22 58 727 4.18 <10 <1 0.18 <10 0.83 440 31 0.03 39 920 3 3.63 2 4 71 <0.01 <10 <10 52 <10 405CGH-06-091 225.55 228.60 EL06076642 520367 0.151 0.5 0.94 14 10 20 0.5 <2 3.23 <0.5 16 3 283 5.07 <10 1 0.33 10 1.42 755 7 0.09 12 1600 6 4.36 3 8 126 <0.01 <10 <10 74 <10 76CGH-06-091 228.60 231.65 EL06076642 520368 0.087 0.4 0.76 14 10 20 <0.5 <2 3.44 <0.5 17 3 264 4.68 <10 1 0.3 10 1.4 598 14 0.08 6 1260 3 3.92 3 5 119 <0.01 <10 <10 45 <10 29CGH-06-091 231.65 234.70 EL06076642 520369 0.105 0.7 0.79 38 10 40 0.5 <2 3.62 <0.5 15 11 450 4.59 <10 1 0.37 <10 1.36 989 5 0.08 4 1410 4 3.13 <2 9 161 <0.01 <10 <10 67 <10 78CGH-06-091 234.70 237.74 EL06076642 520370 0.036 0.5 0.34 20 10 50 0.5 <2 3.97 0.5 10 5 261 3.8 <10 1 0.18 10 1.34 1595 6 0.07 12 930 6 1.96 2 6 150 <0.01 <10 <10 36 <10 108CGH-06-091 237.74 240.79 EL06076642 520371 0.020 1.4 0.48 47 <10 40 <0.5 <2 3.24 1.7 12 9 254 3.16 <10 1 0.22 10 1 1690 16 0.05 18 1210 12 1.78 17 5 91 <0.01 <10 <10 46 <10 248CGH-06-091 240.79 243.84 EL06076642 520372 2.260 2.52 5.0 0.49 46 10 70 <0.5 <2 3.42 6.9 12 30 292 4.06 <10 <1 0.22 <10 1.05 2100 4 0.04 16 960 23 2.45 13 4 112 <0.01 <10 <10 56 <10 746CGH-06-091 243.84 246.89 EL06076642 520373 0.033 0.9 0.86 23 10 240 0.5 <2 4.74 1.5 14 5 142 4.37 <10 <1 0.4 10 1.43 2460 2 0.08 7 1330 11 1.1 <2 9 169 <0.01 <10 <10 76 <10 258CGH-06-091 246.89 249.94 EL06076642 520374 0.029 0.7 0.71 31 10 170 <0.5 <2 4.81 <0.5 15 4 128 4.3 <10 1 0.32 10 1.49 3050 2 0.06 7 1270 11 1.12 <2 9 185 <0.01 <10 <10 70 <10 164CGH-06-091 249.94 252.98 EL06076642 520375 0.013 0.6 0.65 24 10 310 <0.5 <2 3.73 1.4 12 8 115 3.68 <10 <1 0.27 10 1.28 1955 1 0.07 4 1150 11 0.87 2 4 175 <0.01 <10 <10 56 <10 255CGH-06-091 249.94 252.98 EL06076642 520376 0.013 0.7 0.38 29 10 340 <0.5 <2 3.8 1.3 12 1 118 3.67 <10 <1 0.18 10 1.28 1965 1 0.06 4 1160 13 0.88 3 4 175 <0.01 <10 <10 55 <10 238CGH-06-093 18.29 21.34 EL06076643 100573 0.082 0.4 1.67 <2 <10 590 <0.5 <2 2.91 <0.5 7 2 553 3.47 10 <1 0.31 10 1.23 1275 36 0.04 3 1300 <2 0.58 2 5 90 <0.01 <10 <10 65 <10 105CGH-06-093 21.34 24.38 EL06076641 100574 0.076 0.5 1.6 3 <10 550 <0.5 <2 2.52 <0.5 8 2 558 3.42 <10 <1 0.22 10 1.16 1420 11 0.04 2 1200 <2 0.57 <2 5 91 <0.01 <10 <10 66 <10 103CGH-06-093 24.38 27.43 EL06076641 100575 0.154 0.7 1.68 2 <10 340 <0.5 <2 2.4 <0.5 10 2 804 3.46 10 2 0.26 <10 1.19 1100 8 0.06 3 1290 <2 0.76 <2 5 104 <0.01 <10 <10 72 <10 110CGH-06-093 27.43 30.48 EL06076641 100576 0.118 0.6 1.65 5 <10 320 <0.5 <2 3.35 <0.5 10 2 711 3.51 10 <1 0.27 10 1.07 1140 11 0.08 2 1260 2 0.79 <2 5 143 <0.01 <10 <10 69 <10 97CGH-06-093 30.48 33.53 EL06076641 100577 0.101 0.6 1.75 4 <10 130 <0.5 <2 3.6 <0.5 11 2 1020 3.77 10 2 0.29 10 1.14 1630 4 0.09 3 1300 3 1.16 <2 5 149 <0.01 <10 <10 70 <10 129CGH-06-093 33.53 36.58 EL06076641 100578 0.134 1.0 1.88 5 <10 110 <0.5 <2 3 2.6 38 2 908 3.51 <10 2 0.31 <10 1.28 1495 18 0.1 6 1560 2 1.77 4 6 116 <0.01 <10 <10 69 <10 385CGH-06-093 33.53 36.58 EL06076641 100579 0.124 1.0 1.9 6 <10 100 <0.5 <2 3 2.4 36 2 967 3.52 10 2 0.32 <10 1.27 1510 19 0.1 9 1550 3 1.79 5 5 116 <0.01 10 <10 68 10 377CGH-06-093 36.58 39.62 EL06076641 100580 0.160 0.9 1.7 9 <10 100 <0.5 <2 3.15 1 41 2 1155 3.86 <10 <1 0.32 10 1.05 1280 3 0.13 6 1510 3 1.96 <2 8 120 <0.01 <10 <10 74 <10 218CGH-06-093 39.62 42.67 EL06076641 100581 0.116 0.6 1.3 4 <10 70 <0.5 <2 3.3 1.4 19 2 759 2.74 <10 1 0.35 10 0.73 1175 21 0.14 4 1290 6 1.55 6 5 150 <0.01 <10 <10 40 <10 197CGH-06-093 42.67 45.72 EL06076641 100582 0.053 0.3 1.58 14 <10 70 <0.5 <2 2.04 <0.5 13 2 506 3.41 10 1 0.3 10 1.01 703 8 0.11 3 1280 3 1.52 <2 5 97 <0.01 10 <10 51 <10 71CGH-06-093 45.72 48.77 EL06076641 100583 0.206 1.5 1.03 28 <10 140 0.5 <2 2.28 3.5 12 1 1245 3.16 <10 <1 0.23 10 0.64 842 6 0.15 3 1390 7 1.83 2 4 119 <0.01 <10 <10 32 <10 432CGH-06-093 48.77 51.82 EL06076641 100584 0.438 1.0 1.08 26 10 50 <0.5 <2 3.79 <0.5 12 1 2310 3.76 <10 <1 0.3 10 0.66 986 4 0.15 3 1330 5 2.4 2 8 137 <0.01 <10 <10 47 <10 56CGH-06-093 51.82 54.86 EL06076641 100585 0.321 0.6 1.3 <2 <10 190 <0.5 <2 4.23 <0.5 9 2 1490 3.5 10 <1 0.26 10 0.88 887 5 0.12 2 1280 2 1.54 <2 9 122 <0.01 <10 <10 79 <10 65CGH-06-093 54.86 57.91 EL06076641 100586 0.575 0.7 1.38 <2 <10 360 <0.5 <2 3.29 <0.5 8 2 2130 3.28 <10 <1 0.23 10 1.05 863 10 0.11 2 1160 3 1.04 <2 8 105 <0.01 <10 <10 91 <10 100CGH-06-093 57.91 60.96 EL06076641 100587 0.115 0.3 1.16 <2 <10 120 <0.5 <2 3.42 <0.5 9 2 738 2.83 <10 <1 0.28 10 0.78 597 1 0.13 2 1170 2 1.17 3 6 124 <0.01 <10 <10 49 <10 42CGH-06-093 60.96 64.01 EL06076641 100588 0.356 1.0 0.72 13 10 90 <0.5 <2 3.47 0.6 17 2 1715 2.8 <10 <1 0.32 10 0.77 989 5 0.15 3 1200 4 1.76 25 6 129 <0.01 <10 <10 33 <10 54CGH-06-093 64.01 67.06 EL06076641 100589 0.093 1.1 0.64 3 <10 120 <0.5 <2 4.25 0.6 23 2 1580 3.47 <10 <1 0.19 10 0.92 1345 7 0.11 3 1190 5 2.45 2 8 129 <0.01 <10 <10 50 <10 129CGH-06-093 BLANK EL06076641 100590 0.021 <0.2 1.5 <2 10 200 <0.5 <2 4.58 <0.5 7 1 84 3.48 <10 1 0.24 10 1.14 952 <1 0.12 1 1490 3 0.28 3 7 151 <0.01 <10 <10 64 <10 47CGH-06-093 67.06 70.10 EL06076641 100591 0.217 1.2 0.76 5 <10 70 <0.5 <2 5.65 1.7 11 2 1290 3.14 <10 <1 0.26 10 0.86 1510 4 0.11 2 1170 4 1.64 40 8 173 <0.01 <10 <10 58 <10 266CGH-06-093 70.10 73.15 EL06076641 100592 0.129 1.2 1.42 9 10 100 0.6 <2 3.59 <0.5 14 4 1420 4.52 <10 <1 0.33 10 0.94 1200 7 0.16 6 1520 7 3.03 3 8 172 <0.01 <10 <10 79 <10 108CGH-06-093 73.15 76.20 EL06076641 100593 0.113 0.7 1.93 <2 10 100 <0.5 <2 4.52 <0.5 17 5 1110 4.64 <10 <1 0.33 10 1.34 1730 6 0.12 4 1390 3 1.64 3 8 206 <0.01 <10 <10 86 <10 133CGH-06-093 76.20 79.25 EL06076641 100594 0.267 0.8 0.77 3 <10 90 <0.5 <2 4.09 <0.5 10 1 1470 3.85 <10 <1 0.33 <10 0.8 1130 16 0.12 2 1260 4 1.51 2 5 219 <0.01 <10 <10 47 <10 92CGH-06-093 79.25 82.30 EL06076641 100595 0.143 1.2 0.42 17 <10 80 0.5 <2 4.72 0.8 11 1 1245 3.44 <10 <1 0.25 <10 0.55 1425 2 0.16 3 1310 6 2.06 5 7 225 <0.01 <10 <10 32 <10 119CGH-06-093 82.30 85.34 EL06076641 100596 0.194 1.2 0.6 15 10 70 <0.5 <2 3.71 1.4 8 1 1610 3.31 <10 <1 0.35 10 0.72 1400 1 0.14 1 1200 5 1.23 27 5 168 <0.01 <10 <10 32 <10 181CGH-06-093 85.34 88.39 EL06076641 100597 0.343 3.1 1.2 12 <10 130 0.5 <2 4.11 2.4 11 2 2480 4.21 <10 1 0.34 10 0.75 1460 1 0.13 1 1100 17 1.55 8 5 180 <0.01 <10 <10 43 <10 260
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-093 88.39 91.44 EL06076641 100598 0.170 0.7 1.91 10 <10 20 <0.5 <2 3.25 <0.5 33 7 1745 5.11 <10 <1 0.29 10 1.42 1005 34 0.11 6 1790 6 3.31 2 6 179 <0.01 <10 <10 85 <10 79CGH-06-093 91.44 94.49 EL06076641 100599 0.098 0.9 1.93 <2 <10 40 <0.5 <2 3.37 <0.5 22 6 1080 4.41 <10 <1 0.31 10 1.43 1110 13 0.11 5 1480 4 2.32 <2 6 119 <0.01 <10 <10 86 <10 87CGH-06-093 94.49 97.53 EL06076641 100600 0.110 0.7 1.53 12 10 40 <0.5 <2 3.55 <0.5 16 2 1045 3.86 <10 <1 0.34 10 1.08 744 16 0.1 <1 1250 4 2.01 3 4 156 <0.01 <10 <10 52 <10 53CGH-06-093 Standard 5 EL06076641 100601 0.138 0.5 1.65 3 <10 170 <0.5 <2 1.32 <0.5 23 1060 1535 4.56 <10 <1 0.23 10 0.82 587 15 0.13 843 650 6 0.93 4 5 75 0.11 <10 <10 64 <10 52CGH-06-093 97.53 100.58 EL06076641 100602 0.212 0.5 1.46 <2 10 70 <0.5 <2 3.31 <0.5 14 2 1440 3.8 10 <1 0.32 10 1.06 664 13 0.09 2 1220 2 1.8 2 4 126 <0.01 <10 <10 53 <10 54CGH-06-093 100.58 103.63 EL06076641 100603 0.420 1.2 1.27 <2 <10 70 <0.5 <2 3.49 <0.5 16 2 2810 3.21 <10 <1 0.35 10 0.89 883 27 0.08 2 1120 4 1.74 13 3 131 <0.01 <10 <10 44 <10 73CGH-06-093 103.63 106.68 EL06076643 100604 0.344 1.0 1.25 13 <10 160 <0.5 <2 3.27 <0.5 10 5 2240 2.79 <10 <1 0.39 10 0.82 857 41 0.09 2 1140 4 1.35 2 3 127 <0.01 <10 <10 41 <10 52CGH-06-093 106.68 109.73 EL06076643 100605 0.318 0.9 1.32 8 <10 130 <0.5 <2 4.16 <0.5 9 2 2090 3.47 <10 <1 0.39 10 0.87 1115 19 0.1 <1 1220 2 1.24 <2 4 140 <0.01 <10 <10 55 <10 56CGH-06-093 109.73 112.78 EL06076643 100606 0.349 0.5 1.34 6 <10 380 <0.5 <2 4.14 <0.5 7 2 2210 3.27 <10 <1 0.4 10 0.81 902 5 0.1 1 1260 5 0.74 <2 4 139 <0.01 <10 <10 60 <10 53CGH-06-093 112.78 115.82 EL06076643 100607 0.365 0.5 1.42 2 <10 440 <0.5 <2 3.85 <0.5 10 4 2570 3.42 <10 <1 0.38 10 0.87 797 6 0.12 1 1230 3 0.79 <2 5 153 <0.01 <10 <10 61 <10 59CGH-06-093 115.82 118.87 EL06076643 100608 0.158 0.3 1.44 4 <10 640 <0.5 <2 4.74 <0.5 8 1 815 3.18 <10 <1 0.36 10 0.9 1190 4 0.11 1 1190 4 0.64 <2 4 179 <0.01 <10 <10 47 <10 70CGH-06-093 118.87 121.92 EL06076643 100609 0.207 1.8 1.57 21 <10 30 0.5 <2 3.85 <0.5 13 2 2000 3.89 <10 <1 0.41 10 0.84 1270 5 0.12 3 1350 7 2.3 4 4 197 <0.01 <10 <10 40 <10 87CGH-06-093 121.92 124.97 EL06076643 100610 0.186 2.0 1.68 41 <10 20 <0.5 <2 4.09 7.5 10 4 636 4.94 <10 2 0.37 10 1.03 1850 4 0.09 3 1250 60 3.58 25 4 128 <0.01 <10 <10 35 <10 1615CGH-06-093 124.97 128.02 EL06076643 100611 0.096 0.7 1.9 6 <10 200 <0.5 <2 4.07 6.4 6 2 54 3.16 <10 1 0.36 10 1.18 2250 <1 0.12 2 1220 7 0.95 6 4 133 <0.01 <10 <10 43 <10 921CGH-06-093 124.97 128.02 EL06076643 100612 0.093 0.6 1.73 8 <10 260 <0.5 <2 3.89 5.9 6 1 55 3.09 <10 <1 0.31 10 1.18 2200 <1 0.11 1 1210 6 0.91 8 3 131 <0.01 <10 <10 41 <10 843CGH-06-093 128.02 131.06 EL06076643 100613 0.040 0.3 1.15 4 <10 380 <0.5 <2 4.04 <0.5 6 3 40 2.98 <10 <1 0.31 10 1.02 2040 1 0.08 <1 1150 3 0.84 4 3 142 <0.01 <10 <10 32 <10 129CGH-06-093 131.06 134.11 EL06076643 100614 0.035 0.2 1.49 6 <10 440 <0.5 <2 3.39 <0.5 8 1 16 3 <10 <1 0.34 10 1.03 1640 1 0.09 1 1240 2 0.9 <2 3 109 <0.01 <10 <10 34 <10 115CGH-06-093 134.11 137.16 EL06076643 100615 0.013 0.2 1.54 6 <10 560 <0.5 <2 3.9 <0.5 7 1 21 2.87 <10 <1 0.33 10 1 1605 1 0.1 <1 1200 4 0.39 2 4 136 <0.01 <10 <10 39 <10 109CGH-06-093 137.16 140.21 EL06076643 100616 0.026 0.2 1.32 14 10 490 <0.5 <2 4.07 <0.5 8 3 28 3.05 <10 <1 0.53 10 1.08 2030 1 0.08 1 1210 2 0.79 3 3 171 <0.01 <10 <10 31 <10 116CGH-06-093 140.21 143.26 EL06076643 100617 0.046 0.3 1.29 11 10 400 <0.5 <2 3.18 <0.5 7 1 33 2.92 <10 <1 0.52 10 0.96 1980 1 0.07 1 1240 3 0.84 2 3 135 <0.01 <10 <10 29 <10 100CGH-06-093 143.26 146.30 EL06076643 100618 0.044 0.3 1.03 8 <10 340 <0.5 <2 3.29 <0.5 6 1 483 2.6 <10 <1 0.47 10 0.81 1905 3 0.07 1 1160 <2 0.93 9 3 122 <0.01 <10 <10 23 <10 112CGH-06-093 146.30 149.35 EL06076643 100619 0.090 0.7 0.69 30 <10 70 <0.5 <2 4.03 <0.5 11 3 373 3.22 <10 <1 0.41 <10 0.76 1960 4 0.07 1 1130 2 2.29 5 3 130 <0.01 <10 <10 15 <10 67CGH-06-093 149.35 152.40 EL06076643 100620 0.045 1.2 0.97 23 <10 70 0.5 <2 3.4 <0.5 12 1 864 3.56 <10 <1 0.43 10 0.77 1675 6 0.08 4 1260 3 2.64 6 4 124 <0.01 <10 <10 34 <10 128CGH-06-093 152.40 155.45 EL06076643 100621 0.107 2.1 0.82 33 <10 80 <0.5 <2 3.31 0.9 13 1 956 3.87 <10 <1 0.44 10 0.72 2160 8 0.07 2 1240 2 3.01 19 3 103 <0.01 <10 <10 22 <10 142CGH-06-093 155.45 158.50 EL06076643 100622 0.051 3.9 0.74 55 <10 50 <0.5 <2 3.93 0.9 15 18 786 3.81 <10 <1 0.4 <10 1.02 2190 23 0.07 17 1120 11 2.36 48 7 114 <0.01 <10 <10 21 <10 110CGH-06-093 Standard 2 EL06076643 100623 0.973 2.6 0.85 10 <10 90 <0.5 5 1.59 <0.5 27 1475 >10000 10.85 <10 <1 0.42 <10 0.75 980 27 0.03 1170 610 11 3.32 7 5 60 0.01 <10 <10 55 <10 77 1.17CGH-06-093 158.50 161.54 EL06076643 100624 0.106 1.8 1.09 26 <10 40 0.5 <2 3.32 0.7 12 2 1565 4.05 <10 <1 0.41 <10 0.74 1455 17 0.1 3 1210 8 2.76 5 4 149 <0.01 <10 <10 29 <10 208CGH-06-093 161.54 164.59 EL06076643 100625 0.154 1.6 1.41 10 10 60 0.6 <2 3.64 1.4 13 3 2050 3.52 <10 <1 0.36 10 0.86 1080 10 0.12 1 1440 6 2.68 2 5 214 <0.01 <10 <10 47 <10 261CGH-06-093 164.59 167.64 EL06076643 100626 0.169 1.8 1.14 11 <10 100 0.5 <2 4.08 <0.5 16 2 2550 3.5 <10 <1 0.34 <10 0.75 1220 12 0.1 2 1290 6 2.44 <2 5 201 <0.01 <10 <10 39 <10 78CGH-06-093 167.64 170.69 EL06076643 100627 0.304 3.9 0.71 47 <10 30 <0.5 <2 3.74 <0.5 12 <1 1880 3.91 <10 <1 0.37 <10 0.59 1440 4 0.08 <1 1260 8 2.94 8 4 152 <0.01 <10 <10 20 <10 47CGH-06-093 170.69 173.74 EL06076643 100628 0.110 2.2 0.73 29 <10 30 <0.5 <2 2.87 <0.5 14 5 1055 4.06 <10 <1 0.35 <10 0.47 1065 16 0.08 2 1160 3 3.27 21 3 127 <0.01 <10 <10 18 <10 57CGH-06-093 173.74 176.78 EL06076643 100629 0.128 0.8 0.91 14 <10 30 <0.5 <2 2.88 0.5 12 1 1295 3.99 <10 <1 0.37 10 0.49 1020 22 0.1 3 1210 3 3.01 37 5 136 <0.01 <10 <10 26 <10 67CGH-06-093 176.78 179.83 EL06076643 100630 0.015 <0.2 1.61 5 <10 830 <0.5 <2 3.7 <0.5 7 2 154 3.98 <10 <1 0.37 10 0.93 1950 2 0.1 2 1520 4 0.35 <2 5 149 <0.01 <10 <10 61 <10 148CGH-06-093 179.83 182.88 EL06076643 100631 0.022 0.5 1.95 9 <10 150 <0.5 <2 3.28 <0.5 14 1 153 4.1 <10 <1 0.32 10 1.04 2000 4 0.08 3 1290 8 0.92 <2 4 168 <0.01 <10 <10 45 <10 185CGH-06-093 182.88 185.93 EL06076643 100632 0.077 0.9 1.55 6 <10 70 <0.5 <2 3.07 <0.5 15 1 1030 3.66 <10 1 0.33 <10 1.09 1170 18 0.1 2 1360 8 2.22 <2 5 181 <0.01 <10 <10 59 <10 83CGH-06-093 185.93 188.98 EL06076643 100633 0.071 1.1 1.77 3 10 50 <0.5 <2 2.78 1.5 14 3 1100 3.96 <10 <1 0.37 10 1.04 1300 13 0.08 4 1310 5 2.74 <2 4 123 <0.01 <10 <10 63 <10 248CGH-06-093 185.93 188.98 EL06076643 100634 0.060 1.1 1.82 9 10 50 <0.5 <2 2.77 1.7 16 2 1110 4.02 <10 1 0.38 10 1.05 1310 11 0.08 2 1310 7 2.75 <2 4 123 <0.01 10 <10 65 <10 258CGH-06-093 188.98 192.02 EL06076643 100635 0.071 0.6 1.83 2 10 80 <0.5 <2 2.57 1.3 16 3 1165 4.13 10 1 0.29 <10 1.11 907 9 0.11 3 1320 5 2.14 3 5 141 <0.01 <10 <10 75 <10 201CGH-06-093 192.02 195.07 EL06076643 100636 0.058 0.6 1.94 5 10 100 <0.5 <2 2.23 <0.5 17 4 1010 3.83 10 2 0.33 <10 1.24 907 11 0.11 5 1450 3 2.59 <2 5 112 <0.01 <10 <10 79 <10 83CGH-06-093 195.07 198.12 EL06076643 100637 0.087 0.8 1.74 6 <10 20 <0.5 <2 3.16 <0.5 14 2 1045 4.29 <10 1 0.34 <10 1.08 1120 22 0.09 4 1300 5 3.78 <2 4 147 <0.01 <10 <10 64 <10 71CGH-06-093 198.12 201.17 EL06076643 100638 0.058 0.8 1.75 5 <10 80 <0.5 <2 3.33 <0.5 16 2 799 4.1 <10 1 0.36 <10 1.06 1310 22 0.09 4 1200 6 3.43 <2 4 151 <0.01 <10 <10 63 <10 100CGH-06-093 201.17 204.22 EL06076643 100639 0.129 1.1 1.91 9 10 40 <0.5 <2 3.08 1.8 17 4 1830 4.62 <10 <1 0.38 <10 1.11 1140 27 0.1 4 1200 6 3.52 2 4 165 <0.01 <10 <10 60 <10 268CGH-06-093 204.22 207.27 EL06076643 100640 0.069 0.4 1.95 7 10 90 <0.5 <2 2.87 <0.5 9 2 686 3.11 10 1 0.35 10 1.3 819 10 0.12 3 1800 <2 1.48 <2 6 154 0.01 <10 <10 75 <10 68CGH-06-093 207.27 210.31 EL06076643 100641 0.064 0.7 2.02 <2 10 30 <0.5 <2 2.45 <0.5 13 2 955 3.7 10 <1 0.32 <10 1.35 849 22 0.1 4 1550 4 2.18 <2 6 196 0.01 <10 <10 78 <10 90CGH-06-093 210.31 213.36 EL06076643 100642 0.079 0.7 2.14 4 <10 90 <0.5 <2 2.86 1.1 12 4 996 3.78 10 1 0.38 <10 1.22 1470 10 0.1 3 1330 9 1.99 <2 5 232 <0.01 <10 <10 83 <10 221CGH-06-093 213.36 216.41 EL06076643 100643 0.067 1.8 1.61 10 <10 20 <0.5 <2 4.56 27.2 15 1 1575 4.54 <10 2 0.36 <10 0.8 1180 18 0.09 3 1140 13 4.25 2 4 206 <0.01 <10 <10 48 <10 3430CGH-06-093 216.41 219.46 EL06076643 100644 0.052 0.7 1.74 <2 10 40 <0.5 <2 3.05 <0.5 14 1 742 3.28 <10 <1 0.37 <10 0.91 844 38 0.1 6 1300 6 2.24 <2 4 141 <0.01 <10 <10 57 <10 107CGH-06-093 Standard 6 EL06076643 100645 0.266 0.7 1.09 7 <10 50 <0.5 <2 2.8 <0.5 17 404 3450 5.89 <10 2 0.35 <10 1.11 798 11 0.06 333 1200 21 3.26 7 8 193 <0.01 <10 <10 58 <10 131CGH-06-093 219.46 222.50 EL06076643 100646 0.126 0.6 1.9 3 10 70 <0.5 <2 3.03 <0.5 12 8 1035 3.52 <10 <1 0.35 <10 1.19 828 13 0.11 7 1340 3 2.49 <2 5 135 <0.01 <10 <10 72 <10 76CGH-06-093 222.50 225.55 EL06076643 100647 0.097 1.1 1.71 4 10 40 <0.5 <2 2.37 <0.5 18 2 1225 4.4 <10 <1 0.35 10 1.07 763 15 0.09 <1 1380 7 4.23 <2 4 112 <0.01 <10 <10 57 <10 70CGH-06-093 225.55 228.60 EL06076643 100648 0.114 0.9 1.71 8 10 80 <0.5 <2 2.49 <0.5 12 2 1160 3.03 <10 1 0.35 <10 1.02 703 19 0.11 4 1380 <2 2.68 <2 4 130 <0.01 <10 <10 58 <10 55CGH-06-093 228.60 231.65 EL06076643 100649 0.195 1.1 1.51 10 <10 50 <0.5 <2 3.1 2.8 15 3 1560 3.54 <10 1 0.33 <10 0.75 826 14 0.1 5 1400 3 3.11 2 4 126 <0.01 <10 <10 48 <10 360CGH-06-093 231.65 234.69 EL06076643 100650 0.098 0.8 1.76 7 <10 160 0.5 <2 3.3 2.7 12 2 980 2.93 <10 1 0.34 <10 1.09 1040 10 0.11 6 1500 7 2.32 <2 7 141 <0.01 <10 <10 76 <10 355CGH-06-093 234.69 237.74 EL06076643 100651 0.240 0.6 1.6 2 10 190 <0.5 <2 3.09 <0.5 11 5 1140 2.36 <10 <1 0.31 <10 1.1 791 18 0.12 6 1460 4 1.55 4 7 145 <0.01 <10 <10 72 <10 62CGH-06-093 237.74 240.79 EL06076643 100652 0.276 2.4 0.83 8 10 30 <0.5 <2 3.2 <0.5 15 13 2500 5.18 <10 <1 0.3 <10 0.86 996 10 0.08 6 1330 8 5.15 3 5 153 <0.01 <10 <10 41 <10 67CGH-06-093 240.79 243.84 EL06076643 100653 0.225 2.3 0.81 10 10 40 <0.5 <2 3.44 <0.5 15 2 2330 4.51 <10 <1 0.31 <10 1.11 1160 10 0.1 6 1400 7 3.85 <2 6 185 <0.01 <10 <10 46 <10 76CGH-06-093 243.84 246.89 EL06076643 100654 0.279 2.6 0.79 5 10 40 <0.5 <2 3.09 0.5 19 2 2670 5.6 <10 1 0.32 <10 0.9 941 9 0.09 5 1380 10 5.53 2 5 150 <0.01 <10 <10 47 <10 106CGH-06-093 246.89 249.94 EL06076643 100655 0.144 1.2 0.4 8 <10 30 <0.5 <2 3.26 <0.5 10 33 911 3.56 <10 1 0.17 <10 1.01 1130 6 0.05 22 1120 7 3.15 2 6 113 <0.01 <10 <10 54 <10 77CGH-06-093 246.89 249.94 EL06076643 100656 0.122 1.3 0.41 9 <10 30 <0.5 <2 3.34 <0.5 10 12 883 3.62 <10 <1 0.17 <10 1.05 1150 8 0.05 23 1180 6 3.16 <2 6 118 <0.01 <10 <10 55 <10 75CGH-06-093 249.94 252.98 EL06076643 100657 0.134 1.5 0.46 16 <10 30 <0.5 <2 3.28 <0.5 13 5 1040 3.71 <10 2 0.21 <10 0.82 1300 6 0.06 19 1250 7 3.38 3 6 116 <0.01 <10 <10 34 <10 53CGH-06-093 252.98 256.03 EL06076643 100658 0.044 2.3 0.32 5 <10 50 <0.5 <2 2.69 <0.5 13 27 436 2.74 <10 <1 0.14 <10 0.84 883 23 0.04 21 990 19 2.26 9 4 122 <0.01 <10 <10 25 <10 44CGH-06-093 256.03 259.08 EL06076643 100659 0.050 0.7 0.49 11 <10 80 <0.5 <2 2.52 <0.5 13 4 611 2.99 <10 1 0.2 <10 0.82 925 34 0.05 22 1280 6 2.27 <2 6 120 <0.01 <10 <10 41 <10 66CGH-06-093 259.08 262.13 EL06076643 100660 0.076 1.0 0.44 15 <10 30 <0.5 <2 2.72 <0.5 13 3 552 3.38 <10 <1 0.21 <10 0.75 1180 35 0.05 17 1280 5 2.79 2 5 88 <0.01 <10 <10 29 <10 57CGH-06-093 262.13 265.18 EL06076643 100661 0.066 0.4 0.51 13 10 40 <0.5 <2 2.4 <0.5 9 8 247 3.25 <10 1 0.25 10 0.71 877 18 0.07 3 1050 4 2.51 <2 3 112 <0.01 <10 <10 22 <10 29CGH-06-093 265.18 268.22 EL06076643 100662 0.040 0.3 0.57 11 10 120 <0.5 <2 2.43 <0.5 10 1 288 3.16 <10 1 0.26 10 0.66 794 33 0.08 4 1170 5 2.22 2 3 118 <0.01 <10 <10 23 <10 33CGH-06-093 268.22 271.27 EL06076643 100663 0.059 0.5 0.51 13 10 100 <0.5 <2 3.67 <0.5 10 1 301 3.43 <10 1 0.26 10 0.75 1250 26 0.08 3 1110 3 2.44 <2 3 122 <0.01 <10 <10 19 <10 27CGH-06-093 271.27 274.32 EL06076643 100664 0.043 0.7 0.47 9 <10 140 <0.5 <2 2.5 <0.5 11 18 390 2.52 <10 1 0.23 <10 0.73 979 129 0.06 16 1170 2 1.84 <2 4 87 <0.01 <10 <10 32 <10 22CGH-06-093 274.32 277.37 EL06076643 100665 0.071 0.7 0.54 16 10 50 0.5 <2 3.53 <0.5 14 4 506 2.7 <10 1 0.26 <10 0.82 1120 215 0.08 23 1070 4 1.82 3 5 161 <0.01 <10 <10 32 <10 41CGH-06-093 277.37 280.42 EL06076643 100666 0.063 0.6 0.47 24 10 30 <0.5 <2 3.13 <0.5 12 4 451 3.64 <10 1 0.26 <10 0.75 1050 80 0.07 15 1190 5 2.72 3 4 140 <0.01 <10 <10 29 <10 49CGH-06-093 BLANK EL06076643 100667 0.038 0.6 0.62 52 10 220 0.6 <2 6.13 5.3 16 7 175 4.64 <10 <1 0.33 10 1.19 3210 17 0.12 14 1350 25 1.43 4 8 179 <0.01 <10 <10 41 <10 654CGH-06-093 280.42 283.46 EL06076643 100668 0.040 0.4 0.56 17 10 30 0.5 <2 4.83 <0.5 8 1 269 3.74 <10 <1 0.27 <10 1.02 1370 11 0.09 2 1000 4 2.57 <2 4 199 <0.01 <10 <10 24 <10 51CGH-06-093 283.46 286.51 EL06076643 100669 0.059 0.5 0.58 7 10 40 <0.5 <2 2.71 <0.5 8 1 310 4.51 <10 <1 0.29 10 1 1010 16 0.07 2 1070 3 3.29 <2 3 152 <0.01 <10 <10 30 <10 59CGH-06-093 286.51 289.56 EL06076643 100670 0.046 0.5 0.64 6 10 100 <0.5 <2 3.16 <0.5 9 2 446 3.73 <10 <1 0.27 10 1.02 1140 11 0.1 2 1100 4 2.3 <2 4 181 <0.01 <10 <10 50 <10 64CGH-06-093 289.56 292.61 EL06076643 100671 0.053 0.7 0.62 10 10 70 <0.5 <2 3.17 <0.5 11 2 452 4.58 <10 <1 0.29 10 1.12 1195 16 0.09 1 1160 4 3.15 2 4 218 <0.01 <10 <10 45 <10 62CGH-06-093 292.61 295.66 EL06076643 100672 0.040 0.4 0.64 4 10 70 <0.5 <2 3.67 <0.5 9 5 254 3.65 <10 <1 0.27 10 0.86 1335 10 0.11 1 1110 2 1.84 <2 4 186 <0.01 <10 <10 44 <10 84CGH-06-094 15.24 18.29 EL06076643 100673 0.024 0.5 1.33 10 10 80 0.5 <2 6.85 <0.5 34 75 467 5.62 <10 <1 0.34 10 2.02 1945 4 0.06 55 2460 7 2.37 <2 24 200 0.01 <10 <10 100 <10 133CGH-06-094 18.29 21.34 EL06076643 100674 0.324 2.1 1.38 63 <10 40 0.5 <2 6.26 <0.5 24 90 1050 5.75 <10 1 0.28 10 2.15 2950 6 0.06 44 2190 9 3.29 3 16 220 <0.01 <10 <10 99 <10 226CGH-06-094 21.34 24.38 EL06076643 100675 0.075 1.2 1.23 11 10 50 0.5 <2 7.59 <0.5 28 97 720 5.41 <10 <1 0.29 10 2.08 2810 6 0.08 59 2360 4 2.55 10 24 231 <0.01 <10 <10 102 <10 164CGH-06-094 24.38 27.43 EL06076643 100676 0.077 0.6 1.39 6 <10 70 <0.5 <2 5.86 <0.5 26 72 823 5.11 <10 <1 0.3 10 2.17 1960 12 0.1 43 2070 7 2.57 <2 17 179 <0.01 <10 <10 89 <10 123CGH-06-094 27.43 30.48 EL06076643 100677 0.189 1.1 1.67 25 10 60 <0.5 <2 7.9 <0.5 34 115 1640 5.62 <10 1 0.32 10 2.27 2630 12 0.09 61 2360 9 2.99 3 24 197 <0.01 <10 <10 100 <10 132CGH-06-094 Standard 5 EL06076643 100678 0.124 0.4 1.63 9 10 180 <0.5 <2 1.32 <0.5 22 1085 1560 4.44 <10 <1 0.23 <10 0.83 617 17 0.13 864 660 6 0.98 3 5 75 0.11 <10 <10 66 <10 52CGH-06-094 30.48 33.53 EL06076643 100679 0.074 0.9 2.45 6 10 60 0.5 <2 7.79 2.3 26 152 894 5.7 10 <1 0.32 10 2.68 2940 3 0.11 66 2630 6 2.38 <2 27 204 <0.01 <10 <10 118 <10 535CGH-06-094 33.53 36.58 EL06076643 100680 0.159 0.6 1.04 8 10 150 0.5 <2 4.24 0.7 12 21 1360 3.9 <10 <1 0.35 <10 1.1 2020 6 0.13 10 1490 5 1.78 <2 8 137 <0.01 <10 <10 55 <10 169CGH-06-094 36.58 39.62 EL06076643 100681 0.081 0.4 1.15 2 <10 200 <0.5 <2 3.09 <0.5 8 2 785 3.49 <10 <1 0.32 <10 1.07 1305 9 0.11 2 1270 6 1.42 <2 5 123 <0.01 <10 <10 49 <10 93CGH-06-094 39.62 42.67 EL06076643 100682 0.038 0.5 0.63 6 <10 90 <0.5 <2 3.91 <0.5 12 6 638 4.38 <10 <1 0.29 <10 1.06 1815 40 0.11 2 1220 5 2.26 <2 5 208 <0.01 <10 <10 37 <10 110
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-094 51.82 54.86 EL06076643 100683 0.144 0.4 1.59 <2 <10 90 <0.5 <2 4.39 <0.5 28 2 1700 4.99 <10 <1 0.29 <10 1.14 947 15 0.14 4 1450 5 2.28 <2 9 148 <0.01 <10 <10 86 <10 62CGH-06-094 76.20 79.25 EL06076643 100684 0.112 0.6 1.31 35 <10 30 <0.5 <2 4.62 0.7 32 2 556 4.18 <10 <1 0.29 <10 0.94 969 11 0.12 2 1370 6 3.7 2 4 170 <0.01 <10 <10 48 <10 118CGH-06-094 94.49 97.54 EL06076643 100685 0.056 0.8 1.4 11 <10 50 <0.5 <2 4.72 <0.5 12 8 292 3.56 <10 1 0.29 <10 0.99 1135 12 0.1 2 1330 5 1.96 <2 6 191 <0.01 <10 <10 44 <10 89CGH-06-094 118.87 121.92 EL06076643 100686 0.049 0.5 1.64 5 10 70 <0.5 <2 4.95 1.2 14 1 331 4.64 <10 <1 0.32 10 1.28 1235 4 0.12 2 2210 8 2.02 <2 12 165 <0.01 <10 <10 96 <10 130CGH-06-094 121.92 124.97 EL06076643 100687 0.067 0.8 1.49 23 <10 40 <0.5 <2 5.53 <0.5 21 <1 458 5.28 <10 1 0.3 10 1.23 1495 8 0.12 3 1820 11 2.65 <2 9 170 <0.01 <10 <10 77 <10 78CGH-06-094 131.06 134.11 EL06076643 100688 0.061 1.3 1.6 19 <10 50 0.5 <2 5.1 1.1 17 11 470 4.87 <10 <1 0.31 10 1.01 1905 7 0.09 8 1790 5 3.18 <2 7 165 <0.01 <10 <10 40 <10 195CGH-06-094 131.06 134.11 EL06076643 100689 0.063 1.5 1.71 28 <10 40 <0.5 <2 5.82 2.1 19 4 555 5.47 <10 <1 0.31 10 1.23 2290 13 0.09 8 1760 8 3.63 <2 7 172 <0.01 <10 <10 42 <10 270CGH-06-094 134.11 137.16 EL06076643 100690 0.107 1.0 0.69 82 10 30 <0.5 <2 5.17 <0.5 36 1 527 4.83 <10 1 0.33 <10 0.76 1835 20 0.09 4 1420 8 4.58 <2 5 146 <0.01 <10 <10 17 <10 53CGH-06-094 137.16 140.21 EL06076643 100691 0.070 1.3 1.74 10 <10 40 <0.5 <2 5.02 <0.5 18 4 553 5.35 <10 1 0.39 10 1.38 1835 10 0.08 6 1400 7 3.67 <2 5 143 <0.01 <10 <10 47 <10 127CGH-06-094 140.21 143.26 EL06076643 100692 0.039 0.2 1.71 30 <10 200 <0.5 <2 5.17 <0.5 15 69 142 4.15 <10 <1 0.29 10 2.16 1660 5 0.08 55 1390 5 0.91 <2 12 197 <0.01 <10 <10 68 <10 101CGH-06-094 143.26 146.30 EL06076643 100693 0.054 0.7 1.3 44 10 40 <0.5 <2 4.17 <0.5 19 55 440 4.33 <10 <1 0.29 10 1.57 1225 11 0.11 52 1660 5 1.98 16 12 232 <0.01 <10 <10 66 <10 87CGH-06-094 146.30 149.35 EL06076643 100694 0.115 1.1 0.74 72 <10 30 <0.5 <2 4.53 <0.5 19 8 1150 4.2 <10 <1 0.34 <10 1.26 1590 80 0.11 1 2010 4 3.15 12 6 177 <0.01 <10 <10 42 <10 65CGH-06-094 149.35 152.40 EL06076643 100695 0.120 0.8 1.15 10 10 80 <0.5 <2 4.7 <0.5 14 1 1200 4.4 <10 1 0.35 <10 1.53 1450 24 0.11 1 2090 4 1.93 11 8 159 <0.01 <10 <10 78 <10 82CGH-06-094 152.40 155.45 EL06076643 100696 0.122 0.9 1.11 7 <10 50 <0.5 <2 5 <0.5 15 1 1380 4.54 <10 <1 0.32 10 1.45 1465 52 0.1 3 2210 5 2.01 <2 8 174 <0.01 <10 <10 78 <10 81CGH-06-094 155.45 158.50 EL06076643 100697 0.324 1.2 1.26 22 <10 40 <0.5 <2 4.73 <0.5 17 5 2100 4.41 <10 <1 0.38 <10 1.05 1315 39 0.12 2 2000 4 2.21 2 8 173 <0.01 <10 <10 62 <10 73CGH-06-094 158.50 161.54 EL06076643 100698 0.433 2.0 1.14 26 <10 50 <0.5 <2 4.61 <0.5 15 1 2530 4.09 <10 <1 0.35 10 1.28 1580 71 0.12 1 2010 5 2.09 <2 8 179 <0.01 <10 <10 64 <10 71CGH-06-094 161.54 164.59 EL06076643 100699 0.387 2.1 1.32 26 10 70 <0.5 <2 4.53 <0.5 10 2 2330 3.55 <10 <1 0.36 10 0.93 1475 71 0.1 1 1430 5 1.59 3 5 173 <0.01 <10 <10 54 <10 66CGH-06-094 Standard 2 EL06076643 100700 0.912 2.9 0.91 12 10 120 <0.5 4 1.7 <0.5 29 1575 >10000 11.15 <10 <1 0.44 <10 0.79 1085 31 0.04 1235 650 9 3.72 4 5 63 0.01 <10 <10 58 <10 85 1.16CGH-06-094 164.59 167.64 EL06076643 100701 0.418 3.7 1.19 38 10 110 <0.5 <2 2.63 <0.5 11 10 2740 3.47 <10 <1 0.38 <10 0.87 1420 17 0.08 3 1110 4 2.01 8 4 104 <0.01 <10 <10 41 <10 71CGH-06-094 167.64 170.69 EL06076643 100702 0.302 2.3 0.89 31 <10 60 <0.5 <2 3.29 <0.5 10 1 2130 3.63 <10 <1 0.38 <10 1.03 1685 20 0.1 3 1230 4 2.12 <2 4 160 <0.01 <10 <10 37 <10 63CGH-06-094 170.69 173.74 EL06076643 100703 0.191 2.2 1.48 37 <10 90 <0.5 <2 2.83 <0.5 11 2 1450 3.67 <10 1 0.38 10 1.05 1515 9 0.07 3 1170 4 1.62 <2 4 118 <0.01 <10 <10 48 <10 96CGH-06-094 173.74 176.78 EL06076643 100704 0.231 1.7 1.45 23 <10 120 <0.5 <2 3.16 <0.5 10 6 1800 3.47 <10 <1 0.37 10 1.02 1330 13 0.09 2 1190 3 1.38 3 5 124 <0.01 <10 <10 52 <10 78CGH-06-094 176.78 179.83 EL06076643 100705 0.271 2.4 1.04 29 <10 40 <0.5 <2 3.05 <0.5 13 1 2500 3.93 <10 1 0.35 <10 0.88 1185 6 0.09 1 1100 4 2.29 <2 4 122 <0.01 <10 <10 38 <10 69CGH-06-094 179.83 182.88 EL06076643 100706 0.233 2.4 0.79 26 <10 150 <0.5 <2 3.41 <0.5 8 1 1950 2.96 <10 1 0.39 <10 0.79 1335 6 0.09 2 1120 3 1.13 5 4 134 <0.01 <10 <10 32 <10 54CGH-06-094 182.88 185.93 EL06076643 100707 0.218 4.4 0.58 57 <10 70 <0.5 <2 2.81 2 11 10 2270 2.54 <10 <1 0.37 <10 0.62 1470 7 0.09 2 1060 6 1.59 5 3 105 <0.01 <10 <10 18 <10 173CGH-06-094 185.93 188.98 EL06076643 100708 0.114 4.7 0.53 66 <10 60 <0.5 <2 2.68 1.3 11 1 1450 3.53 <10 1 0.35 <10 0.69 1740 10 0.07 2 1100 10 2.46 4 3 91 <0.01 <10 <10 19 <10 124CGH-06-094 188.98 192.02 EL06076643 100709 0.336 3.0 0.7 47 <10 30 <0.5 <2 3.66 <0.5 13 1 3030 3.39 <10 <1 0.34 <10 0.84 1365 10 0.07 3 1200 5 2.23 2 4 137 <0.01 <10 <10 31 <10 47CGH-06-094 192.02 195.07 EL06076643 100710 0.189 1.9 0.71 17 <10 100 <0.5 <2 3.3 <0.5 13 9 1840 2.71 <10 <1 0.35 10 0.86 1215 7 0.08 2 1420 2 1.5 6 5 144 <0.01 <10 <10 39 <10 54CGH-06-094 192.02 195.07 EL06076643 100711 0.165 1.8 0.75 21 <10 140 <0.5 <2 3.47 <0.5 13 1 1930 2.84 <10 <1 0.37 10 0.89 1275 12 0.09 2 1490 3 1.5 4 5 154 <0.01 <10 <10 41 <10 56CGH-06-094 195.07 198.12 EL06076643 100712 0.141 1.2 1.22 6 <10 200 <0.5 <2 2.76 <0.5 13 2 1520 2.72 <10 1 0.31 <10 1.13 794 5 0.1 2 1410 5 1.24 3 6 109 <0.01 <10 <10 58 <10 58CGH-06-094 198.12 201.17 EL06076643 100713 0.083 0.8 1.82 5 <10 230 <0.5 <2 2.84 <0.5 18 7 1270 3.26 10 1 0.27 10 1.5 1120 16 0.11 1 1640 3 1.33 <2 7 109 <0.01 <10 <10 86 <10 93CGH-06-094 201.17 204.22 EL06076643 100714 0.100 1.3 1.8 8 <10 240 <0.5 <2 2.9 <0.5 17 2 1200 3.74 10 <1 0.31 10 1.35 1290 29 0.1 2 1520 3 2.02 3 6 113 <0.01 <10 <10 83 <10 86CGH-06-094 204.22 207.26 EL06076643 100715 0.082 2.1 1.51 13 <10 30 <0.5 <2 4.12 <0.5 16 1 1490 3.4 <10 <1 0.29 <10 1.11 1595 25 0.07 2 1300 5 2.18 4 4 173 <0.01 <10 <10 59 <10 106CGH-06-094 207.26 210.31 EL06076643 100716 0.234 2.5 1.38 10 <10 80 <0.5 <2 4.17 0.6 11 7 1250 3.27 <10 1 0.28 10 0.96 1935 5 0.07 1 1180 7 2.24 <2 3 118 <0.01 <10 <10 42 <10 155CGH-06-094 210.31 213.36 EL06076643 100717 0.115 0.6 1.55 9 <10 120 <0.5 <2 3.25 <0.5 12 1 1040 3.29 <10 <1 0.29 10 1.12 988 11 0.12 2 1240 4 1.81 <2 4 127 <0.01 <10 <10 61 <10 93CGH-06-094 213.36 216.41 EL06076643 100718 0.117 0.4 1.63 11 <10 160 <0.5 <2 3.11 <0.5 7 1 660 3.57 10 1 0.29 10 1.16 913 6 0.12 2 1240 4 1.77 <2 4 123 <0.01 <10 <10 58 <10 105CGH-06-094 216.41 219.46 EL06076643 100719 0.057 0.5 1.59 7 <10 160 <0.5 <2 3.47 <0.5 8 4 400 3.52 <10 1 0.3 10 1.08 1180 8 0.11 1 1220 4 1.78 <2 4 123 <0.01 <10 <10 57 <10 121CGH-06-094 219.46 222.50 EL06076643 100720 0.062 0.6 1.76 4 <10 160 <0.5 <2 2.89 <0.5 11 1 676 3.53 <10 <1 0.35 10 1.14 1160 7 0.13 2 1260 6 2.04 <2 4 121 <0.01 <10 <10 58 <10 127CGH-06-094 222.50 225.55 EL06076643 100721 0.159 0.8 1.64 6 <10 100 <0.5 <2 3.13 <0.5 13 4 942 3.48 <10 <1 0.31 10 1.11 1205 13 0.12 1 1230 3 1.96 2 4 121 <0.01 <10 <10 60 <10 115CGH-06-094 Standard 6 EL06076643 100722 0.263 0.6 1.02 12 <10 70 <0.5 <2 2.86 <0.5 15 403 3230 5.67 <10 1 0.33 <10 1.13 762 9 0.06 319 1160 16 2.98 8 8 187 <0.01 <10 <10 58 <10 115CGH-06-094 225.55 228.60 EL06076643 100723 0.083 1.0 1.74 12 <10 20 <0.5 <2 5.34 <0.5 17 2 1240 4.38 <10 <1 0.3 10 1.31 1675 20 0.1 2 1530 4 3.25 <2 6 214 <0.01 <10 <10 67 <10 112CGH-06-094 228.60 231.65 EL06076643 100724 0.335 2.1 1.76 7 <10 40 <0.5 <2 4.15 0.8 13 1 1770 4.26 <10 <1 0.32 10 1.19 1310 19 0.12 2 1530 4 3.13 <2 6 161 <0.01 <10 <10 73 <10 149CGH-06-094 231.65 234.70 EL06076643 100725 0.257 1.1 1.27 10 <10 30 0.5 <2 4.23 <0.5 9 3 1080 3.77 <10 <1 0.33 <10 1.12 1390 8 0.12 2 1430 3 2.22 <2 5 213 <0.01 <10 <10 59 <10 117CGH-06-094 234.70 237.74 EL06076643 100726 0.048 0.6 0.8 10 <10 100 0.5 <2 4.08 0.6 10 1 374 2.99 <10 <1 0.34 <10 1.16 1475 8 0.12 1 1180 3 1.37 <2 4 246 <0.01 <10 <10 39 <10 148CGH-06-094 237.74 240.79 EL06076643 100727 0.047 0.4 0.81 11 10 220 <0.5 <2 3.11 <0.5 12 1 349 3.14 <10 <1 0.34 <10 0.96 940 10 0.12 2 1280 3 1.86 <2 4 139 <0.01 <10 <10 38 <10 80CGH-06-094 240.79 243.84 EL06076643 100728 0.112 0.4 0.75 33 <10 60 <0.5 <2 4.4 <0.5 10 4 556 2.55 <10 <1 0.31 <10 0.99 906 22 0.12 2 1290 2 1.69 8 4 221 <0.01 <10 <10 35 <10 64CGH-06-094 243.84 246.89 EL06076643 100729 0.092 0.6 0.78 58 <10 40 <0.5 <2 6.29 <0.5 10 1 565 2.86 <10 <1 0.32 <10 1.05 1360 14 0.11 2 1350 4 2.12 4 6 339 <0.01 <10 <10 43 <10 87CGH-06-094 246.89 249.94 EL06076643 100730 0.104 0.6 0.71 26 <10 20 <0.5 <2 4.87 1.7 12 <1 147 3.93 <10 <1 0.34 <10 0.82 1240 17 0.1 2 1450 5 4.07 <2 4 182 <0.01 <10 <10 23 <10 239CGH-06-094 249.94 252.98 EL06076643 100731 0.065 0.4 1.06 6 <10 30 <0.5 <2 3.81 <0.5 15 4 185 3.72 <10 1 0.3 <10 1.18 1005 3 0.1 2 1460 6 3.59 2 4 211 <0.01 <10 <10 50 <10 116CGH-06-094 252.98 256.03 EL06076643 100732 0.153 0.6 1.35 <2 <10 60 <0.5 <2 3.61 0.6 12 1 264 3.47 <10 1 0.28 <10 1.3 1085 13 0.12 2 1590 5 2.68 2 5 175 <0.01 <10 <10 70 <10 140CGH-06-094 252.98 256.03 EL06076643 100733 0.154 0.6 1.4 7 <10 40 <0.5 <2 3.6 0.8 12 1 273 3.52 <10 <1 0.29 <10 1.33 1090 15 0.12 2 1630 4 2.71 <2 5 175 <0.01 <10 <10 74 <10 156CGH-06-094 256.03 259.08 EL06076643 100734 0.232 0.7 2.02 2 <10 200 <0.5 <2 3.36 <0.5 11 5 541 3.05 <10 <1 0.26 10 1.46 1070 11 0.13 3 1800 4 1.82 <2 7 145 <0.01 <10 <10 95 <10 90CGH-06-094 259.08 262.13 EL06076643 100735 0.172 0.8 1.64 5 <10 220 <0.5 <2 4.39 <0.5 12 4 520 2.87 <10 <1 0.24 <10 1.19 1195 20 0.11 4 1440 6 1.86 16 6 145 <0.01 <10 <10 74 <10 94CGH-06-094 262.13 265.18 EL06076643 100736 0.638 1.1 1.66 8 <10 200 <0.5 <2 3.85 0.9 20 2 1110 2.99 <10 <1 0.25 10 1.22 1060 24 0.12 3 1650 5 2.09 6 6 138 <0.01 <10 <10 75 <10 119CGH-06-094 265.18 268.22 EL06076643 100737 0.386 1.3 1.46 3 <10 50 <0.5 <2 5.27 <0.5 13 5 1140 2.71 <10 1 0.33 <10 1.05 1335 30 0.09 4 1700 4 1.92 10 5 172 <0.01 <10 <10 66 <10 89CGH-06-094 268.22 271.27 EL06076643 100738 0.505 2.0 1.77 12 <10 30 <0.5 <2 4.66 <0.5 13 6 1510 3.65 <10 <1 0.31 <10 1.09 1440 47 0.07 6 1580 6 2.96 4 5 134 <0.01 <10 <10 56 <10 79CGH-06-094 271.27 274.32 EL06076643 100739 0.297 1.3 1.43 15 <10 40 0.5 2 3.7 <0.5 6 4 1470 3.95 <10 2 0.33 <10 0.97 1180 8 0.07 5 1350 16 3.33 3 4 130 <0.01 <10 <10 47 <10 82CGH-06-094 274.32 277.37 EL06076643 100740 0.083 0.8 1.72 3 <10 100 <0.5 <2 3.26 0.5 5 1 251 3.99 <10 <1 0.3 <10 1.1 1320 4 0.09 3 1130 6 2.87 <2 4 122 <0.01 <10 <10 50 <10 132CGH-06-094 277.37 280.42 EL06076643 100741 0.124 2.9 1.35 14 10 30 0.5 <2 4.4 0.8 7 5 488 3.92 <10 2 0.35 <10 0.73 1190 6 0.08 1 1180 4 3.34 15 4 166 <0.01 <10 <10 35 <10 121CGH-06-094 280.42 283.46 EL06076643 100742 0.052 0.4 1.56 4 <10 70 <0.5 <2 3.09 <0.5 7 2 212 3.71 <10 <1 0.24 <10 1.07 1070 2 0.09 1 1160 6 2.76 <2 4 115 <0.01 <10 <10 50 <10 105CGH-06-094 283.46 286.51 EL06076643 100743 0.067 0.5 1.59 <2 <10 40 <0.5 <2 2.94 0.5 10 2 345 3.48 <10 2 0.27 <10 1.1 946 3 0.08 4 1160 4 2.5 <2 3 122 <0.01 <10 <10 57 <10 122CGH-06-094 BLANK EL06076643 100744 0.009 0.5 0.93 17 10 220 0.7 <2 3.35 1.5 17 4 77 4.27 <10 <1 0.34 10 0.57 1840 <1 0.12 16 1630 18 0.84 4 12 134 <0.01 <10 <10 56 <10 221CGH-06-094 286.51 289.56 EL06076643 100745 0.276 1.3 1.31 13 <10 20 <0.5 <2 5.09 1.1 10 4 1430 4.28 <10 2 0.28 <10 0.84 1420 14 0.07 8 1210 7 3.55 <2 3 192 <0.01 <10 <10 45 <10 209CGH-06-094 289.56 292.61 EL06076643 100746 0.249 0.8 1.02 29 <10 20 <0.5 <2 5.6 <0.5 6 1 402 3.32 <10 1 0.3 <10 0.58 1380 10 0.06 5 1150 4 2.83 <2 3 205 <0.01 <10 <10 21 <10 65CGH-06-094 292.61 295.66 EL06076643 100747 0.055 0.3 1.62 8 <10 50 <0.5 <2 2.66 <0.5 8 3 225 3.47 <10 <1 0.27 <10 1.13 1140 1 0.07 3 1130 <2 2.24 <2 3 106 <0.01 <10 <10 48 <10 113CGH-06-096 36.50 39.62 EL06076643 96737 0.016 0.4 2.15 <2 10 160 <0.5 <2 3.95 0.5 12 2 126 4.58 <10 1 0.32 10 1.52 2480 2 0.04 1 1600 8 1.53 10 5 120 0.01 <10 <10 75 <10 170CGH-06-096 39.62 42.67 EL06076643 96738 0.008 <0.2 1.65 <2 <10 650 <0.5 <2 3.61 <0.5 8 2 16 3.46 <10 1 0.23 10 1.21 1950 <1 0.04 2 1300 3 0.08 2 5 101 0.01 <10 <10 77 <10 128CGH-06-096 42.67 45.72 EL06076643 96739 0.006 <0.2 2.05 2 <10 550 <0.5 <2 3.34 0.6 13 3 123 4.34 10 <1 0.22 10 1.55 2070 5 0.06 4 1500 5 0.66 9 7 107 0.01 <10 <10 99 <10 187CGH-06-096 45.72 48.77 EL06076643 96740 0.013 0.3 2.05 7 10 430 <0.5 <2 4.11 0.5 12 3 131 4.06 10 <1 0.3 10 1.38 2460 2 0.05 4 1430 5 0.82 5 7 131 <0.01 <10 <10 86 <10 181CGH-06-096 48.77 51.82 EL06076643 96741 0.016 1.0 2.06 11 10 200 <0.5 <2 3.96 0.5 13 1 249 4.64 10 1 0.34 10 1.42 2410 3 0.05 2 1480 15 1.92 10 6 124 <0.01 <10 <10 65 <10 192CGH-06-096 48.77 51.82 EL06076643 96742 0.017 0.9 2.03 10 10 150 <0.5 <2 4.02 0.6 13 1 252 4.63 10 <1 0.33 10 1.43 2420 3 0.05 2 1480 15 1.89 9 6 126 <0.01 <10 <10 64 <10 189CGH-06-096 51.82 54.86 EL06076643 96743 0.241 4.0 1.37 27 <10 40 <0.5 <2 3.73 0.6 13 3 577 4.63 <10 1 0.32 10 0.86 1965 6 0.04 2 1340 11 3.06 5 4 119 <0.01 <10 <10 43 <10 143CGH-06-096 54.86 57.91 EL06076643 96744 0.053 1.0 2.1 10 10 180 <0.5 2 3.43 1.2 14 1 573 4.56 10 <1 0.34 10 1.45 2230 30 0.06 1 1600 4 1.76 2 6 106 <0.01 <10 <10 69 <10 209CGH-06-096 57.91 60.96 EL06076643 96745 0.038 0.2 2.1 <2 10 220 <0.5 <2 2.67 0.5 13 2 408 4.32 10 <1 0.18 10 1.46 1235 3 0.15 1 1660 3 0.53 <2 8 113 0.02 <10 <10 99 <10 99CGH-06-096 60.96 64.01 EL06076643 96746 0.049 0.6 2.06 <2 <10 330 <0.5 <2 3.02 5.4 13 4 522 3.97 10 1 0.18 10 1.53 1775 5 0.11 2 1540 3 0.76 3 7 119 0.01 <10 <10 86 <10 659CGH-06-096 64.01 67.06 EL06076643 96747 0.122 0.5 2.03 <2 <10 190 <0.5 <2 3.01 5.7 12 1 714 4.28 <10 1 0.23 10 1.38 1700 9 0.11 1 1600 3 0.5 2 7 112 0.01 <10 <10 96 <10 749CGH-06-096 67.06 70.10 EL06076643 96748 0.256 1.3 1.87 10 10 210 <0.5 <2 4.02 <0.5 13 1 1155 4.52 10 <1 0.25 10 1.27 1870 10 0.1 2 1590 6 0.82 <2 7 136 0.01 <10 <10 93 <10 150CGH-06-096 70.10 73.15 EL06076643 96749 0.153 1.4 1.85 25 10 170 <0.5 <2 4.53 <0.5 11 3 1060 4.5 10 <1 0.3 10 1.07 2160 7 0.06 3 1320 4 1.63 3 5 143 <0.01 <10 <10 65 <10 125CGH-06-096 73.15 76.20 EL06076643 96750 0.142 2.9 1.59 13 <10 130 <0.5 <2 3.92 1.2 10 1 764 3.58 <10 1 0.31 10 0.91 1840 3 0.06 <1 1290 3 1.72 2 4 139 <0.01 <10 <10 40 <10 246CGH-06-096 76.20 79.25 EL06076643 96751 0.205 1.6 1.81 3 10 300 <0.5 <2 3.66 1.4 12 1 1020 4.05 10 <1 0.37 10 1.16 1920 6 0.07 1 1460 5 1.56 <2 5 139 <0.01 <10 <10 62 <10 281CGH-06-096 79.25 82.30 EL06076643 96752 0.179 1.3 1.87 2 10 320 <0.5 <2 3.06 <0.5 10 4 1225 4.07 <10 1 0.36 10 1.29 1445 4 0.09 3 1340 5 1.08 2 5 129 <0.01 <10 <10 77 <10 110CGH-06-096 Standard 6 EL06076643 96753 0.280 0.5 1.04 10 10 60 <0.5 <2 2.97 <0.5 15 409 3230 6.05 <10 2 0.34 10 1.17 792 10 0.06 335 1190 15 3.26 9 8 196 <0.01 <10 <10 56 <10 123CGH-06-096 82.30 85.34 EL06076643 96754 0.100 0.7 1.89 <2 10 350 <0.5 <2 3.23 <0.5 8 2 767 3.86 10 <1 0.36 10 1.35 1345 2 0.09 2 1350 3 0.79 3 5 134 <0.01 <10 <10 79 <10 80CGH-06-096 85.34 88.39 EL06076643 96755 0.177 1.2 1.87 8 10 100 <0.5 <2 3.26 <0.5 9 2 1210 4.34 10 1 0.37 10 1.28 1410 6 0.08 2 1390 2 1.66 <2 5 128 <0.01 <10 <10 71 <10 81CGH-06-096 88.39 91.44 EL06076643 96756 0.182 1.2 1.41 13 10 290 <0.5 <2 3.72 <0.5 9 4 1080 3.46 <10 <1 0.38 10 1.17 1395 2 0.1 3 1290 4 1.07 <2 5 164 <0.01 <10 <10 60 <10 66
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-096 91.44 94.49 EL06076643 96757 0.147 1.6 0.95 <2 10 150 <0.5 <2 3.84 <0.5 9 1 1185 3.14 <10 <1 0.35 10 0.73 1335 17 0.1 2 910 4 1.22 2 4 179 <0.01 <10 <10 36 <10 57CGH-06-096 94.49 97.54 EL06076643 96758 0.225 2.7 0.74 29 10 120 <0.5 <2 3.65 <0.5 7 2 1445 2.72 <10 <1 0.36 10 0.68 1925 5 0.08 1 900 4 1.34 4 3 153 <0.01 <10 <10 25 <10 52CGH-06-096 97.54 100.58 EL06076643 96759 0.327 2.3 1.34 11 10 340 <0.5 <2 3.35 <0.5 7 4 1720 3.36 <10 2 0.35 10 0.98 1570 21 0.09 1 1080 3 1.09 2 4 160 <0.01 <10 <10 56 <10 75CGH-06-096 100.58 103.63 EL06076643 96760 0.070 1.4 1.24 11 10 100 <0.5 <2 4.02 <0.5 11 1 1040 3.42 <10 <1 0.38 10 0.95 1905 5 0.08 1 990 3 1.76 2 3 180 <0.01 <10 <10 34 <10 84CGH-06-096 103.63 106.68 EL06076643 96761 0.061 1.0 1.2 40 10 70 <0.5 <2 3.73 <0.5 7 2 318 3.58 <10 1 0.37 10 0.81 1920 <1 0.07 <1 990 5 1.99 2 3 161 <0.01 <10 <10 29 <10 70CGH-06-096 106.68 109.73 EL06076643 96762 0.070 1.2 1.4 24 <10 170 <0.5 2 3.71 <0.5 7 6 612 3.49 <10 <1 0.36 10 0.8 2080 4 0.06 1 1050 4 1.78 <2 3 160 <0.01 <10 <10 29 <10 77CGH-06-096 109.73 112.78 EL06076643 96763 0.137 1.9 1.4 23 <10 80 <0.5 <2 3.75 <0.5 6 2 903 3.46 <10 1 0.37 10 0.88 1815 4 0.07 2 990 4 1.58 <2 3 169 <0.01 <10 <10 42 <10 70CGH-06-096 109.73 112.78 EL06076643 96764 0.151 2.2 1.42 30 <10 70 <0.5 <2 3.75 <0.5 7 2 922 3.58 <10 1 0.38 10 0.86 1815 4 0.07 1 990 3 1.78 <2 3 169 <0.01 <10 <10 41 <10 71CGH-06-096 112.78 115.82 EL06076643 96765 0.159 2.8 1.39 45 <10 50 <0.5 <2 4.06 0.5 7 9 1155 3.83 <10 <1 0.35 10 0.84 2290 63 0.05 2 1010 10 2.75 <2 3 147 <0.01 <10 <10 31 <10 107CGH-06-096 115.82 118.87 EL06076643 96766 0.121 0.9 1.56 11 <10 100 <0.5 <2 3.7 1.5 9 2 466 3.86 <10 <1 0.37 10 1 1830 6 0.08 3 1100 6 2.23 <2 3 172 <0.01 <10 <10 44 <10 141CGH-06-096 118.87 122.08 EL06076643 96767 0.142 1.0 1.58 10 <10 170 <0.5 <2 3.62 0.5 9 2 733 3.57 <10 <1 0.38 10 0.99 1655 23 0.08 2 1110 5 1.82 <2 3 170 <0.01 <10 <10 46 <10 105CGH-06-096 122.08 122.90 EL06076643 96768 0.007 0.2 3.61 9 <10 90 0.7 <2 5.34 <0.5 25 181 66 5.55 10 <1 0.24 10 3.91 2050 2 0.11 125 1140 3 0.28 <2 15 224 0.01 <10 <10 109 <10 151CGH-06-096 122.90 124.97 EL06076643 96769 0.048 0.8 1.82 10 <10 110 0.5 <2 3.24 1.7 9 3 329 4.47 <10 <1 0.38 10 1.19 2240 4 0.07 2 1190 7 3.16 <2 3 159 <0.01 <10 <10 40 <10 239CGH-06-096 124.97 128.02 EL06076643 96770 0.139 0.9 1.75 4 <10 130 0.5 <2 3.22 <0.5 10 2 772 3.79 <10 <1 0.37 10 1.08 1680 7 0.08 1 1150 2 2.19 <2 3 172 <0.01 <10 <10 40 <10 117CGH-06-096 128.02 131.06 EL06076643 96771 0.196 1.5 1.72 4 <10 150 <0.5 <2 3.7 <0.5 9 8 1390 3.87 <10 <1 0.36 10 1.07 1425 6 0.09 1 1180 5 1.26 <2 4 202 <0.01 <10 <10 59 <10 91CGH-06-096 131.06 134.11 EL06076643 96772 0.139 0.8 1.64 2 <10 120 <0.5 <2 3.37 <0.5 10 3 1025 3.75 <10 <1 0.34 10 1.07 1280 7 0.09 2 1140 4 1.47 <2 3 207 <0.01 <10 <10 56 <10 88CGH-06-096 134.11 137.16 EL06078319 96773 0.104 1.0 1.59 14 <10 60 <0.5 <2 3.38 0.5 11 3 465 4.2 <10 1 0.27 <10 1.01 2060 13 0.04 2 990 6 2.78 <2 3 137 <0.01 <10 <10 35 <10 161CGH-06-096 137.16 140.21 EL06078319 96774 0.030 0.3 1.8 4 <10 200 <0.5 <2 3.02 <0.5 10 4 352 3.65 <10 <1 0.29 <10 1.19 2030 10 0.05 1 1100 3 1.33 <2 4 120 <0.01 <10 <10 43 10 125CGH-06-096 BLANK EL06078319 96775 0.023 0.7 0.73 32 <10 110 0.6 <2 4.62 4 18 4 152 4.42 <10 1 0.33 <10 0.83 2610 1 0.11 11 1460 80 1.29 3 9 165 <0.01 <10 <10 47 <10 512CGH-06-096 140.21 141.40 EL06078319 96776 0.018 0.3 1.72 5 <10 250 <0.5 <2 2.93 <0.5 9 3 354 3.4 <10 1 0.31 <10 1.08 2220 7 0.05 <1 1070 5 1.18 2 3 144 <0.01 <10 <10 41 <10 141CGH-06-096 141.40 143.26 EL06078319 96777 0.140 1.7 2.79 9 <10 50 <0.5 <2 3.13 <0.5 18 13 2050 6.48 10 <1 0.14 <10 2.4 3680 6 0.05 11 1340 7 3.99 <2 7 134 <0.01 <10 <10 83 <10 312CGH-06-096 143.26 146.30 EL06078319 96778 0.235 1.8 2.08 3 <10 160 <0.5 <2 3.73 <0.5 14 13 2140 3.82 <10 1 0.28 10 1.6 2160 5 0.08 9 1630 5 1.82 3 7 318 <0.01 <10 <10 94 <10 165CGH-06-096 146.30 149.35 EL06078319 96779 0.501 1.8 1.93 2 <10 260 <0.5 <2 2.35 0.9 16 40 2620 3.87 10 1 0.18 10 1.52 1120 16 0.09 21 1640 7 1.32 <2 8 460 0.01 <10 <10 119 <10 180CGH-06-096 149.35 152.40 EL06078319 96780 0.058 0.6 1.85 5 <10 250 <0.5 <2 2.39 <0.5 10 5 542 3.67 10 <1 0.23 <10 1.06 1420 23 0.12 1 1110 4 1.02 <2 5 374 0.01 <10 <10 66 <10 152CGH-06-096 152.40 155.45 EL06078319 96781 0.251 1.2 1.58 3 <10 280 <0.5 <2 2.51 0.5 10 4 1625 3.63 10 <1 0.19 10 1.2 1250 102 0.08 1 1230 5 1.04 <2 5 1140 <0.01 <10 <10 81 <10 149CGH-06-096 155.45 158.50 EL06078319 96782 0.235 1.2 1.8 4 <10 230 <0.5 <2 3.18 <0.5 9 3 1420 3.97 10 <1 0.31 <10 1.24 1680 10 0.08 1 1320 5 1.4 <2 5 168 <0.01 <10 <10 75 <10 125CGH-06-096 158.50 161.54 EL06078319 96783 0.107 0.9 1.37 14 <10 170 <0.5 <2 2.98 <0.5 8 3 759 3.85 <10 <1 0.23 <10 0.96 1490 10 0.07 <1 1250 4 1.64 <2 5 182 <0.01 <10 <10 65 <10 102CGH-06-096 161.54 164.59 EL06078319 96784 0.133 0.5 1.44 5 <10 180 <0.5 <2 2.83 <0.5 9 5 758 3.98 <10 <1 0.24 <10 0.95 992 5 0.09 <1 1160 4 0.83 <2 6 147 <0.01 <10 <10 84 <10 107CGH-06-096 164.59 167.64 EL06078319 96785 0.236 0.9 1.85 <2 <10 200 <0.5 <2 2.46 <0.5 11 3 1105 4.57 10 <1 0.24 <10 1.2 1050 4 0.11 1 1330 3 1.4 <2 7 142 <0.01 <10 <10 91 <10 120CGH-06-096 Standard 5 EL06078319 96786 0.139 0.3 1.69 7 <10 170 <0.5 <2 1.31 <0.5 23 1055 1575 4.49 <10 1 0.23 <10 0.82 613 15 0.12 868 640 6 0.95 <2 5 75 0.11 <10 <10 64 <10 55CGH-06-096 167.64 170.69 EL06078319 96787 0.095 1.4 1.72 11 <10 50 <0.5 <2 3.91 <0.5 14 4 1420 4.27 10 <1 0.29 <10 1.1 1540 5 0.08 2 1300 5 2.06 <2 5 185 <0.01 <10 <10 68 <10 108CGH-06-096 170.69 173.74 EL06078319 96788 0.079 1.0 1.56 4 <10 170 <0.5 <2 3.02 0.5 10 3 922 2.96 <10 1 0.21 <10 1.25 1010 4 0.08 <1 1390 5 1.24 <2 6 154 0.01 <10 <10 59 <10 117CGH-06-096 173.74 176.78 EL06078319 96789 0.189 1.0 1.94 4 <10 190 <0.5 <2 2.38 0.8 12 4 1425 3.12 10 1 0.22 <10 1.52 760 2 0.11 1 1490 5 1.31 2 7 141 0.01 <10 <10 74 <10 121CGH-06-096 176.78 179.83 EL06078319 96790 0.265 1.2 1.95 6 <10 130 <0.5 <2 2.79 <0.5 13 4 1510 5.46 10 <1 0.22 <10 1.36 1290 4 0.09 2 1480 4 1.82 <2 7 121 0.01 <10 <10 110 <10 128CGH-06-096 179.83 182.88 EL06078319 96791 0.098 0.7 1.86 3 <10 180 <0.5 <2 3.25 0.6 10 4 809 4.12 <10 <1 0.23 <10 1.31 1210 8 0.08 2 1410 5 1.6 <2 7 140 <0.01 <10 <10 86 <10 122CGH-06-096 182.88 185.97 EL06078319 96792 0.138 0.7 2.03 5 <10 390 <0.5 <2 4.11 <0.5 13 22 797 3.9 10 <1 0.16 <10 1.45 1920 8 0.07 25 2110 4 0.79 <2 8 135 <0.01 <10 <10 139 <10 160CGH-06-096 185.97 188.98 EL06078319 96793 0.029 0.2 2.17 14 <10 70 <0.5 <2 3.34 <0.5 8 4 91 4.91 10 <1 0.28 <10 1.22 1570 1 0.07 2 990 5 1.56 <2 4 159 <0.01 <10 <10 53 <10 139CGH-06-096 188.98 191.47 EL06078319 96794 0.328 1.7 2.22 17 <10 20 0.6 <2 4.33 <0.5 23 16 1420 5.64 <10 <1 0.18 <10 1.38 1940 6 0.06 20 1660 9 3.47 <2 5 179 <0.01 <10 <10 86 <10 174CGH-06-096 191.47 195.07 EL06078319 96795 0.126 <0.2 1.6 97 <10 290 0.5 <2 4.65 <0.5 7 4 64 3.37 <10 <1 0.3 <10 0.74 1750 <1 0.07 1 1120 5 0.87 <2 4 185 <0.01 <10 <10 37 <10 105CGH-06-096 195.07 198.12 EL06078319 96796 0.070 0.6 1.56 43 <10 50 <0.5 <2 4.73 2.4 9 2 304 3.66 <10 <1 0.23 <10 0.93 1810 3 0.08 1 1160 6 1.43 <2 4 228 <0.01 <10 <10 42 <10 301CGH-06-096 195.07 198.12 EL06078319 96797 0.082 0.6 1.59 55 <10 40 <0.5 <2 4.73 1.8 9 4 325 3.77 <10 <1 0.28 <10 0.9 1780 9 0.07 1 1110 7 1.64 2 4 234 <0.01 <10 <10 41 <10 239CGH-06-096 198.12 201.17 EL06078319 96798 0.146 0.8 1.84 2 <10 330 <0.5 <2 3.58 <0.5 16 4 2240 3.46 <10 1 0.32 <10 1.22 2010 1 0.07 1 1270 4 1.08 <2 5 160 <0.01 <10 <10 54 <10 144CGH-06-096 201.17 204.22 EL06078319 96799 0.064 0.3 1.82 3 <10 360 <0.5 <2 4.15 <0.5 13 4 1185 3.49 <10 <1 0.31 <10 1.1 1870 1 0.09 1 1270 4 0.81 <2 5 188 <0.01 <10 <10 58 <10 130CGH-06-096 204.22 207.26 EL06078319 96800 0.031 0.2 1.55 7 <10 370 <0.5 <2 4.48 <0.5 8 3 111 3.21 <10 <1 0.23 <10 0.9 1730 <1 0.09 1 1090 7 0.78 <2 4 235 <0.01 <10 <10 40 <10 121CGH-06-096 207.26 210.31 EL06078319 96801 0.023 0.2 1.54 8 <10 560 <0.5 <2 4.63 <0.5 8 5 248 3.06 <10 <1 0.3 10 0.76 1750 1 0.08 1 1030 4 0.59 <2 3 208 <0.01 <10 <10 37 <10 87CGH-06-096 210.31 213.36 EL06078319 96802 0.035 0.7 1.58 15 <10 220 <0.5 <2 4.25 <0.5 9 1 330 3.75 <10 <1 0.27 <10 0.86 1930 1 0.08 2 1090 5 1.39 <2 3 185 <0.01 <10 <10 38 <10 115CGH-06-096 213.36 216.41 EL06078319 96803 0.014 <0.2 1.46 2 <10 710 <0.5 <2 3.75 <0.5 9 4 194 3.19 10 <1 0.29 10 0.85 1290 <1 0.1 <1 1100 3 0.48 <2 4 190 <0.01 <10 <10 57 <10 79CGH-06-096 216.41 219.46 EL06078319 96804 0.030 0.2 1.72 5 <10 420 0.5 <2 3.7 <0.5 7 3 263 3.45 10 1 0.32 10 0.91 1520 <1 0.1 <1 1170 3 0.44 <2 4 182 <0.01 <10 <10 55 <10 100CGH-06-096 219.46 222.50 EL06078319 96805 0.042 0.4 1.53 25 <10 180 <0.5 <2 3.76 <0.5 9 5 285 3.52 <10 1 0.33 <10 0.79 1560 1 0.09 1 1070 5 1.53 <2 3 172 <0.01 <10 <10 37 <10 108CGH-06-096 222.50 225.55 EL06078319 96806 0.050 0.7 1.64 37 <10 80 <0.5 <2 3.43 <0.5 9 4 207 4.45 <10 1 0.34 <10 0.83 1640 1 0.08 1 1080 9 2.69 2 3 156 <0.01 <10 <10 36 <10 138CGH-06-096 225.55 228.60 EL06078319 96807 0.067 1.2 1.89 29 <10 130 0.5 <2 3.49 <0.5 11 9 353 4.31 <10 <1 0.33 10 0.97 1600 1 0.09 6 1220 8 1.85 <2 4 171 <0.01 <10 <10 44 <10 159CGH-06-096 Standard 2 EL06078319 96808 0.966 2.9 0.85 12 <10 70 <0.5 <2 1.58 <0.5 29 1565 >10000 10.65 <10 <1 0.41 <10 0.75 1040 28 0.03 1230 650 9 3.72 10 5 62 0.01 <10 <10 57 <10 89 1.18CGH-06-096 228.60 231.65 EL06078319 96809 0.026 0.8 1.88 17 <10 200 0.5 <2 3.65 0.9 14 44 206 4.26 10 <1 0.22 10 1.42 1485 <1 0.1 36 1190 7 1.47 <2 6 188 <0.01 <10 <10 58 <10 177CGH-06-096 231.65 234.70 EL06078319 96810 0.012 0.3 1.35 9 <10 510 <0.5 <2 3.62 <0.5 7 3 116 3 <10 <1 0.26 10 0.72 1480 1 0.1 1 1160 4 0.6 <2 4 200 <0.01 <10 <10 47 <10 83CGH-06-096 234.70 237.74 EL06078319 96811 0.042 0.4 1.55 16 <10 230 0.5 <2 3.62 <0.5 9 1 227 3.2 <10 <1 0.31 10 0.82 1540 5 0.1 2 1150 6 1.07 <2 3 205 <0.01 <10 <10 42 <10 99CGH-06-096 237.74 240.79 EL06078319 96812 0.065 0.2 2.14 11 10 570 0.5 <2 5.08 <0.5 13 2 127 4.32 <10 <1 0.31 10 1.3 1985 3 0.13 1 1810 6 0.37 <2 7 270 <0.01 <10 <10 95 <10 130CGH-06-096 240.79 243.84 EL06078319 96813 0.009 0.2 1.9 10 <10 480 <0.5 <2 5.24 <0.5 11 2 96 4.13 10 <1 0.23 10 1.3 2060 2 0.11 1 1860 7 0.37 <2 7 254 <0.01 <10 <10 83 <10 122CGH-06-096 243.84 246.89 EL06078319 96814 0.028 0.5 1.88 22 10 370 0.5 <2 4.96 <0.5 10 1 141 3.61 <10 <1 0.34 10 1.03 2050 5 0.12 2 1610 7 0.94 <2 5 283 <0.01 <10 <10 56 <10 120CGH-06-096 246.89 249.94 EL06078319 96815 0.025 0.4 1.54 10 <10 170 <0.5 <2 4.96 <0.5 14 2 217 4.01 <10 <1 0.21 10 1.04 2210 7 0.09 2 1150 7 1.45 <2 7 196 <0.01 10 <10 65 <10 120CGH-06-096 249.94 252.98 EL06078319 96816 0.022 0.3 1.83 12 <10 110 <0.5 <2 5.16 <0.5 12 4 148 3.82 <10 <1 0.3 10 1.16 2420 3 0.09 3 1550 7 1.2 <2 6 220 <0.01 <10 <10 62 <10 120CGH-06-096 252.98 256.03 EL06078319 96817 0.023 0.2 1.89 12 10 840 0.5 <2 4.19 <0.5 10 3 173 3.35 <10 <1 0.35 10 1.03 1985 4 0.09 1 1290 5 0.59 <2 4 235 <0.01 <10 <10 49 <10 105CGH-06-097 25.35 27.43 EL06078319 96818 0.048 0.4 0.59 31 10 90 0.6 <2 3.54 0.5 19 2 1295 4.75 <10 <1 0.34 <10 1.32 1110 14 0.01 2 1580 4 1.45 7 8 129 <0.01 <10 <10 39 <10 64CGH-06-097 25.35 27.43 EL06078319 96819 0.048 0.5 0.41 34 10 170 0.5 <2 3.84 <0.5 19 1 1220 4.67 <10 <1 0.26 <10 1.32 1110 14 0.01 1 1590 6 1.38 10 8 130 <0.01 <10 <10 35 <10 64CGH-06-097 27.43 30.48 EL06078319 96820 0.136 0.4 0.53 32 10 70 <0.5 <2 2.49 <0.5 19 2 2150 3.5 <10 <1 0.32 <10 0.82 792 25 0.01 2 1310 7 1.84 4 4 69 <0.01 <10 <10 20 <10 45CGH-06-097 30.48 33.53 EL06078319 96821 0.050 0.5 0.35 69 <10 70 <0.5 <2 2.79 0.5 20 2 871 4.21 <10 <1 0.24 <10 0.87 885 22 0.01 1 1350 8 2.8 5 3 67 <0.01 10 <10 17 <10 44CGH-06-097 33.53 36.58 EL06078319 96822 0.041 0.5 0.56 86 10 70 <0.5 <2 2.27 <0.5 16 2 872 3.97 <10 1 0.35 <10 0.74 914 19 0.01 2 1180 11 2.73 6 3 56 <0.01 <10 <10 16 <10 52CGH-06-097 36.58 39.62 EL06078319 96823 0.040 0.3 0.64 100 10 180 <0.5 <2 2.48 <0.5 11 1 813 3.37 <10 <1 0.37 10 0.78 1005 23 0.01 2 1220 7 1.26 5 4 68 <0.01 <10 <10 17 <10 56CGH-06-097 39.62 42.67 EL06078319 96824 0.048 0.4 0.64 93 10 330 <0.5 <2 3.32 <0.5 9 2 770 3.01 <10 <1 0.38 <10 0.99 1110 18 0.01 1 1200 7 1 7 4 77 <0.01 <10 <10 16 <10 45CGH-06-097 42.67 45.72 EL06078319 96825 0.060 0.4 0.62 119 10 150 <0.5 <2 3.77 <0.5 12 2 729 3.65 <10 <1 0.37 <10 1.05 1160 17 0.01 2 1080 11 2.17 5 3 95 <0.01 <10 <10 16 <10 51CGH-06-097 45.72 48.77 EL06078319 96826 0.040 0.5 0.6 84 10 80 <0.5 <2 2.92 <0.5 14 3 463 3.42 <10 <1 0.33 <10 1.01 791 20 0.02 4 1280 7 2.39 5 3 95 <0.01 <10 <10 22 <10 63CGH-06-097 48.77 51.82 EL06078319 96827 0.058 2.5 0.57 115 <10 20 <0.5 <2 2.12 0.7 13 4 484 4.91 <10 <1 0.31 <10 0.42 546 13 0.02 4 1210 14 5.21 26 2 64 <0.01 <10 <10 10 10 40CGH-06-097 51.82 54.86 EL06078319 96828 0.082 2.5 0.64 94 10 30 <0.5 <2 3.25 0.7 16 2 577 4.37 <10 <1 0.37 <10 0.79 1125 20 0.02 3 1400 10 4.02 25 3 74 <0.01 <10 <10 15 <10 53CGH-06-097 54.86 57.91 EL06078319 96829 0.160 1.6 0.66 93 <10 20 <0.5 <2 3.7 1 15 3 396 5.78 <10 1 0.37 <10 0.84 1225 15 0.03 2 1200 14 6.02 12 3 93 <0.01 <10 <10 14 <10 160CGH-06-097 Standard 6 EL06078319 96830 0.263 0.7 0.96 17 <10 70 <0.5 2 2.86 <0.5 16 414 3380 6.04 <10 2 0.32 <10 1.12 793 10 0.06 332 1210 16 3.4 8 8 188 <0.01 10 <10 57 <10 128CGH-06-097 57.91 60.96 EL06078319 96831 0.103 0.7 0.6 32 10 30 <0.5 <2 3.47 <0.5 11 3 243 3.75 <10 <1 0.25 <10 0.72 884 3 0.05 2 1180 8 3.23 4 5 182 <0.01 <10 <10 27 <10 50CGH-06-097 60.96 64.01 EL06078319 96832 0.086 0.9 0.33 46 10 140 <0.5 <2 3.39 <0.5 11 2 202 3.35 <10 <1 0.19 <10 0.72 904 3 0.06 2 1210 8 2.59 <2 4 145 <0.01 <10 <10 21 <10 47CGH-06-097 64.01 67.06 EL06078319 96833 0.086 0.6 0.46 48 10 70 0.5 <2 3.65 1.2 11 2 93 3.66 <10 <1 0.26 <10 0.95 1470 2 0.06 4 1150 13 2.95 <2 4 159 <0.01 <10 <10 20 <10 214CGH-06-097 67.06 70.10 EL06078319 96834 0.008 0.2 0.59 8 <10 40 <0.5 <2 2.5 0.5 9 3 15 3.17 <10 <1 0.19 <10 0.75 493 2 0.09 2 1360 6 3.52 3 3 110 <0.01 <10 <10 35 <10 64CGH-06-097 70.10 72.30 EL06078319 96835 0.042 0.2 0.49 9 <10 40 <0.5 <2 2.76 <0.5 9 2 285 3.17 <10 <1 0.17 <10 0.89 550 2 0.08 3 1340 7 3.46 11 4 99 <0.01 <10 <10 29 <10 48CGH-06-097 72.30 73.75 EL06078319 96836 0.028 0.7 0.51 40 <10 80 <0.5 <2 3.4 1.5 14 6 143 3.64 <10 <1 0.12 <10 1.19 883 10 0.07 14 940 15 3.41 5 9 111 <0.01 <10 <10 42 <10 250CGH-06-097 73.75 76.20 EL06078319 96837 0.033 0.4 0.33 27 <10 40 <0.5 <2 2.66 0.6 19 8 174 5.17 <10 <1 0.1 <10 1.03 647 12 0.05 22 1140 11 5.67 15 6 107 <0.01 <10 <10 46 <10 93CGH-06-097 76.20 79.25 EL06078319 96838 0.029 0.2 0.31 16 <10 100 <0.5 <2 1.03 <0.5 10 43 270 1.7 <10 <1 0.15 <10 0.35 452 17 0.02 17 480 4 1.27 <2 3 26 <0.01 <10 <10 11 <10 13CGH-06-097 79.25 81.85 EL06078319 96839 0.085 0.6 0.35 14 <10 370 <0.5 <2 2.25 <0.5 9 23 1750 2.39 <10 <1 0.17 <10 0.72 845 21 0.03 26 320 5 0.88 2 4 62 <0.01 <10 <10 23 <10 49
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-097 81.85 85.34 EL06078319 96840 0.178 0.9 0.45 57 <10 10 <0.5 <2 3.27 <0.5 17 6 1070 5.96 <10 <1 0.22 <10 1.06 1300 4 0.07 11 1720 13 5.33 7 9 97 <0.01 <10 <10 37 <10 46CGH-06-097 81.85 85.34 EL06078319 96841 0.198 0.8 0.45 50 <10 10 <0.5 <2 3.32 <0.5 18 5 1080 5.97 <10 <1 0.22 <10 1.07 1325 3 0.07 10 1730 11 5.28 10 9 98 <0.01 <10 <10 37 <10 43CGH-06-097 85.34 88.39 EL06078319 96842 0.202 1.3 0.8 75 10 20 <0.5 <2 2.68 <0.5 17 15 566 5.9 <10 <1 0.39 <10 0.76 1330 2 0.07 4 1970 10 6.03 10 7 87 <0.01 <10 <10 34 <10 34CGH-06-097 88.39 91.44 EL06078319 96843 0.209 1.5 0.67 724 10 10 <0.5 2 2.47 0.8 17 3 156 7.84 <10 <1 0.36 <10 0.67 1210 2 0.06 8 1700 83 8.32 65 6 78 <0.01 10 <10 25 <10 177CGH-06-097 91.44 94.49 EL06078319 96844 0.138 0.9 0.5 293 10 10 <0.5 <2 2.88 0.9 19 2 260 5.35 <10 <1 0.26 <10 0.78 1450 2 0.1 5 2240 22 4.77 30 11 102 <0.01 10 <10 35 <10 172CGH-06-097 94.49 97.54 EL06078319 96845 0.125 0.5 0.81 33 10 20 <0.5 2 3.96 <0.5 20 11 222 6.11 <10 <1 0.31 <10 1.19 1520 2 0.08 5 2140 7 4.41 5 11 125 <0.01 <10 <10 70 <10 82CGH-06-097 97.54 100.58 EL06078319 96846 0.199 1.0 0.87 46 10 10 <0.5 <2 5.08 <0.5 19 5 195 6.5 <10 <1 0.41 <10 1.7 1980 2 0.09 6 1940 15 4.84 7 9 189 <0.01 <10 <10 66 <10 124CGH-06-097 100.58 103.63 EL06078319 96847 0.449 0.6 0.56 70 <10 10 <0.5 <2 3.27 <0.5 21 3 282 6.63 <10 <1 0.27 <10 1.2 1190 5 0.09 2 2080 9 5.89 10 7 136 <0.01 <10 <10 53 <10 53CGH-06-097 103.63 106.68 EL06078319 96848 0.198 0.9 0.82 81 10 10 <0.5 <2 3.71 <0.5 23 9 295 6 <10 <1 0.44 <10 1.2 2380 7 0.07 4 2020 7 5.67 4 8 107 <0.01 <10 <10 41 <10 59CGH-06-097 106.68 109.73 EL06078319 96849 0.279 0.6 0.96 21 10 20 <0.5 2 2.27 <0.5 21 1 643 5.57 <10 <1 0.4 <10 0.94 754 6 0.09 3 2110 10 4.58 6 7 120 <0.01 <10 <10 64 <10 76CGH-06-097 109.73 112.78 EL06078319 96850 0.201 0.8 0.52 31 <10 20 <0.5 <2 2.71 <0.5 16 1 483 5.11 <10 <1 0.24 <10 1.1 1125 3 0.09 2 1950 5 4.05 7 8 124 <0.01 <10 <10 48 <10 61CGH-06-097 112.78 115.82 EL06078319 96851 0.143 0.6 0.85 59 10 20 <0.5 <2 2.35 <0.5 18 14 346 4.62 <10 <1 0.42 <10 0.77 727 3 0.11 3 2030 5 4.04 3 7 131 <0.01 <10 <10 43 <10 43CGH-06-097 BLANK EL06078319 96852 0.011 0.7 2.66 63 10 120 0.5 <2 4.06 2.7 18 10 78 4.67 10 <1 0.22 10 1.16 1670 <1 0.19 10 1620 30 1.05 7 13 207 0.01 <10 <10 109 <10 391CGH-06-097 115.82 118.87 EL06078319 96853 0.128 0.5 0.49 57 <10 20 <0.5 <2 3.8 <0.5 17 1 222 5 <10 <1 0.26 <10 1.13 1435 3 0.09 2 1960 9 4.59 2 7 126 <0.01 <10 <10 46 <10 65CGH-06-097 118.87 121.92 EL06078319 96854 0.121 0.5 0.98 41 10 20 <0.5 2 2.99 <0.5 20 9 247 5.25 <10 <1 0.45 <10 0.85 1280 8 0.11 2 2230 9 4.49 3 9 107 <0.01 <10 <10 53 <10 38CGH-06-097 121.92 124.97 EL06078319 96855 0.136 0.6 0.82 11 10 10 <0.5 2 3.49 <0.5 23 1 275 7.42 <10 <1 0.4 <10 0.92 1115 4 0.09 3 2150 7 7.75 3 6 89 <0.01 <10 <10 27 <10 22CGH-06-097 124.97 128.02 EL06078319 96856 0.156 1.4 0.51 104 <10 30 <0.5 <2 3.14 <0.5 17 1 306 5.09 <10 <1 0.27 <10 1 1165 17 0.09 2 2130 7 5.07 23 6 83 <0.01 <10 <10 20 <10 30CGH-06-097 128.02 131.06 EL06078319 96857 0.172 0.5 0.85 28 10 10 <0.5 <2 3.91 <0.5 19 11 301 5.71 <10 <1 0.42 <10 1.16 1175 6 0.1 1 2030 8 5.4 4 8 117 <0.01 <10 <10 35 <10 41CGH-06-097 131.06 134.11 EL06078319 96858 0.095 0.5 0.93 15 10 20 <0.5 2 4.36 <0.5 19 2 142 5.88 <10 <1 0.35 <10 1.54 840 9 0.11 2 1870 10 6.15 9 9 129 <0.01 <10 <10 60 <10 39CGH-06-097 134.11 137.16 EL06078319 96859 0.070 0.2 1.3 3 10 20 <0.5 <2 3.91 <0.5 18 1 189 5.2 <10 <1 0.2 <10 1.9 659 4 0.14 1 2060 5 5.07 2 11 145 <0.01 <10 <10 85 <10 46CGH-06-097 137.16 140.21 EL06078319 96860 0.059 0.2 1.68 3 <10 30 <0.5 <2 3.22 <0.5 20 14 130 6.95 <10 1 0.39 <10 1.56 463 4 0.15 4 1990 7 7.58 <2 9 109 <0.01 <10 <10 91 <10 35CGH-06-097 140.21 143.26 EL06078319 96861 0.054 0.3 2.05 8 10 30 <0.5 <2 3.82 <0.5 22 2 203 6.09 <10 1 0.37 <10 1.96 684 6 0.17 5 2010 8 5.93 2 11 136 <0.01 <10 <10 118 <10 70CGH-06-097 143.26 146.30 EL06078319 96862 0.083 0.2 2.01 4 <10 40 <0.5 <2 3.31 <0.5 20 2 313 5.77 <10 1 0.23 <10 2.03 610 2 0.16 3 2140 8 5.3 2 9 108 <0.01 <10 <10 120 <10 74CGH-06-097 Standard 5 EL06078319 96863 0.120 0.4 1.64 7 <10 170 <0.5 2 1.32 <0.5 21 996 1485 4.4 <10 1 0.22 <10 0.79 581 14 0.13 816 620 <2 0.86 3 5 75 0.11 <10 <10 62 <10 58CGH-06-097 146.30 149.35 EL06078319 96864 0.070 0.3 2.03 23 10 30 <0.5 <2 3.24 <0.5 18 13 200 6.64 <10 1 0.44 <10 1.79 514 56 0.14 3 1980 8 6.66 5 8 112 <0.01 <10 <10 91 <10 53CGH-06-097 149.35 152.40 EL06078319 96865 0.093 0.3 1.69 8 10 30 <0.5 <2 3.33 <0.5 19 2 307 6.06 <10 1 0.34 <10 1.78 644 7 0.14 3 1980 5 5.68 <2 12 122 <0.01 <10 <10 120 <10 60CGH-06-097 152.40 155.45 EL06078319 96866 0.054 <0.2 0.49 16 <10 20 <0.5 <2 2.6 <0.5 9 2 72 5.33 <10 1 0.17 <10 0.99 408 1 0.14 2 1410 7 5.94 <2 3 108 <0.01 <10 <10 18 <10 39CGH-06-097 155.45 158.50 EL06078319 96867 0.031 0.2 0.85 23 <10 30 <0.5 <2 2.7 <0.5 8 14 35 4.86 <10 <1 0.28 10 1.1 341 2 0.13 1 1200 5 5.36 <2 3 128 <0.01 <10 <10 27 <10 23CGH-06-097 158.50 161.54 EL06078319 96868 0.153 0.4 0.99 41 10 30 <0.5 <2 3.15 <0.5 19 2 360 5.94 <10 <1 0.31 <10 1.24 453 3 0.11 1 2220 6 6.45 7 8 146 <0.01 <10 <10 61 <10 30CGH-06-097 161.54 164.59 EL06078319 96869 0.135 0.6 0.44 44 <10 50 <0.5 <2 2.31 <0.5 11 2 193 5.35 <10 <1 0.17 <10 0.91 371 6 0.07 1 1460 5 5.94 3 3 96 <0.01 <10 <10 23 <10 31CGH-06-097 164.59 167.64 EL06078319 96870 0.061 0.7 0.68 52 10 10 <0.5 <2 1.68 <0.5 16 20 51 5.29 <10 <1 0.29 <10 0.64 300 2 0.06 9 1270 28 5.97 5 2 82 <0.01 <10 <10 20 <10 41CGH-06-097 167.64 170.69 EL06078319 96871 0.082 0.6 0.66 53 10 10 <0.5 <2 1.28 0.7 15 5 119 5.73 <10 <1 0.3 <10 0.46 330 2 0.06 4 1440 43 6.35 5 4 89 <0.01 <10 <10 18 <10 70CGH-06-097 170.69 171.40 EL06078319 96872 0.101 0.8 0.38 75 <10 40 <0.5 <2 0.99 0.9 18 1 197 7.52 <10 <1 0.19 <10 0.3 254 4 0.04 6 1450 5 8.45 5 3 54 <0.01 <10 <10 13 <10 73CGH-06-097 171.40 173.74 EL06078319 96873 0.035 0.7 0.27 33 <10 20 <0.5 <2 0.2 <0.5 7 48 21 2.11 <10 <1 0.13 <10 0.05 50 25 0.01 23 560 9 2.2 9 1 26 <0.01 <10 <10 13 <10 4CGH-06-097 171.40 173.74 EL06078319 96874 0.047 1.1 0.14 48 <10 20 <0.5 <2 0.19 <0.5 9 21 30 2.69 <10 <1 0.07 <10 0.03 46 24 0.01 30 570 13 2.95 12 1 23 <0.01 <10 <10 7 <10 4CGH-06-097 173.74 176.78 EL06078319 96875 0.029 0.3 0.19 24 <10 20 <0.5 <2 0.47 <0.5 11 13 107 2.34 <10 <1 0.09 <10 0.05 99 41 0.01 28 1730 2 2.59 3 1 34 <0.01 <10 <10 13 <10 5CGH-06-097 176.78 179.83 EL06078319 96876 0.042 0.3 0.15 17 <10 20 <0.5 <2 0.38 <0.5 7 21 121 2.46 <10 <1 0.09 <10 0.1 190 9 0.01 19 580 10 2.69 3 1 30 <0.01 <10 <10 6 <10 16CGH-06-097 179.83 182.88 EL06078319 96877 0.060 0.7 0.56 57 10 10 <0.5 <2 1.74 <0.5 15 4 180 5.01 <10 <1 0.3 <10 0.53 720 6 0.03 11 1720 8 5.26 6 4 81 <0.01 <10 <10 20 <10 8CGH-06-097 182.88 185.93 EL06078319 96878 0.094 0.4 0.41 20 10 30 <0.5 <2 3.04 <0.5 16 2 324 5.18 <10 <1 0.2 <10 0.94 1065 2 0.07 7 2380 6 5.18 5 7 105 <0.01 <10 <10 38 <10 13CGH-06-097 185.93 188.84 EL06078319 96879 0.075 0.5 0.61 30 10 20 <0.5 <2 2.37 <0.5 19 27 229 4.85 <10 <1 0.32 <10 0.73 973 8 0.04 12 1500 6 4.9 3 4 69 <0.01 <10 <10 18 <10 14CGH-06-097 188.84 192.02 EL06078319 96880 0.039 0.3 0.27 9 <10 50 <0.5 <2 3.11 <0.5 9 9 248 2.44 <10 <1 0.15 <10 1.07 981 46 0.02 26 1300 5 1.78 2 4 67 <0.01 <10 <10 41 <10 17CGH-06-097 210.31 213.36 EL06078319 96881 0.130 0.3 0.4 34 10 20 0.5 <2 3.62 <0.5 17 9 479 6.09 <10 <1 0.13 <10 1.71 855 72 0.04 107 740 5 6.13 4 7 129 <0.01 <10 10 61 <10 34CGH-06-097 213.36 216.41 EL06078319 96882 0.098 0.3 0.9 30 10 10 0.6 <2 3.86 <0.5 18 25 501 7.1 <10 <1 0.18 <10 1.76 618 63 0.07 92 760 8 7.36 4 7 170 <0.01 <10 10 58 <10 58CGH-06-097 216.41 219.46 EL06078319 96883 0.160 0.6 0.49 30 <10 10 <0.5 <2 3.85 <0.5 18 17 672 9.26 <10 <1 0.2 <10 1.73 941 27 0.04 79 880 7 >10.0 6 6 90 <0.01 <10 10 36 <10 29CGH-06-097 249.94 252.98 EL06078319 96884 0.148 3.2 0.16 187 <10 10 <0.5 <2 1 0.6 11 7 19 8.8 <10 <1 0.1 <10 0.28 718 10 0.01 38 730 12 >10.0 4 1 18 <0.01 <10 <10 8 <10 26CGH-06-097 Standard 2 EL06078319 96885 1.055 1.05 3.3 0.87 16 <10 50 <0.5 <2 1.65 <0.5 28 1625 >10000 11.05 <10 1 0.41 <10 0.78 1080 30 0.03 1280 680 9 3.83 13 5 67 0.01 <10 <10 57 <10 88 1.2CGH-06-097 274.32 277.37 EL06078319 96886 0.145 0.7 0.6 27 <10 10 <0.5 <2 0.75 1.5 9 15 386 5.23 <10 <1 0.32 <10 0.23 317 22 0.03 14 1020 <2 5.91 2 1 34 <0.01 <10 <10 10 <10 78CGH-06-098 21.34 24.38 EL06080990 C100748 0.132 0.2 0.69 11 10 20 <0.5 <2 3.82 <0.5 20 1 570 5.23 <10 <1 0.31 <10 1.26 825 29 0.03 3 2040 5 4.51 <2 8 105 <0.01 <10 <10 48 <10 37CGH-06-098 24.38 27.43 EL06080990 C100749 0.102 0.3 0.71 7 10 30 <0.5 <2 3.92 <0.5 15 1 823 4.44 <10 1 0.29 <10 1.5 1020 20 0.04 2 2060 4 2.45 <2 8 137 <0.01 <10 <10 55 <10 53CGH-06-098 27.43 30.48 EL06080990 C100750 0.175 0.4 0.74 10 10 20 <0.5 <2 2.43 <0.5 24 1 850 5.05 <10 <1 0.28 <10 1.14 724 14 0.03 3 1930 3 3.65 <2 5 104 <0.01 <10 <10 47 <10 66CGH-06-098 30.48 33.53 EL06080990 C100751 0.230 0.5 0.74 11 10 50 <0.5 <2 3.51 <0.5 19 2 1460 4.96 <10 <1 0.32 <10 1.51 850 17 0.04 3 2030 5 3.35 <2 8 158 <0.01 <10 <10 55 <10 46CGH-06-098 33.53 36.57 EL06080990 C100752 0.170 0.4 0.81 5 10 100 <0.5 <2 4.12 <0.5 18 1 801 5.12 <10 <1 0.38 <10 1.58 1205 7 0.05 2 1930 5 2.57 <2 10 133 <0.01 <10 <10 72 <10 79CGH-06-098 36.57 39.62 EL06080990 C100753 0.120 0.5 0.67 12 <10 30 <0.5 <2 4.28 <0.5 20 1 530 5.57 <10 <1 0.3 <10 1.59 1380 8 0.05 3 1980 7 4.03 <2 7 127 <0.01 <10 <10 65 <10 140CGH-06-098 39.62 42.67 EL06080990 C100754 0.095 0.4 0.81 33 10 50 <0.5 <2 4.23 <0.5 18 1 426 4.9 <10 1 0.33 <10 1.54 1215 10 0.07 1 2060 7 2.42 <2 9 140 <0.01 <10 <10 70 <10 105CGH-06-098 Standard 5 EL06080990 C100755 0.132 0.4 1.68 7 <10 180 <0.5 <2 1.38 <0.5 20 1075 1600 4.63 10 <1 0.22 <10 0.82 621 17 0.13 868 690 4 0.99 <2 5 75 0.11 <10 <10 66 <10 55CGH-06-098 42.67 45.72 EL06080990 C100756 0.148 0.4 0.95 9 10 50 <0.5 <2 4.05 <0.5 19 2 853 4.81 <10 <1 0.34 <10 1.47 898 19 0.07 3 2140 3 3.16 <2 9 138 <0.01 <10 <10 80 <10 59CGH-06-098 45.72 48.77 EL06080990 C100757 0.231 1.3 0.8 21 10 10 <0.5 <2 3.48 0.6 21 1 937 4.75 <10 <1 0.34 <10 1.19 1060 17 0.06 2 1990 11 4.33 2 8 94 <0.01 <10 <10 41 <10 94CGH-06-098 48.77 51.82 EL06080990 C100758 0.080 0.4 0.54 11 <10 20 <0.5 <2 2.38 <0.5 9 2 513 3.02 <10 1 0.24 <10 0.84 638 12 0.05 6 1300 4 2.7 <2 3 94 <0.01 <10 <10 16 <10 45CGH-06-098 51.82 54.86 EL06080990 C100759 0.200 0.7 0.68 4 <10 20 <0.5 <2 2.98 <0.5 15 4 1710 4.66 <10 <1 0.27 <10 1.16 558 41 0.07 10 1320 3 3.73 <2 5 155 <0.01 <10 <10 41 <10 33CGH-06-098 54.86 57.91 EL06080990 C100760 0.282 1.4 0.78 12 10 20 <0.5 <2 3.18 <0.5 17 5 2330 5.84 <10 <1 0.31 10 1.28 684 36 0.06 8 1650 3 4.56 <2 5 136 <0.01 <10 <10 52 <10 39CGH-06-098 57.91 60.96 EL06080990 C100761 0.307 1.4 0.87 18 10 20 <0.5 <2 2.93 <0.5 28 5 2300 5.78 <10 <1 0.3 <10 1.35 956 62 0.06 9 1400 4 4.43 <2 5 94 <0.01 <10 <10 47 <10 41CGH-06-098 60.96 64.01 EL06080990 C100762 0.456 1.8 0.77 17 <10 40 <0.5 <2 2.93 <0.5 20 5 2610 4.54 <10 <1 0.3 <10 1.24 681 38 0.06 9 1360 2 2.8 <2 6 113 <0.01 <10 <10 44 <10 45CGH-06-098 64.01 67.06 EL06080990 C100763 0.268 2.3 0.58 15 10 50 <0.5 <2 2.6 <0.5 19 2 1520 3.49 <10 1 0.29 10 1.09 817 15 0.06 7 1020 2 2.24 6 4 117 <0.01 <10 <10 28 <10 40CGH-06-098 67.06 70.10 EL06080990 C100764 0.267 1.3 0.6 10 10 60 <0.5 <2 2.77 <0.5 16 1 1640 3.14 <10 1 0.26 10 1.01 699 25 0.07 2 1090 2 2.32 <2 3 126 <0.01 <10 <10 30 <10 31CGH-06-098 70.10 73.15 EL06080990 C100765 0.252 1.0 0.71 7 10 130 <0.5 <2 3.61 <0.5 10 2 1650 2.82 <10 <1 0.3 10 1.25 716 37 0.07 2 1610 4 2.13 <2 3 220 <0.01 <10 <10 29 <10 42CGH-06-098 70.10 73.15 EL06080990 C100766 0.253 0.9 0.7 8 10 110 <0.5 <2 3.06 <0.5 8 2 1690 2.42 <10 <1 0.3 10 1.09 596 19 0.08 1 1190 5 1.73 <2 3 213 <0.01 <10 <10 32 <10 38CGH-06-098 73.15 76.20 EL06080990 C100767 0.266 0.8 0.65 9 10 30 <0.5 <2 2.39 <0.5 12 1 1860 2.67 <10 <1 0.3 10 0.86 441 32 0.07 2 1290 4 2.26 <2 3 157 <0.01 <10 <10 25 <10 28CGH-06-098 76.20 79.25 EL06080990 C100768 0.310 0.6 0.7 10 10 40 <0.5 <2 2.75 <0.5 12 2 1910 2.96 <10 <1 0.33 10 1.04 474 25 0.08 2 1480 3 2.34 <2 3 193 <0.01 <10 <10 30 <10 34CGH-06-098 79.25 82.29 EL06080990 C100769 0.213 0.9 0.64 31 10 40 <0.5 <2 2.29 <0.5 10 2 1155 2.62 <10 <1 0.32 10 0.75 483 35 0.06 1 1160 <2 2.04 <2 3 144 <0.01 <10 <10 21 <10 25CGH-06-098 82.29 85.34 EL06080990 C100770 0.079 2.3 0.59 69 10 20 <0.5 <2 4.37 <0.5 6 1 602 4.07 <10 <1 0.35 10 0.44 636 25 0.05 2 1240 <2 4.41 16 3 117 <0.01 <10 <10 10 <10 22CGH-06-098 85.34 88.39 EL06080990 C100771 0.094 0.5 0.66 19 10 20 <0.5 <2 3.65 <0.5 8 2 564 3.83 <10 <1 0.37 10 0.72 637 42 0.07 1 1120 <2 3.63 <2 2 103 <0.01 <10 <10 13 <10 15CGH-06-098 88.39 91.44 EL06080990 C100772 0.051 0.3 0.59 14 10 30 <0.5 <2 3.11 <0.5 9 2 385 3.71 <10 <1 0.34 10 0.91 527 35 0.08 2 1120 <2 3.02 <2 2 102 <0.01 <10 <10 22 <10 21CGH-06-098 91.44 94.49 EL06080990 C100773 0.049 0.4 0.72 11 10 40 <0.5 <2 2.28 <0.5 12 1 294 4.3 <10 <1 0.39 10 1 592 9 0.08 4 1320 <2 3.06 <2 4 69 <0.01 <10 <10 36 <10 36CGH-06-098 94.49 97.54 EL06080990 C100774 0.065 0.4 0.65 13 10 30 <0.5 <2 2.91 <0.5 10 2 371 4.03 <10 <1 0.33 10 0.85 538 14 0.09 1 1120 <2 3.34 <2 3 119 <0.01 <10 <10 25 <10 18CGH-06-098 97.54 100.58 EL06080990 C100775 0.113 0.7 0.56 37 10 20 <0.5 <2 3.35 <0.5 6 1 503 4.33 <10 <1 0.3 10 0.78 620 17 0.08 2 1170 <2 3.41 <2 3 127 <0.01 <10 <10 20 <10 25CGH-06-098 100.58 103.63 EL06080990 C100776 0.073 0.4 0.52 12 10 40 <0.5 <2 3.24 <0.5 7 2 388 3.88 <10 <1 0.3 10 0.72 588 22 0.08 1 970 <2 3.11 <2 3 120 <0.01 <10 <10 19 <10 20CGH-06-098 Standard 2 EL06080990 C100777 0.930 2.7 0.88 12 <10 60 <0.5 <2 1.65 <0.5 28 1540 >10000 11.35 <10 <1 0.44 <10 0.77 1010 29 0.04 1205 630 5 3.56 4 5 64 0.01 <10 <10 57 <10 82 1.18
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-098 103.63 106.68 EL06080990 C100778 0.068 0.4 0.61 11 10 30 <0.5 <2 3.12 <0.5 10 4 500 4.01 <10 <1 0.33 10 0.67 555 23 0.09 1 890 <2 3.25 <2 3 119 <0.01 <10 <10 20 <10 28CGH-06-098 106.68 109.73 EL06080990 C100779 0.078 0.5 0.46 18 <10 20 <0.5 <2 4.95 <0.5 9 2 557 4.08 <10 <1 0.27 <10 0.89 891 23 0.07 <1 650 3 3.61 <2 3 180 <0.01 <10 <10 10 <10 19CGH-06-098 109.73 112.78 EL06080990 C100780 0.058 0.3 0.53 14 <10 10 <0.5 <2 5.88 <0.5 8 2 354 4.8 <10 <1 0.31 10 0.85 1205 11 0.07 2 970 2 4.6 <2 2 186 <0.01 <10 <10 14 <10 15CGH-06-098 112.78 115.82 EL06080990 C100781 0.080 0.3 0.84 8 10 20 <0.5 <2 2.81 <0.5 9 2 496 4.84 <10 <1 0.32 10 0.84 625 12 0.1 1 1120 3 3.41 <2 3 112 <0.01 <10 <10 41 <10 32CGH-06-098 115.82 118.87 EL06080990 C100782 0.056 0.3 1.07 5 10 60 <0.5 <2 2.99 <0.5 7 1 432 4.73 <10 <1 0.31 10 0.82 640 4 0.09 2 1110 <2 2.91 <2 4 105 <0.01 <10 <10 47 <10 44CGH-06-098 118.87 121.92 EL06080990 C100783 0.061 <0.2 0.61 8 10 40 <0.5 <2 3.33 <0.5 8 1 339 4.05 <10 <1 0.31 10 0.79 567 28 0.1 1 1320 <2 3.23 <2 3 155 <0.01 <10 <10 28 <10 25CGH-06-098 121.92 124.97 EL06080990 C100784 0.053 <0.2 0.79 6 10 30 <0.5 <2 2.37 <0.5 7 2 196 4.04 <10 <1 0.37 10 0.72 343 10 0.12 1 1360 <2 3.83 <2 3 111 <0.01 <10 <10 24 <10 14CGH-06-098 124.97 128.02 EL06080990 C100785 0.059 <0.2 0.69 2 10 40 0.5 <2 3.34 <0.5 6 1 248 3.19 <10 <1 0.33 10 0.82 466 16 0.12 2 1300 <2 2.78 <2 3 134 <0.01 <10 <10 25 <10 21CGH-06-098 128.02 131.06 EL06080990 C100786 0.116 0.3 0.64 6 10 20 <0.5 <2 2.71 <0.5 7 2 596 4.09 <10 <1 0.35 10 0.75 469 25 0.1 1 1230 <2 4.12 <2 2 117 <0.01 <10 <10 16 <10 22CGH-06-098 131.06 134.11 EL06080990 C100787 0.376 0.7 0.56 4 <10 30 <0.5 <2 3 <0.5 9 3 1670 3.41 <10 <1 0.31 10 0.84 519 30 0.08 1 1170 <2 3.08 <2 2 107 <0.01 <10 <10 24 <10 19CGH-06-098 131.06 134.11 EL06080990 C100788 0.396 0.7 0.64 4 10 20 <0.5 <2 3.22 <0.5 10 3 1830 3.75 <10 <1 0.35 10 0.9 561 35 0.09 2 1230 <2 3.44 <2 3 113 <0.01 <10 <10 25 <10 21CGH-06-098 134.11 137.16 EL06080990 C100789 0.445 1.7 1.18 5 10 30 <0.5 <2 3.77 <0.5 10 9 2540 4.4 <10 <1 0.32 10 1.03 621 18 0.08 5 1770 7 1.91 <2 5 140 <0.01 <10 <10 70 <10 47CGH-06-098 137.16 140.21 EL06080990 C100790 0.235 2.4 0.65 37 10 10 <0.5 <2 3.26 <0.5 13 2 2720 4.25 <10 <1 0.35 10 0.68 901 40 0.07 6 1350 4 3.32 2 4 114 <0.01 <10 <10 34 <10 25CGH-06-098 140.21 143.26 EL06080990 C100791 0.263 2.8 0.65 15 10 40 <0.5 <2 4.16 <0.5 12 3 3090 3.05 <10 <1 0.4 10 1.21 1065 44 0.08 4 1710 4 2.08 <2 5 132 <0.01 <10 <10 28 <10 17CGH-06-098 143.26 146.30 EL06080990 C100792 0.306 2.4 0.43 10 10 70 <0.5 <2 3.25 <0.5 10 3 3200 2.61 <10 <1 0.24 <10 0.8 728 65 0.07 6 1070 6 1.93 <2 3 111 <0.01 <10 <10 18 <10 32CGH-06-098 143.26 146.30 VA06101373 B520718 0.278 2.3 0.65 11 10 60 <0.5 <2 3.48 <0.5 10 12 3130 2.86 <10 <1 0.32 10 0.94 818 72 0.07 4 1120 6 2.03 <2 3 123 <0.01 <10 <10 22 <10 41CGH-06-098 BLANK VA06101373 B520717 0.012 0.2 1.32 6 <10 90 0.5 <2 4.67 <0.5 12 1 165 3.84 <10 <1 0.3 10 1.15 1545 2 0.09 2 1490 6 0.82 <2 7 158 <0.01 <10 <10 53 <10 79CGH-06-098 146.30 149.35 EL06080990 C100793 0.242 1.9 0.9 <2 10 50 <0.5 <2 3.84 <0.5 8 5 2690 3.34 <10 <1 0.31 10 0.96 955 28 0.07 5 1120 4 2.11 3 4 128 <0.01 <10 <10 45 <10 52CGH-06-098 149.35 152.40 EL06080990 C100794 0.293 2.1 0.61 12 10 60 <0.5 <2 3.75 <0.5 10 3 3130 2.75 <10 <1 0.32 10 0.88 789 68 0.08 5 1130 3 1.98 <2 4 130 <0.01 <10 <10 23 <10 33CGH-06-098 152.40 155.45 EL06080990 C100795 0.577 1.9 1.06 5 10 120 <0.5 <2 3.41 <0.5 6 3 2940 2.74 <10 <1 0.35 10 0.78 780 11 0.06 5 1010 2 1.04 <2 3 105 <0.01 <10 <10 31 <10 34CGH-06-098 155.45 158.50 EL06080990 C100796 0.432 2.2 1.1 14 10 20 <0.5 <2 4.43 <0.5 12 2 2830 6.16 <10 <1 0.34 10 0.89 990 16 0.05 1 1010 4 3.38 <2 3 137 <0.01 <10 <10 47 <10 41CGH-06-098 158.50 161.54 EL06080990 C100797 0.434 1.9 0.99 14 10 40 <0.5 <2 4.03 <0.5 8 2 2320 3.8 <10 <1 0.36 10 0.72 1125 13 0.06 3 1040 <2 1.43 <2 2 142 <0.01 <10 <10 30 <10 43CGH-06-098 161.54 164.59 EL06080990 C100798 0.259 1.5 0.89 10 10 40 <0.5 <2 3.63 <0.5 7 2 1770 3.54 <10 <1 0.38 10 0.72 986 20 0.06 2 1110 5 1.86 <2 2 134 <0.01 <10 <10 27 <10 37CGH-06-098 Standard 6 EL06080990 C100799 0.246 0.4 1.07 11 10 40 <0.5 <2 2.88 <0.5 15 404 3360 6.2 <10 <1 0.36 <10 1.14 760 10 0.06 321 1200 12 3.26 7 8 194 <0.01 <10 <10 59 <10 118CGH-06-098 164.59 167.64 EL06080990 C100800 0.149 0.5 0.86 7 10 80 <0.5 <2 3.7 <0.5 7 2 1110 3.25 <10 <1 0.33 10 0.75 946 5 0.06 3 1060 <2 0.86 <2 3 141 <0.01 <10 <10 38 <10 36CGH-06-098 167.64 170.69 EL06080990 C100801 0.106 0.9 0.92 9 10 40 <0.5 <2 4.51 <0.5 8 1 1155 3.42 <10 <1 0.36 10 0.91 1095 7 0.05 1 1130 2 1.69 <2 3 153 <0.01 <10 <10 38 <10 37CGH-06-098 170.69 173.78 EL06080990 C100802 0.055 0.9 0.62 22 10 20 <0.5 <2 3.19 <0.5 9 1 603 4.9 <10 <1 0.25 10 0.65 1050 8 0.04 3 1160 2 4.12 2 3 103 <0.01 <10 <10 28 <10 35CGH-06-098 173.78 176.78 EL06080990 C100803 0.049 1.5 0.64 82 10 20 <0.5 <2 3.8 <0.5 9 1 1155 4.2 <10 <1 0.35 10 0.68 1160 25 0.03 2 1140 3 3.8 12 2 147 <0.01 <10 <10 24 <10 46CGH-06-098 176.78 179.83 EL06080990 C100804 0.081 1.0 0.43 16 10 80 <0.5 <2 3.42 <0.5 6 3 810 2.15 <10 <1 0.3 10 0.95 797 36 0.03 7 1190 3 0.93 <2 3 169 <0.01 <10 <10 15 <10 21CGH-06-098 179.83 182.88 EL06080990 C100805 0.104 1.4 0.66 22 10 40 <0.5 <2 2.7 <0.5 13 2 1940 3.32 <10 <1 0.36 10 0.83 674 33 0.04 9 1310 2 2.3 <2 4 97 <0.01 <10 <10 29 <10 33CGH-06-098 182.88 185.93 EL06080990 C100806 0.090 0.2 0.02 <2 <10 <10 <0.5 <2 0.12 1.4 <1 <1 1 0.21 <10 <1 <0.01 <10 0.03 47 2 <0.01 <1 40 2 0.11 <2 <1 5 <0.01 <10 <10 <1 <10 3CGH-06-098 185.93 188.98 EL06080990 C100807 0.210 3.8 0.51 294 10 20 <0.5 <2 1.91 7 11 5 409 3.79 <10 1 0.19 <10 0.71 1120 17 0.03 28 910 89 3.03 9 5 143 <0.01 <10 <10 43 <10 598CGH-06-098 188.98 192.02 EL06080990 C100808 0.114 1.2 0.52 101 10 60 <0.5 <2 2.96 <0.5 7 1 1100 3.52 <10 1 0.27 10 1.02 1310 12 0.04 2 1150 2 1.53 7 4 127 <0.01 <10 <10 41 <10 57CGH-06-098 192.02 195.07 EL06080990 C100809 0.066 1.2 0.61 35 10 20 <0.5 <2 1.87 <0.5 7 2 875 4.11 <10 1 0.29 10 0.64 936 35 0.04 3 1210 3 2.91 2 4 76 <0.01 <10 <10 39 <10 49CGH-06-098 192.02 195.07 EL06080990 C100810 0.072 1.3 0.61 36 10 30 <0.5 <2 1.93 <0.5 8 2 863 4.22 <10 1 0.29 10 0.65 959 29 0.04 1 1210 2 2.99 3 4 77 <0.01 <10 <10 40 <10 50CGH-06-098 195.07 198.12 EL06080990 C100811 0.148 1.5 0.46 12 10 20 <0.5 <2 3.15 <0.5 6 2 1300 3.87 <10 <1 0.25 10 0.79 1060 5 0.04 3 1100 <2 2.49 <2 3 155 <0.01 <10 <10 36 <10 42CGH-06-098 198.12 201.17 EL06080990 C100812 0.098 1.6 0.46 18 10 20 <0.5 <2 3.23 <0.5 7 1 1300 4.48 <10 <1 0.24 10 0.64 1130 21 0.02 2 1010 3 3.15 <2 3 111 <0.01 <10 <10 31 <10 46CGH-06-098 201.17 204.22 EL06080990 C100813 0.123 1.7 0.4 31 10 20 <0.5 <2 3.5 <0.5 8 1 1185 3.63 <10 <1 0.22 10 0.87 1360 15 0.01 5 900 4 2.29 <2 3 128 <0.01 <10 <10 25 <10 61CGH-06-098 204.22 207.26 EL06080990 C100814 0.042 1.4 0.37 23 10 20 <0.5 <2 1.18 <0.5 12 5 437 2.69 <10 1 0.21 <10 0.37 507 17 <0.01 37 140 7 2.37 2 3 50 <0.01 <10 <10 10 <10 20CGH-06-099 15.24 18.29 EL06080990 C100815 0.107 0.6 0.61 <2 10 70 0.5 <2 4.97 <0.5 19 2 1285 4.97 <10 <1 0.24 10 1.5 1170 52 0.02 14 1180 5 3.29 <2 12 109 <0.01 <10 <10 48 <10 52CGH-06-099 18.29 21.34 EL06080990 C100816 0.098 0.5 0.67 41 10 20 <0.5 <2 4.4 <0.5 18 1 506 4.94 <10 <1 0.33 <10 1.17 1690 10 0.02 3 1710 5 2.6 3 8 125 <0.01 <10 <10 45 <10 46CGH-06-099 21.34 24.38 EL06080990 C100817 0.057 0.2 0.7 2 10 70 <0.5 <2 4.14 <0.5 20 <1 510 5.12 <10 1 0.24 <10 1.52 985 2 0.03 1 1890 2 3.38 <2 9 128 <0.01 <10 <10 66 <10 113CGH-06-099 24.38 27.43 EL06080990 C100818 0.051 <0.2 0.76 6 10 50 <0.5 <2 4.24 <0.5 16 <1 301 5.01 <10 <1 0.26 <10 1.55 874 2 0.03 2 2100 4 3.45 <2 9 138 <0.01 <10 <10 69 <10 58CGH-06-099 27.43 30.48 EL06080990 C100819 0.045 <0.2 0.79 6 10 40 0.5 <2 3.36 <0.5 19 <1 265 5.7 <10 1 0.26 10 1.59 863 3 0.04 2 2010 3 3.78 3 9 152 <0.01 <10 <10 69 <10 58CGH-06-099 30.48 33.53 EL06080990 C100820 0.157 0.3 0.71 <2 10 60 <0.5 <2 3.5 <0.5 22 <1 297 5.65 <10 <1 0.28 <10 1.44 734 3 0.03 3 1970 4 4.13 <2 8 144 <0.01 <10 <10 59 <10 50CGH-06-099 BLANK EL06080990 C100821 0.019 <0.2 1.42 <2 10 140 <0.5 <2 4.72 <0.5 8 1 99 3.37 <10 1 0.23 10 1.08 945 <1 0.1 3 1430 4 0.28 <2 6 153 <0.01 <10 <10 62 <10 43CGH-06-099 33.53 36.58 EL06080990 C100822 0.049 0.2 0.62 5 10 30 <0.5 <2 4.66 <0.5 21 <1 262 5.85 <10 <1 0.28 <10 1.81 917 3 0.03 2 1870 4 3.99 <2 8 140 <0.01 <10 <10 60 <10 54CGH-06-099 36.58 39.62 EL06080990 C100823 0.160 0.4 0.76 19 10 20 <0.5 <2 4.15 <0.5 19 1 963 4.99 <10 <1 0.31 <10 1.36 901 38 0.04 3 2040 5 3.95 <2 8 140 <0.01 <10 <10 50 <10 49CGH-06-099 39.62 42.67 EL06080990 C100824 0.112 0.2 0.59 9 10 20 <0.5 <2 4.91 <0.5 25 1 482 5.74 <10 1 0.26 <10 1.56 1080 48 0.06 3 1870 6 4.79 <2 7 126 <0.01 <10 <10 47 <10 68CGH-06-099 42.67 45.72 EL06080990 C100825 0.116 0.3 0.68 8 10 40 <0.5 <2 4.22 1.9 22 <1 527 5.73 <10 1 0.32 <10 1.31 947 14 0.08 2 2100 9 4.7 <2 9 108 <0.01 <10 <10 57 <10 256CGH-06-099 45.72 48.77 EL06080990 C100826 0.076 0.2 0.8 <2 10 80 <0.5 <2 5.1 <0.5 20 <1 566 5.27 <10 1 0.32 10 1.59 1240 20 0.12 1 2050 5 3.15 <2 10 143 <0.01 <10 <10 66 <10 44CGH-06-099 48.77 51.82 EL06080990 C100827 0.077 0.3 0.62 15 10 40 <0.5 <2 5.13 <0.5 19 <1 482 5.38 <10 <1 0.29 10 1.5 1190 27 0.12 2 2030 6 3.77 <2 9 141 <0.01 <10 <10 49 <10 41CGH-06-099 51.82 54.86 EL06080990 C100828 0.098 0.2 0.7 14 10 10 <0.5 <2 3.22 <0.5 22 1 455 5.48 <10 <1 0.36 <10 0.87 926 15 0.12 4 2000 4 4.86 <2 7 85 <0.01 <10 <10 30 <10 36CGH-06-099 54.86 57.91 EL06080990 C100829 0.061 0.2 0.64 9 10 20 <0.5 <2 3.11 <0.5 19 1 225 5.04 <10 <1 0.3 <10 0.97 854 11 0.15 4 2080 3 4.19 3 8 98 <0.01 <10 <10 43 <10 24CGH-06-099 57.91 60.96 EL06080990 C100830 0.056 <0.2 0.63 13 10 10 <0.5 <2 2.21 <0.5 17 1 261 5.22 <10 1 0.3 <10 0.79 636 5 0.1 4 1760 5 4.3 <2 6 91 <0.01 <10 <10 35 <10 38CGH-06-099 60.96 64.01 EL06080990 C100831 0.090 0.2 0.62 29 10 20 <0.5 2 3.13 <0.5 23 1 358 5.63 <10 <1 0.29 <10 1.1 976 9 0.14 4 1980 7 4.58 <2 8 108 <0.01 <10 <10 47 <10 60CGH-06-099 Standard 5 EL06080990 C100832 0.129 0.3 1.63 4 10 160 <0.5 <2 1.33 <0.5 23 1040 1490 4.52 <10 2 0.22 10 0.81 605 15 0.11 835 640 6 0.9 <2 5 73 0.11 <10 <10 63 <10 53CGH-06-099 64.01 67.06 EL06080990 C100833 0.082 <0.2 0.73 8 10 30 <0.5 <2 3.49 <0.5 22 2 406 5.18 <10 <1 0.35 <10 1.1 868 27 0.15 4 2120 4 4.11 <2 8 104 <0.01 <10 <10 52 <10 47CGH-06-099 67.06 70.10 EL06080990 C100834 0.106 <0.2 0.69 11 10 50 <0.5 <2 3.99 <0.5 20 1 400 4.99 <10 <1 0.34 <10 1.09 1250 3 0.16 4 2140 4 3.77 <2 7 96 <0.01 <10 <10 38 <10 27CGH-06-099 70.10 73.15 EL06080990 C100835 0.127 0.2 0.82 2 10 60 <0.5 <2 3.59 <0.5 20 <1 495 5.29 <10 <1 0.34 <10 1.26 781 3 0.11 3 2010 2 4.09 <2 9 102 <0.01 <10 <10 57 <10 32CGH-06-099 73.15 76.20 EL06080990 C100836 0.092 0.3 0.61 16 10 10 <0.5 <2 3.02 <0.5 22 <1 386 5.24 <10 <1 0.32 <10 1.03 938 6 0.07 5 1940 8 5.24 2 8 62 <0.01 <10 <10 24 <10 35CGH-06-099 76.20 79.25 EL06080990 C100837 0.137 0.5 0.7 65 10 10 <0.5 <2 3.31 <0.5 19 <1 396 5.33 <10 <1 0.33 <10 1.09 941 12 0.07 3 2020 11 4.92 3 10 79 <0.01 <10 <10 32 <10 51CGH-06-099 79.25 82.30 EL06080990 C100838 0.080 <0.2 0.65 2 10 60 <0.5 <2 3.4 <0.5 19 <1 397 5.27 <10 1 0.29 <10 1.36 578 27 0.08 3 1930 3 4.27 2 7 118 <0.01 <10 <10 56 <10 32CGH-06-099 82.30 85.34 EL06080990 C100839 0.111 <0.2 0.77 <2 10 10 <0.5 <2 3.48 <0.5 20 <1 507 6.35 <10 1 0.34 10 1.31 508 4 0.08 3 1850 2 5.83 <2 7 100 <0.01 <10 <10 49 <10 29CGH-06-099 85.34 88.39 EL06080990 C100840 0.082 <0.2 0.62 5 10 40 <0.5 <2 3.63 <0.5 18 1 356 5.83 <10 <1 0.28 <10 1.67 563 7 0.13 1 1870 5 5.17 <2 6 121 <0.01 <10 <10 52 <10 38CGH-06-099 88.39 91.44 EL06080990 C100841 0.215 0.7 0.69 15 10 20 <0.5 <2 3.08 <0.5 21 1 1820 5.73 <10 <1 0.33 <10 1.04 870 9 0.1 3 1830 7 5.24 4 7 85 <0.01 <10 <10 36 <10 34CGH-06-099 91.44 94.49 EL06080990 C100842 0.210 1.8 0.48 30 <10 20 <0.5 <2 4.07 0.7 16 1 1680 5.31 <10 <1 0.26 <10 1.36 1650 14 0.09 6 1420 7 4.61 14 6 104 <0.01 <10 <10 22 <10 67CGH-06-099 91.44 94.49 EL06080990 C100843 0.184 1.7 0.48 27 <10 10 <0.5 <2 3.97 0.5 14 1 1415 5.47 <10 <1 0.24 <10 1.4 1705 22 0.09 4 1390 5 4.64 13 7 101 <0.01 <10 <10 23 <10 74CGH-06-099 94.49 97.54 EL06080990 C100844 0.385 0.5 0.65 10 10 10 <0.5 <2 3.42 <0.5 23 2 2520 5.3 <10 <1 0.31 <10 0.96 1155 6 0.12 8 1690 5 4.47 <2 7 81 <0.01 <10 <10 39 <10 30CGH-06-099 97.54 100.58 EL06080990 C100845 0.577 0.9 0.67 3 10 30 <0.5 <2 3.45 <0.5 18 7 3580 4.93 <10 <1 0.29 <10 1.12 969 8 0.12 16 1670 3 3.94 3 8 82 <0.01 <10 <10 47 <10 36CGH-06-099 100.58 103.63 EL06084565 C100846 0.602 1.8 0.78 7 10 10 <0.5 <2 3.47 <0.5 17 21 4100 5.22 <10 <1 0.33 <10 1.14 1230 7 0.12 16 1260 8 4.5 5 8 89 <0.01 <10 <10 37 <10 23CGH-06-099 103.63 106.68 EL06084565 C100847 0.325 0.7 0.8 7 <10 50 <0.5 <2 3.41 <0.5 17 7 2510 5.33 <10 <1 0.36 <10 1.2 1155 7 0.13 16 1420 4 4.49 2 7 98 <0.01 <10 <10 47 <10 24CGH-06-099 106.68 109.73 EL06084565 C100848 0.331 0.7 0.68 20 <10 20 <0.5 <2 3.13 <0.5 17 5 2250 5.52 <10 <1 0.33 <10 1.03 1305 13 0.11 21 1200 5 4.94 4 6 68 <0.01 <10 <10 27 <10 16CGH-06-099 109.73 112.78 EL06084565 C100849 0.256 0.7 0.68 11 10 40 <0.5 <2 2.1 <0.5 20 18 1760 4.38 <10 <1 0.33 <10 0.71 866 14 0.15 17 1360 4 3.98 5 7 80 <0.01 <10 <10 27 <10 19CGH-06-099 112.78 115.82 EL06084565 C100850 0.233 0.6 0.79 4 10 70 <0.5 <2 2.45 <0.5 18 6 1675 4.33 <10 1 0.34 <10 1.02 665 29 0.15 13 1470 3 3.71 <2 6 119 <0.01 <10 <10 41 <10 20CGH-06-099 115.82 118.87 EL06084565 C100851 0.195 0.6 0.23 13 <10 10 <0.5 2 0.41 <0.5 8 7 1430 4.41 <10 <1 0.09 <10 0.04 27 26 0.06 37 1670 5 4.95 2 <1 48 <0.01 <10 <10 6 <10 <2CGH-06-099 118.87 121.92 EL06084565 C100852 0.209 0.7 0.45 35 <10 20 <0.5 <2 0.25 <0.5 14 27 1565 2.65 <10 <1 0.21 <10 0.04 16 36 0.05 44 1070 3 2.85 2 1 62 <0.01 <10 <10 11 <10 2
Assay Cu
Au-AA23 Au-AA23 Au-GRA21 Cu-AA46 Cu-AA05Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-087 32.50 33.53 EL06069708 96404 0.172 0.6 0.47 <2 <10 80 <0.5 <2 2.09 <0.5 23 13 1130 3.88 <10 <1 0.16 <10 0.71 587 115 0.02 23 1510 5 3.6 <2 5 52 <0.01 <10 <10 69 <10 27CGH-06-087 33.53 36.58 EL06069708 96405 0.160 0.8 0.51 2 <10 80 <0.5 <2 2.69 <0.5 28 10 1320 5.24 <10 <1 0.2 <10 0.94 814 22 0.02 28 1290 7 5.08 5 6 63 <0.01 10 <10 76 <10 32CGH-06-087 36.58 39.62 EL06069708 96406 0.130 0.6 0.51 6 <10 60 <0.5 <2 2.81 <0.5 17 17 802 4.07 <10 <1 0.17 <10 0.96 872 34 0.02 19 1370 3 3.78 <2 6 66 <0.01 10 <10 48 <10 37CGH-06-087 39.62 42.67 EL06069708 96407 0.171 0.4 0.95 7 <10 70 <0.5 <2 2.86 <0.5 18 1 504 5.81 <10 <1 0.21 10 1.44 808 2 0.06 4 1990 5 4.24 <2 8 148 <0.01 <10 <10 95 <10 78CGH-06-087 42.67 45.72 EL06069708 96408 0.120 0.3 2.21 5 <10 70 <0.5 <2 3.32 <0.5 18 1 648 5.44 10 <1 0.18 <10 1.79 830 29 0.13 2 1990 6 2.65 <2 12 169 0.01 <10 <10 114 <10 56CGH-06-087 45.72 48.77 EL06069708 96409 0.074 0.3 2.17 <2 <10 100 <0.5 <2 3.64 <0.5 18 7 515 5.54 10 <1 0.23 10 2.16 907 7 0.06 2 2010 8 3.15 <2 9 135 <0.01 <10 <10 111 <10 62CGH-06-087 48.77 51.82 EL06069708 96410 0.091 0.4 2.82 6 <10 110 <0.5 <2 3.28 <0.5 17 1 538 5.77 10 <1 0.22 <10 2.04 853 8 0.12 1 2110 6 3.01 <2 11 128 0.01 <10 10 141 <10 61CGH-06-087 51.82 54.86 EL06069708 96411 0.088 0.3 2.33 9 <10 90 <0.5 <2 3.27 <0.5 19 1 495 6.23 10 <1 0.23 10 1.8 861 5 0.08 1 2090 7 3.57 <2 9 104 0.01 <10 <10 126 <10 65CGH-06-087 51.82 54.86 EL06069708 96412 0.067 0.3 2.23 3 <10 100 <0.5 <2 3.26 <0.5 18 4 430 5.49 10 1 0.21 10 1.72 851 5 0.07 1 2030 6 2.91 <2 9 101 0.01 <10 <10 119 <10 61CGH-06-087 54.86 57.91 EL06069708 96413 0.054 0.2 1.52 4 <10 190 <0.5 <2 4.6 <0.5 17 1 302 5.21 10 <1 0.22 10 1.39 994 1 0.06 1 2070 3 1.75 <2 11 135 0.01 <10 <10 123 <10 57CGH-06-087 57.91 60.96 EL06069708 96414 0.096 0.5 0.77 18 <10 60 <0.5 <2 4.24 <0.5 17 <1 348 5.52 <10 <1 0.22 <10 1.7 946 5 0.04 1 1910 7 3.33 <2 9 161 <0.01 <10 <10 98 <10 92CGH-06-087 60.96 64.01 EL06069708 96415 0.075 0.5 0.73 11 <10 160 <0.5 <2 4.2 <0.5 18 4 308 5.24 <10 <1 0.22 <10 1.41 1180 2 0.04 3 1960 5 1.97 <2 9 159 <0.01 <10 <10 111 <10 78CGH-06-087 64.01 67.06 EL06069708 96416 0.088 0.4 0.57 14 <10 30 <0.5 <2 3.14 <0.5 11 1 226 4.31 <10 <1 0.25 10 0.82 741 9 0.03 3 1350 10 3.27 <2 4 132 <0.01 <10 <10 52 <10 41CGH-06-087 67.06 70.10 EL06069708 96417 0.066 0.2 0.5 4 <10 40 <0.5 <2 3.55 <0.5 9 1 180 3.4 <10 <1 0.22 10 0.73 595 2 0.03 2 1090 6 2.93 <2 3 143 <0.01 <10 <10 38 <10 43CGH-06-087 70.10 73.15 EL06069708 96418 0.061 <0.2 0.89 4 <10 30 <0.5 <2 2.65 <0.5 10 7 128 3.38 <10 <1 0.2 10 1.06 404 2 0.06 1 1110 3 2.56 <2 4 174 <0.01 <10 <10 42 <10 38CGH-06-087 73.15 76.20 EL06069708 96419 0.072 0.2 0.6 5 <10 30 <0.5 <2 2.25 <0.5 15 1 254 4.22 <10 <1 0.25 10 1.05 369 4 0.04 2 1140 5 3.7 <2 2 156 <0.01 <10 <10 32 <10 32CGH-06-087 76.20 79.25 EL06069708 96420 0.066 0.3 0.55 7 <10 30 <0.5 <2 2.22 <0.5 14 2 324 4.13 <10 <1 0.23 10 1.03 358 20 0.03 4 1080 5 3.79 <2 2 160 <0.01 <10 10 31 <10 22CGH-06-087 79.25 82.30 EL06069708 96421 0.064 0.2 0.48 3 <10 60 <0.5 <2 2.12 <0.5 16 24 382 3.85 <10 <1 0.17 10 0.96 371 33 0.02 9 1030 3 3.56 <2 4 111 <0.01 <10 <10 29 <10 21CGH-06-087 82.30 85.34 EL06069708 96422 0.105 0.5 0.62 4 <10 30 <0.5 <2 2.52 <0.5 20 11 535 3.77 <10 <1 0.18 10 1.12 781 39 0.02 64 1320 3 3.05 <2 7 132 <0.01 <10 <10 30 <10 51CGH-06-087 Standard 2 EL06069708 96423 0.902 2.8 0.89 11 <10 80 <0.5 <2 1.62 <0.5 25 1465 >10000 10.55 <10 1 0.44 <10 0.75 1010 28 0.03 1170 610 11 3.33 5 5 61 0.01 <10 <10 54 <10 79 1.18CGH-06-087 85.34 88.39 EL06069708 96424 0.114 0.3 0.92 3 <10 40 <0.5 <2 1.83 <0.5 16 11 475 4.29 <10 <1 0.18 10 1.4 471 37 0.02 27 2220 10 3.24 2 7 79 0.01 <10 <10 43 <10 39CGH-06-087 88.39 91.44 EL06069708 96425 0.034 0.3 0.35 2 <10 50 <0.5 <2 1.88 <0.5 7 28 113 2.96 <10 <1 0.11 <10 0.95 382 19 0.01 12 450 4 2.48 2 4 110 <0.01 <10 <10 27 <10 27CGH-06-087 91.44 94.49 EL06069708 96426 0.056 0.3 0.45 5 <10 40 <0.5 <2 2.95 <0.5 10 9 202 3.61 <10 <1 0.15 <10 1.47 657 17 0.02 23 820 3 2.77 <2 5 135 <0.01 <10 <10 45 <10 35CGH-06-087 94.49 97.54 EL06069708 96427 0.112 0.5 0.5 11 <10 50 <0.5 <2 1.86 <0.5 18 20 286 4.48 <10 <1 0.2 <10 0.96 510 36 0.02 28 990 5 3.43 <2 6 115 <0.01 <10 <10 33 <10 45CGH-06-087 97.54 100.58 EL06069708 96428 0.059 0.4 0.48 14 <10 30 <0.5 <2 2.98 <0.5 11 6 424 3.4 <10 <1 0.19 <10 1.33 842 9 0.02 16 980 4 2.32 3 6 157 <0.01 <10 <10 30 <10 52CGH-06-087 100.58 102.32 EL06069708 96429 0.027 0.4 0.43 4 <10 70 <0.5 <2 2.38 <0.5 9 7 262 2.46 <10 <1 0.12 <10 1.07 593 15 0.02 13 1020 3 1.62 7 5 108 <0.01 <10 <10 37 <10 42CGH-06-087 102.32 103.63 EL06069708 96430 0.048 0.4 0.71 <2 10 50 <0.5 <2 2.82 <0.5 14 5 345 5.11 <10 <1 0.28 10 1.81 813 3 0.03 4 1670 7 2.98 <2 12 145 <0.01 <10 <10 82 <10 51CGH-06-087 103.63 106.68 EL06069708 96431 0.074 0.4 0.69 <2 <10 30 <0.5 <2 2.75 <0.5 16 1 362 6.08 <10 <1 0.26 <10 1.7 853 7 0.03 6 1590 6 4.57 2 9 118 <0.01 <10 <10 68 <10 41CGH-06-087 106.68 109.73 EL06069708 96432 0.060 0.6 0.53 5 <10 10 <0.5 <2 2.59 <0.5 19 1 333 5.74 <10 1 0.29 <10 0.97 793 11 0.02 8 1690 5 5.04 3 6 108 <0.01 <10 <10 34 <10 38CGH-06-087 109.73 112.78 EL06069708 96433 0.065 0.6 0.44 7 10 20 <0.5 <2 3.48 <0.5 14 11 173 5.18 <10 1 0.24 <10 1.12 968 5 0.02 8 2010 3 4.72 4 5 151 <0.01 <10 <10 18 <10 25CGH-06-087 109.73 112.78 EL06069708 96434 0.071 0.6 0.49 8 10 10 <0.5 <2 3.54 <0.5 14 1 174 5.23 <10 <1 0.27 <10 1.15 987 6 0.03 8 2100 3 4.78 3 5 159 <0.01 <10 <10 19 <10 29CGH-06-087 112.78 115.82 EL06069708 96435 0.095 0.3 0.77 5 10 30 0.6 <2 5.67 <0.5 21 7 532 6.25 <10 <1 0.3 20 2.13 1460 7 0.04 20 4170 4 4.41 3 14 187 <0.01 <10 <10 62 <10 53CGH-06-087 115.82 118.87 EL06069708 96436 0.053 0.3 0.47 3 10 20 <0.5 <2 5.47 <0.5 15 1 357 4.8 <10 1 0.28 <10 1.8 1360 15 0.03 5 1440 3 2.99 3 10 169 <0.01 <10 <10 30 <10 22CGH-06-087 118.87 121.92 EL06069708 96437 0.054 0.2 0.58 4 10 40 <0.5 <2 4.12 <0.5 14 6 470 4.88 <10 1 0.3 10 1.56 813 4 0.04 5 1580 3 3.29 3 9 167 <0.01 <10 <10 62 <10 30CGH-06-087 121.92 124.97 EL06069708 96438 0.178 0.6 0.55 68 10 20 <0.5 <2 3.49 <0.5 22 2 361 5.15 <10 <1 0.3 10 1.22 1325 10 0.03 19 2140 6 3.64 2 8 180 <0.01 <10 <10 44 <10 51CGH-06-087 124.97 128.02 EL06069708 96439 0.051 0.7 0.59 3 10 60 0.5 <2 3.04 <0.5 11 1 912 4.63 <10 <1 0.3 10 1.34 1010 6 0.04 6 1300 3 1.8 2 5 194 <0.01 <10 <10 45 <10 77CGH-06-087 128.02 129.70 EL06069708 96440 0.076 0.9 0.58 6 10 100 <0.5 2 1.26 <0.5 13 8 997 4.55 <10 <1 0.28 10 0.94 820 6 0.04 7 1340 3 1.6 <2 4 100 <0.01 <10 <10 47 <10 82CGH-06-087 129.70 131.06 EL06069708 96441 0.028 0.7 0.36 <2 <10 110 <0.5 <2 4.44 <0.5 8 9 791 3.47 <10 <1 0.15 10 2.07 1455 7 0.04 12 580 3 0.83 <2 4 164 <0.01 <10 <10 37 <10 86CGH-06-087 131.06 134.11 EL06069708 96442 0.065 0.6 0.44 5 <10 60 <0.5 <2 2.23 <0.5 16 14 725 3.95 <10 <1 0.18 10 1 999 26 0.01 27 1470 3 1.3 3 5 90 <0.01 <10 <10 61 <10 99CGH-06-087 134.11 136.05 EL06069708 96443 0.099 0.9 0.31 17 <10 30 <0.5 <2 3.93 <0.5 29 24 1290 4.48 <10 1 0.13 10 1.28 1700 71 0.02 39 1380 4 2.35 3 5 134 <0.01 <10 <10 58 <10 55CGH-06-087 136.05 139.05 EL06069708 96444 0.032 0.8 0.49 38 10 140 0.5 <2 3.81 <0.5 7 1 165 3.83 <10 <1 0.3 10 1.16 1915 4 0.04 5 1320 5 1.31 <2 5 170 <0.01 <10 <10 33 <10 88CGH-06-087 Standard 6 EL06069708 96445 0.254 0.8 1.09 16 10 50 <0.5 <2 3.14 <0.5 16 413 3580 6.37 <10 2 0.39 <10 1.2 851 11 0.07 341 1340 16 3.32 9 9 208 <0.01 <10 <10 63 <10 122CGH-06-087 139.05 140.54 EL06069708 96446 0.022 0.5 0.66 6 <10 850 <0.5 <2 2.92 <0.5 11 8 608 4.2 <10 <1 0.19 10 1.06 1625 54 0.04 18 1270 4 0.38 <2 9 127 <0.01 <10 <10 70 <10 97CGH-06-087 140.54 143.26 EL06069708 96447 0.097 1.0 1.04 13 <10 410 <0.5 <2 2.36 <0.5 16 31 912 4.18 <10 <1 0.15 10 1.42 1215 62 0.03 30 1160 5 0.63 2 6 131 0.01 <10 <10 65 <10 95CGH-06-087 143.26 146.30 EL06069708 96448 0.014 0.3 1.51 2 <10 720 <0.5 <2 1.92 <0.5 12 9 285 4.25 10 <1 0.25 10 1.3 1250 26 0.05 14 1420 4 0.45 <2 6 118 0.01 <10 <10 83 <10 82CGH-06-087 146.30 149.35 EL06069708 96449 0.012 0.4 2.14 2 <10 200 0.5 <2 2.73 <0.5 13 14 291 4.69 10 1 0.22 20 1.76 1470 7 0.05 20 2960 3 0.64 2 8 147 0.02 <10 <10 66 <10 94CGH-06-087 149.35 152.40 EL06069708 96450 0.047 0.6 2.45 10 <10 90 0.6 <2 2.58 <0.5 21 17 602 5.77 10 2 0.26 20 1.88 1425 13 0.05 26 3430 5 1.86 3 12 117 0.01 <10 <10 85 <10 92CGH-06-087 152.40 155.45 EL06069708 96451 0.056 0.8 1.3 9 <10 40 <0.5 <2 2.7 <0.5 17 8 652 4.26 <10 <1 0.22 10 1.5 1315 17 0.03 22 1660 5 1.89 <2 8 118 0.01 <10 <10 42 <10 58CGH-06-087 155.45 158.50 EL06069708 96452 0.092 0.9 0.9 9 <10 40 <0.5 <2 2.11 <0.5 14 5 799 3.91 <10 1 0.17 <10 0.95 947 9 0.03 19 640 4 1.68 <2 7 115 <0.01 <10 <10 34 <10 73CGH-06-087 158.50 161.54 EL06069708 96453 0.037 0.5 0.92 7 10 60 <0.5 <2 3.61 <0.5 13 16 379 3.5 <10 <1 0.21 10 1.44 1465 18 0.04 21 1610 5 1.32 2 9 177 <0.01 <10 <10 42 <10 55CGH-06-087 161.54 164.59 EL06069708 96454 0.020 0.3 1.4 7 <10 90 <0.5 <2 1.25 <0.5 15 9 308 3.28 <10 1 0.16 10 1.26 971 6 0.03 21 570 6 1.29 <2 8 58 0.01 <10 <10 50 <10 67CGH-06-087 164.59 167.15 EL06069708 96455 0.060 0.4 2.1 7 <10 50 <0.5 <2 1.04 <0.5 17 8 430 4.66 10 <1 0.19 10 1.57 1000 25 0.05 25 790 4 1.78 3 8 65 0.01 <10 <10 81 <10 71CGH-06-087 164.59 167.15 EL06069708 96456 0.046 0.4 2.03 2 <10 40 <0.5 <2 1.03 <0.5 18 14 431 4.58 10 1 0.18 10 1.54 980 25 0.04 25 770 5 1.78 <2 7 63 0.01 <10 <10 78 <10 69CGH-06-087 167.15 170.69 EL06069708 96457 0.049 0.6 2.47 14 10 30 0.5 <2 1.87 <0.5 18 1 531 5.9 10 1 0.3 10 1.99 1270 5 0.06 6 1800 7 3.2 <2 10 101 <0.01 <10 <10 122 <10 79CGH-06-087 170.69 173.73 EL06069708 96458 0.048 0.9 2.59 14 10 30 0.5 <2 2.03 <0.5 19 1 621 6.4 <10 <1 0.28 10 2.05 1425 6 0.06 7 1850 10 3.75 2 11 90 <0.01 <10 <10 128 <10 115CGH-06-087 173.73 175.18 EL06069708 96459 0.066 0.6 2.21 <2 10 20 <0.5 <2 2.44 <0.5 19 5 381 5.71 <10 <1 0.26 10 1.77 1155 5 0.06 8 1650 5 3.54 <2 8 107 <0.01 <10 <10 105 <10 89CGH-06-087 175.18 176.78 EL06069708 96460 0.047 0.5 2.39 <2 10 90 0.8 <2 1.62 <0.5 19 15 328 4.37 10 <1 0.31 10 1.75 941 5 0.07 35 1150 4 1.53 4 10 100 0.03 <10 <10 108 <10 69CGH-06-087 176.78 179.83 EL06069708 96461 0.026 0.6 2.08 5 10 60 0.5 <2 1.4 <0.5 18 9 471 4.4 10 <1 0.21 10 1.49 949 3 0.05 22 1340 6 1.76 <2 8 82 0.01 <10 <10 65 <10 58CGH-06-087 179.83 182.88 EL06069708 96462 0.019 0.3 1.86 5 <10 50 <0.5 <2 1.12 <0.5 14 17 144 4.32 10 <1 0.17 10 1.24 1010 2 0.04 25 880 5 1.79 <2 7 60 0.01 <10 <10 42 <10 57CGH-06-087 182.88 185.93 EL06069708 96463 0.146 1.2 0.76 62 <10 30 <0.5 <2 2.63 <0.5 21 5 665 3.5 <10 <1 0.14 10 0.79 1420 32 0.04 22 730 5 2.29 2 4 80 <0.01 <10 <10 19 <10 28CGH-06-087 185.93 188.98 EL06069708 96464 0.085 2.7 1.01 42 10 20 0.6 <2 3.95 <0.5 30 6 1130 5.79 <10 <1 0.23 10 1.06 2250 27 0.06 32 2660 9 3.63 3 8 124 <0.01 <10 <10 46 <10 59CGH-06-087 188.98 192.60 EL06069708 96465 0.074 3.6 0.92 34 <10 20 0.6 <2 4 <0.5 30 16 1220 5.99 <10 <1 0.21 10 1.04 2300 38 0.06 32 2190 14 3.97 4 7 122 <0.01 <10 <10 37 <10 141CGH-06-087 192.60 195.07 EL06069708 96466 0.071 1.7 0.55 51 <10 30 <0.5 <2 3.97 <0.5 10 3 92 3.82 <10 <1 0.25 10 1.03 2810 2 0.06 6 1010 7 2.23 <2 3 118 <0.01 <10 <10 18 <10 23CGH-06-087 BLANK EL06069708 96467 0.019 0.3 0.44 13 <10 520 <0.5 <2 3.1 <0.5 8 5 46 3.98 <10 <1 0.3 10 0.64 3000 1 0.09 9 1150 3 0.4 <2 8 104 <0.01 <10 <10 58 <10 80CGH-06-087 195.07 198.12 EL06069708 96468 0.176 0.7 0.29 41 <10 100 <0.5 <2 9.42 <0.5 5 7 85 4.33 <10 <1 0.18 10 2.29 6180 <1 0.06 <1 590 5 0.76 <2 3 239 <0.01 <10 <10 16 <10 20CGH-06-087 198.12 201.17 EL06069708 96469 0.071 1.0 0.53 46 <10 50 <0.5 <2 6.23 <0.5 9 2 166 4.03 <10 <1 0.25 10 1.32 3720 <1 0.07 1 1140 9 1.74 2 4 154 <0.01 <10 <10 19 <10 47CGH-06-087 201.17 204.22 EL06069708 96470 0.064 1.5 0.76 66 <10 30 <0.5 <2 4.05 <0.5 12 2 163 4.65 <10 <1 0.26 10 0.95 2340 2 0.08 2 1410 9 2.7 <2 5 150 <0.01 <10 <10 29 <10 71CGH-06-087 204.22 207.26 EL06069708 96471 0.014 0.5 1.26 23 <10 60 <0.5 <2 2.8 <0.5 10 7 86 3.77 <10 <1 0.23 10 0.9 1270 3 0.08 <1 1300 10 1.59 <2 5 135 <0.01 <10 <10 36 <10 52CGH-06-087 207.26 210.31 EL06069708 96472 0.136 2.6 0.55 87 10 20 <0.5 <2 2.98 1 12 2 99 4.12 <10 <1 0.26 10 0.52 1535 3 0.07 4 1210 10 3.71 <2 3 124 <0.01 <10 <10 14 <10 163CGH-06-087 210.31 213.36 EL06069708 96473 0.087 2.2 0.45 75 <10 30 <0.5 <2 3.1 1 12 2 141 3.8 <10 <1 0.28 10 0.52 1775 1 0.06 2 1270 10 3.4 <2 4 102 <0.01 <10 <10 12 <10 128CGH-06-087 213.36 216.41 EL06069708 96474 0.018 0.5 0.85 21 10 180 <0.5 <2 7.16 <0.5 9 9 124 3.22 <10 <1 0.29 10 1.31 3090 <1 0.07 <1 1250 6 0.89 <2 5 198 <0.01 <10 <10 21 <10 53CGH-06-087 216.41 219.46 EL06069708 96475 0.023 0.8 0.97 31 10 100 0.5 <2 5.37 <0.5 12 2 108 3.39 <10 <1 0.28 10 0.86 2370 1 0.07 2 1450 14 1.22 <2 5 197 <0.01 <10 <10 28 <10 116CGH-06-087 219.46 222.50 EL06069708 96476 0.038 1.2 0.86 25 10 50 <0.5 <2 3.91 <0.5 12 2 94 3.44 <10 <1 0.29 10 0.68 1940 1 0.08 2 1450 10 1.91 <2 5 170 <0.01 <10 <10 26 <10 73CGH-06-087 222.50 225.55 EL06069708 96477 0.045 1.1 0.95 36 10 80 <0.5 <2 4.27 <0.5 11 10 76 2.99 <10 <1 0.29 10 0.79 1915 1 0.07 2 1190 12 1.44 <2 4 169 <0.01 <10 <10 25 <10 94CGH-06-087 Standard 5 EL06069708 96478 0.122 0.4 1.62 11 <10 170 <0.5 <2 1.24 <0.5 22 1080 1540 4.44 10 <1 0.22 10 0.8 609 16 0.12 824 640 5 0.96 <2 5 76 0.11 <10 <10 65 <10 50CGH-06-087 225.55 228.60 EL06069708 96479 0.029 0.7 1.65 15 <10 130 <0.5 <2 3.82 0.9 12 4 94 3.58 10 <1 0.31 10 1.16 2150 1 0.07 3 1250 29 1.21 <2 4 151 <0.01 <10 <10 44 <10 226CGH-06-087 228.60 231.65 EL06069708 96480 0.042 1.0 0.85 34 <10 40 <0.5 <2 3.71 2.7 14 2 80 3.4 <10 <1 0.32 10 0.96 1925 1 0.07 1 1240 12 1.74 2 4 196 <0.01 <10 <10 33 <10 351CGH-06-087 231.65 234.70 EL06069708 96481 0.006 0.2 1.68 9 <10 480 <0.5 <2 4.35 <0.5 11 8 108 3.38 10 <1 0.25 10 1.1 1695 <1 0.07 1 1210 4 0.7 <2 4 164 <0.01 <10 <10 47 <10 76
ME-ICP41 ME-ICP41
GJ PROJECT2006 Drill Hole Assay Data Base (from ALS Chemex)
Sample Identification ICP and Gold Assays
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-099 121.92 124.97 EL06084565 C100853 0.482 0.6 0.43 36 <10 10 <0.5 <2 0.27 <0.5 13 5 1915 2.86 <10 <1 0.2 <10 0.06 31 38 0.05 25 830 4 3.03 <2 1 37 <0.01 <10 <10 10 <10 2CGH-06-099 Standard 2 EL06084565 C100854 0.965 2.8 0.93 10 <10 50 <0.5 <2 1.66 <0.5 29 1575 >10000 10.9 <10 2 0.44 <10 0.78 1030 28 0.04 1235 650 11 3.59 6 5 61 0.01 <10 <10 57 <10 83 1.17CGH-06-099 124.97 128.02 EL06084565 C100855 0.307 1.4 0.43 43 <10 10 <0.5 <2 0.33 <0.5 23 9 2130 4.08 <10 <1 0.21 <10 0.07 26 70 0.04 38 1110 4 4.35 8 1 36 <0.01 <10 <10 9 <10 4CGH-06-099 128.02 131.06 EL06084565 C100856 0.120 0.5 0.59 57 <10 10 <0.5 <2 0.31 <0.5 24 21 902 5.13 <10 <1 0.28 <10 0.04 15 78 0.06 22 1310 2 5.68 <2 1 39 <0.01 <10 <10 10 <10 <2CGH-06-099 131.06 134.11 EL06084565 C100857 0.062 0.6 0.47 23 <10 10 <0.5 <2 0.25 <0.5 16 4 371 5.46 <10 <1 0.23 <10 0.04 22 73 0.04 15 930 4 5.98 3 1 32 <0.01 <10 <10 9 <10 <2CGH-06-099 134.11 137.16 EL06084565 C100858 0.173 0.8 0.46 47 <10 <10 <0.5 <2 0.29 <0.5 22 3 716 8.25 <10 <1 0.23 <10 0.05 26 68 0.05 21 1140 8 8.84 2 1 38 <0.01 <10 <10 8 <10 4CGH-06-099 137.16 140.21 EL06084565 C100859 0.232 1.1 0.59 14 <10 20 <0.5 <2 0.72 <0.5 18 22 1830 3.64 <10 <1 0.29 <10 0.21 237 41 0.08 11 1330 5 3.87 6 2 49 <0.01 <10 <10 11 <10 4CGH-06-099 140.21 143.26 EL06084565 C100860 0.343 1.5 0.59 64 <10 10 <0.5 <2 1.07 <0.5 17 3 1985 5.52 <10 1 0.28 <10 0.32 457 22 0.1 9 1320 4 5.95 9 3 48 <0.01 <10 <10 10 <10 4CGH-06-099 143.26 146.30 EL06084565 C100861 0.362 0.7 0.59 55 <10 30 <0.5 <2 1.21 <0.5 16 2 2260 4.86 <10 <1 0.28 <10 0.39 468 23 0.09 5 1140 6 5.07 2 2 38 <0.01 <10 <10 8 <10 3CGH-06-099 146.30 149.35 EL06084565 C100862 0.530 0.5 0.34 22 <10 40 <0.5 <2 1.49 <0.5 16 6 3260 4.3 <10 <1 0.15 <10 0.49 502 45 0.09 3 1130 3 4.54 <2 2 62 <0.01 <10 <10 10 <10 11CGH-06-099 149.35 152.40 EL06084565 C100863 0.664 1.0 0.65 19 <10 20 <0.5 <2 2.07 <0.5 17 3 4060 4.05 <10 <1 0.34 <10 0.75 770 31 0.08 4 1150 2 3.96 3 3 53 <0.01 <10 <10 13 <10 6CGH-06-099 152.40 155.45 EL06084565 C100864 0.326 0.9 0.65 40 <10 20 <0.5 <2 3.23 <0.5 15 2 1740 4.47 <10 <1 0.37 <10 1.12 1285 27 0.1 11 1460 5 3.94 4 6 71 <0.01 <10 <10 21 <10 18CGH-06-099 152.40 155.45 EL06084565 C100865 0.325 0.8 0.68 42 <10 20 <0.5 <2 3.29 <0.5 15 12 1790 4.44 <10 1 0.39 <10 1.14 1340 31 0.1 10 1460 5 3.9 3 6 72 <0.01 <10 <10 21 <10 18CGH-06-099 155.45 158.50 EL06084565 C100866 0.475 0.6 0.74 23 10 40 <0.5 <2 2.75 <0.5 13 2 2420 3.68 <10 <1 0.42 <10 0.84 1245 24 0.12 6 1570 2 2.64 <2 5 74 <0.01 <10 <10 23 <10 25CGH-06-099 158.50 161.54 EL06084565 C100867 0.894 0.9 0.39 28 <10 20 <0.5 <2 2.35 <0.5 17 2 4390 4.84 <10 <1 0.23 <10 0.76 919 31 0.1 7 1320 5 3.93 <2 4 79 <0.01 <10 <10 27 <10 20CGH-06-099 161.54 164.59 EL06084565 C100868 0.582 0.9 0.56 20 <10 20 <0.5 <2 2.08 <0.5 13 20 3070 4.43 <10 <1 0.34 <10 0.59 1405 48 0.08 5 920 5 3.85 <2 2 110 <0.01 <10 <10 12 <10 14CGH-06-099 164.59 167.64 EL06084565 C100869 1.035 1.11 1.4 0.27 26 <10 10 <0.5 <2 2 <0.5 11 2 4760 4.79 <10 <1 0.18 <10 0.59 1220 71 0.08 7 860 7 4.53 5 2 77 <0.01 <10 <10 7 <10 12CGH-06-099 167.64 170.69 EL06084565 C100870 1.040 1.16 0.8 0.25 11 <10 10 <0.5 <2 1.73 <0.5 14 2 5890 4.34 <10 <1 0.16 <10 0.5 1095 37 0.06 2 950 5 4.13 <2 2 106 <0.01 <10 <10 6 <10 9CGH-06-099 170.69 173.74 EL06084565 C100871 0.635 0.8 0.23 10 <10 20 <0.5 2 1.99 <0.5 13 6 4050 3.7 <10 <1 0.14 <10 0.6 1085 95 0.05 2 870 4 3.31 <2 1 110 <0.01 <10 <10 4 <10 25CGH-06-099 173.74 176.78 EL06084565 C100872 0.850 1.1 0.57 17 <10 20 <0.5 <2 1.51 <0.5 11 3 4560 4.22 <10 <1 0.32 <10 0.46 802 66 0.08 3 1030 3 3.96 2 2 92 <0.01 <10 <10 8 <10 6CGH-06-099 176.78 179.83 EL06084565 C100873 0.564 1.0 0.51 15 <10 20 <0.5 <2 2.21 <0.5 11 2 3970 3.59 <10 <1 0.31 <10 0.71 1085 53 0.07 2 1030 3 3.04 2 3 91 <0.01 <10 <10 10 <10 23CGH-06-099 179.83 182.88 EL06084565 C100874 0.533 0.7 0.58 10 <10 40 <0.5 <2 2.5 <0.5 10 16 3340 2.83 <10 <1 0.35 <10 0.77 1180 62 0.1 3 1130 2 2 4 2 137 <0.01 <10 <10 9 <10 15CGH-06-099 182.88 185.93 EL06084565 C100875 0.447 0.6 0.44 13 <10 30 <0.5 <2 2.74 <0.5 11 2 2900 2.73 <10 <1 0.27 <10 0.88 1155 31 0.08 2 1100 3 1.87 3 2 182 <0.01 <10 <10 6 <10 13CGH-06-099 Standard 6 EL06084565 C100876 0.267 0.5 1.01 16 <10 50 <0.5 <2 3.09 0.5 16 420 3360 6.37 <10 2 0.36 10 1.23 809 10 0.07 338 1230 12 3.3 4 8 206 <0.01 <10 <10 59 <10 127CGH-06-099 185.93 188.98 EL06084565 C100877 0.542 1.2 0.47 17 <10 30 <0.5 <2 1.73 <0.5 12 4 3510 2.86 <10 <1 0.28 <10 0.57 807 46 0.06 3 1180 6 2.51 4 2 77 <0.01 <10 <10 6 <10 27CGH-06-099 188.98 192.02 EL06084565 C100878 0.211 3.1 0.24 21 <10 20 <0.5 2 1.76 0.6 13 7 3060 4.06 <10 <1 0.15 <10 0.53 808 20 0.05 3 1300 9 4.07 18 2 40 <0.01 <10 <10 6 <10 62CGH-06-099 192.02 195.07 EL06084565 C100879 0.188 1.2 0.49 15 <10 20 <0.5 <2 1.23 <0.5 10 3 1475 3.45 <10 <1 0.27 <10 0.36 463 10 0.06 4 1260 3 3.4 3 2 45 <0.01 <10 <10 8 <10 10CGH-06-099 195.07 198.12 EL06084565 C100880 0.217 0.7 0.33 11 <10 140 <0.5 2 3.1 <0.5 8 1 1785 3.48 <10 <1 0.2 10 0.97 810 13 0.11 1 1350 4 2.02 <2 4 102 <0.01 <10 <10 27 <10 26CGH-06-099 198.12 201.17 EL06084565 C100881 0.169 0.5 0.62 13 <10 110 0.5 <2 3.5 <0.5 8 11 1260 3.48 <10 1 0.33 10 1.05 945 18 0.12 1 1400 2 1.73 <2 4 116 <0.01 <10 <10 33 <10 34CGH-06-099 201.17 204.22 EL06084565 C100882 0.306 0.6 0.54 5 <10 40 <0.5 <2 3.77 <0.5 8 2 1755 4.13 <10 1 0.28 10 1.18 877 106 0.1 2 1250 <2 2.15 <2 4 76 <0.01 <10 <10 38 <10 43CGH-06-099 204.22 207.26 EL06084565 C100883 0.303 0.6 0.55 11 <10 160 <0.5 <2 2.61 <0.5 8 2 1730 2.88 <10 <1 0.29 10 0.87 533 51 0.09 1 1230 <2 1.86 <2 3 55 <0.01 <10 <10 31 <10 27CGH-06-099 207.26 210.31 EL06084565 C100884 0.390 0.5 0.59 9 <10 70 <0.5 <2 2.17 <0.5 7 9 2110 2.63 <10 1 0.29 10 0.77 470 34 0.09 3 1080 4 1.49 2 3 64 <0.01 <10 <10 34 <10 27CGH-06-099 210.31 213.36 EL06084565 C100885 1.210 1.45 2.1 0.49 11 <10 20 <0.5 <2 2.6 <0.5 12 1 5660 3.59 <10 <1 0.27 <10 0.83 760 74 0.08 2 1150 7 3.21 3 3 65 <0.01 <10 <10 18 <10 34CGH-06-099 213.36 216.41 EL06084565 C100886 1.535 1.53 7.8 0.27 52 <10 40 <0.5 15 2.72 <0.5 12 3 7080 4.09 <10 1 0.17 10 0.78 1020 54 0.08 2 1120 10 3.57 4 3 71 <0.01 <10 <10 20 <10 21CGH-06-099 213.36 216.41 EL06084565 C100887 1.545 1.44 7.7 0.26 54 <10 30 <0.5 <2 2.65 <0.5 13 2 6880 4.01 <10 <1 0.16 10 0.76 982 52 0.07 4 1110 10 3.5 4 3 68 <0.01 <10 <10 19 <10 22CGH-06-099 216.41 219.46 EL06084565 C100888 1.420 1.5 3.0 0.46 12 <10 100 <0.5 <2 3.25 <0.5 16 2 5680 3.38 <10 <1 0.27 10 1.01 1310 31 0.09 3 1280 7 2.77 2 4 74 <0.01 <10 <10 14 <10 19CGH-06-099 219.46 222.50 EL06084565 C100889 0.639 1.5 0.48 48 <10 20 <0.5 <2 3.41 <0.5 14 1 2280 4.36 <10 <1 0.27 <10 1.1 1780 88 0.08 5 1140 7 4.15 3 4 64 <0.01 <10 <10 15 <10 15CGH-06-099 222.50 225.55 EL06084565 C100890 0.185 0.6 0.48 11 <10 90 <0.5 <2 2.67 <0.5 10 7 929 3.25 <10 1 0.28 10 0.83 973 43 0.08 1 1100 5 2.09 2 3 78 <0.01 <10 <10 23 <10 24CGH-06-099 225.55 228.60 EL06084565 C100891 <0.005 0.5 0.47 15 <10 30 <0.5 <2 2.31 <0.5 11 1 1480 3.55 <10 <1 0.26 10 0.73 778 45 0.09 4 990 8 2.42 2 2 73 <0.01 <10 <10 24 <10 24CGH-06-099 228.60 231.65 EL06084565 C100892 <0.005 0.2 0.31 6 <10 70 <0.5 <2 2.61 0.6 9 1 364 3.31 <10 1 0.18 10 0.86 747 20 0.11 2 1110 4 2.29 2 3 90 <0.01 <10 <10 23 <10 78CGH-06-099 231.65 234.70 EL06084565 C100893 0.113 <0.2 0.7 <2 <10 70 <0.5 <2 2.55 <0.5 14 4 473 4.64 <10 <1 0.3 10 1.27 558 4 0.11 4 1600 3 1.64 3 7 91 <0.01 <10 <10 78 <10 27CGH-06-099 234.70 237.74 EL06084565 C100894 0.114 0.3 0.61 2 <10 40 <0.5 <2 2.27 <0.5 10 1 536 3.99 <10 <1 0.29 <10 0.9 560 6 0.11 2 1270 4 2.01 2 5 89 <0.01 <10 <10 43 <10 25CGH-06-099 237.74 240.79 EL06084565 C100895 0.102 0.2 0.32 14 <10 130 <0.5 <2 2.51 <0.5 7 1 438 2.77 <10 <1 0.21 10 0.76 745 9 0.09 1 1020 5 1.59 2 3 69 <0.01 <10 <10 17 <10 23CGH-06-099 240.79 243.84 EL06084565 C100896 0.165 0.5 0.62 4 <10 40 <0.5 <2 2.5 1 7 8 695 3.69 <10 2 0.28 10 0.85 614 32 0.1 1 940 5 3.24 <2 2 77 <0.01 <10 <10 19 <10 152CGH-06-099 243.84 246.89 EL06084565 C100897 0.139 0.4 0.54 13 <10 30 <0.5 <2 2.06 <0.5 8 2 697 2.84 <10 1 0.29 10 0.73 592 16 0.1 2 970 4 1.99 3 2 108 <0.01 <10 <10 16 <10 40CGH-06-099 BLANK EL06084565 C100898 0.007 0.2 0.53 8 <10 140 0.5 <2 2.93 <0.5 16 1 118 2.76 <10 1 0.23 10 0.53 1110 1 0.14 7 1530 4 0.69 2 7 124 <0.01 <10 <10 38 <10 43CGH-06-099 246.89 249.94 EL06084565 C100899 0.073 0.2 0.63 7 <10 50 <0.5 <2 2.4 <0.5 8 9 412 3.44 <10 2 0.29 10 1.02 749 3 0.1 3 1110 3 2.56 3 3 87 <0.01 <10 <10 28 <10 17CGH-06-099 249.94 252.98 EL06084565 C100900 0.081 0.2 0.6 9 <10 50 <0.5 <2 1.78 <0.5 7 2 347 3.24 <10 <1 0.26 <10 0.98 428 7 0.1 3 1210 4 2.42 2 4 86 <0.01 <10 <10 38 <10 17CGH-06-099 252.98 256.03 EL06084565 C100901 0.095 0.2 1.02 11 <10 40 <0.5 <2 1.42 <0.5 13 2 306 5.67 <10 <1 0.14 <10 1.73 504 15 0.07 3 1530 5 3.5 5 7 58 <0.01 <10 <10 85 <10 33CGH-06-099 256.03 259.08 EL06084565 C100902 0.196 0.2 0.81 5 <10 40 <0.5 <2 1.74 <0.5 7 6 413 3.51 <10 <1 0.25 10 1.08 463 12 0.09 1 1210 6 1.76 4 4 70 <0.01 <10 <10 50 <10 31CGH-06-099 259.08 262.13 EL06084565 C100903 1.230 1.29 1.0 0.46 59 <10 10 <0.5 <2 2.23 <0.5 16 <1 651 7.21 <10 <1 0.26 <10 0.76 531 15 0.06 3 890 6 7.64 2 2 58 <0.01 <10 <10 16 <10 28CGH-06-099 262.13 265.18 EL06084565 C100904 0.165 0.3 0.63 11 10 40 <0.5 <2 2.41 <0.5 7 1 579 3.05 <10 1 0.32 10 0.8 594 24 0.09 3 1010 5 1.73 3 3 71 <0.01 <10 <10 27 <10 22CGH-06-099 265.18 268.22 EL06084565 C100905 0.429 0.6 0.51 17 10 40 <0.5 <2 2.73 <0.5 10 6 1420 3.17 <10 1 0.26 <10 0.94 635 66 0.09 7 1280 6 2.69 4 4 73 <0.01 <10 <10 36 <10 32CGH-06-099 268.22 271.27 EL06084565 C100906 0.227 0.5 0.54 12 10 40 <0.5 <2 1.77 <0.5 11 4 589 2.04 <10 <1 0.25 <10 0.53 590 222 0.05 8 1750 2 1.79 3 2 55 <0.01 <10 <10 20 <10 15CGH-06-099 271.27 274.32 EL06084565 C100907 0.378 1.2 0.56 31 <10 10 <0.5 <2 1.52 <0.5 20 4 2010 4.36 <10 <1 0.25 <10 0.5 613 128 0.04 16 750 5 4.45 6 2 52 <0.01 <10 <10 16 <10 30CGH-06-099 274.32 277.37 EL06084565 C100908 0.213 0.6 0.51 17 <10 20 <0.5 <2 2.43 <0.5 19 11 1010 4.17 <10 1 0.26 <10 0.8 859 58 0.05 16 1050 6 4.12 3 4 61 <0.01 <10 <10 16 <10 32CGH-06-099 Standard 5 EL06084565 C100909 0.129 0.3 1.54 5 <10 160 <0.5 <2 1.2 <0.5 22 985 1490 4.16 <10 <1 0.21 10 0.75 583 15 0.12 813 630 5 0.95 3 4 70 0.11 <10 <10 61 <10 52CGH-06-099 277.37 280.42 EL06084565 C100910 0.096 0.3 0.62 7 10 10 <0.5 <2 2.4 <0.5 9 1 628 4.34 <10 <1 0.31 10 0.76 757 8 0.08 2 1490 2 3.86 <2 3 73 <0.01 <10 <10 19 <10 25CGH-06-102 21.34 24.38 EL06078318 C100911 0.252 1.0 0.67 9 10 20 <0.5 <2 3.24 <0.5 13 9 3920 5.45 <10 1 0.42 <10 0.91 1740 9 0.03 1 1690 7 2.3 3 5 59 <0.01 <10 <10 24 <10 83CGH-06-102 24.38 27.43 EL06078318 C100912 0.127 0.7 0.69 4 10 40 <0.5 <2 3.25 <0.5 11 2 3310 4.93 <10 1 0.43 <10 0.94 1480 6 0.03 2 1270 6 1.69 4 5 56 <0.01 10 <10 26 <10 85CGH-06-102 27.43 30.48 EL06078318 C100913 0.151 1.0 0.81 31 10 50 <0.5 <2 3.54 <0.5 13 4 2340 4.44 <10 1 0.48 10 0.99 1000 33 0.04 3 1600 9 2.19 3 5 80 <0.01 <10 <10 24 <10 72CGH-06-102 30.48 33.53 EL06078318 C100914 0.089 1.5 0.84 23 10 20 <0.5 <2 2.57 <0.5 12 2 1150 4.04 <10 1 0.49 <10 0.66 846 10 0.03 3 1280 8 3.58 8 3 59 <0.01 <10 <10 15 <10 76CGH-06-102 33.53 36.58 EL06078318 C100915 0.031 0.8 0.37 17 <10 10 <0.5 <2 2.62 <0.5 10 3 82 3.88 <10 <1 0.21 <10 0.62 504 2 0.04 3 990 21 4 9 2 76 <0.01 <10 <10 8 <10 32CGH-06-102 36.58 39.62 EL06078318 C100916 0.073 0.3 0.83 12 10 10 <0.5 <2 3.45 <0.5 10 5 539 3.92 <10 1 0.45 <10 0.69 648 3 0.04 3 1090 4 4.15 3 2 87 <0.01 <10 <10 12 <10 21CGH-06-102 39.62 42.67 EL06078318 C100917 0.019 0.3 0.71 13 10 10 <0.5 <2 3.28 <0.5 9 3 90 3.99 <10 <1 0.41 <10 0.75 747 2 0.05 3 1000 6 4.16 3 3 78 <0.01 10 <10 11 <10 18CGH-06-102 42.67 45.72 EL06078318 C100918 0.150 0.4 0.41 22 <10 30 <0.5 <2 3.76 <0.5 7 5 654 2.78 <10 <1 0.23 <10 0.96 816 43 0.06 11 1360 5 1.81 <2 4 111 <0.01 <10 <10 24 <10 26CGH-06-102 45.72 48.78 EL06078318 C100919 0.029 0.2 0.86 9 10 180 0.5 <2 4.25 <0.5 8 2 192 2.8 <10 <1 0.4 <10 1.08 917 16 0.11 4 1290 6 0.73 <2 6 128 <0.01 <10 <10 32 <10 31CGH-06-102 45.72 48.78 EL06078318 C100920 0.027 0.2 0.82 16 10 190 0.6 <2 4.44 <0.5 8 2 264 2.96 <10 <1 0.4 <10 1.14 942 14 0.11 4 1360 3 0.76 <2 6 135 <0.01 <10 <10 36 <10 30CGH-06-102 48.78 51.82 EL06078318 C100921 0.062 0.2 0.45 9 <10 90 0.5 <2 4.11 <0.5 12 2 516 3.15 <10 <1 0.21 <10 1.17 958 42 0.1 8 1360 6 1.42 <2 8 108 <0.01 <10 <10 33 <10 34CGH-06-102 51.82 54.86 EL06078318 C100922 0.031 <0.2 0.9 3 <10 190 0.6 <2 4.83 <0.5 9 2 197 3.23 <10 <1 0.38 10 1.19 1030 3 0.11 3 1280 4 0.82 <2 6 161 <0.01 <10 <10 37 <10 38CGH-06-102 54.86 57.91 EL06078318 C100923 0.026 <0.2 0.86 7 <10 350 0.5 <2 4.37 <0.5 8 <1 123 3.65 <10 1 0.3 10 1.17 949 1 0.1 1 1350 4 0.51 <2 5 173 <0.01 <10 <10 55 <10 43CGH-06-102 57.91 60.96 EL06078318 C100924 0.022 0.3 0.83 9 10 110 0.5 <2 3.78 <0.5 12 1 78 3.83 <10 <1 0.39 <10 1.05 848 3 0.09 2 1320 5 2.21 <2 4 125 <0.01 <10 <10 37 <10 33CGH-06-102 60.96 64.01 EL06078318 C100925 0.195 1.1 0.9 55 10 40 0.5 <2 3.27 <0.5 23 4 965 4 <10 <1 0.46 <10 1 863 48 0.1 10 1250 7 2.86 <2 5 102 <0.01 <10 <10 37 <10 62CGH-06-102 64.01 67.06 EL06078318 C100926 0.093 0.5 0.89 37 <10 40 0.5 <2 5.4 <0.5 13 3 500 3.54 <10 <1 0.29 <10 1.01 1040 51 0.11 7 1100 6 2.37 <2 10 160 <0.01 <10 <10 43 <10 40CGH-06-102 67.06 70.10 EL06078318 C100927 0.041 0.4 0.42 12 <10 80 0.5 <2 4.63 <0.5 13 2 577 3.36 <10 <1 0.17 <10 1.41 1100 25 0.11 6 1220 3 1.86 13 8 162 <0.01 <10 <10 40 <10 52CGH-06-102 70.10 73.15 EL06078318 C100928 0.066 0.4 0.74 16 <10 50 <0.5 <2 7.66 <0.5 18 6 889 3.4 <10 <1 0.22 <10 0.88 1045 66 0.1 16 920 5 2.46 5 8 240 <0.01 <10 <10 41 <10 54CGH-06-102 73.15 76.20 EL06078318 C100929 0.077 0.5 0.82 26 10 30 0.5 <2 5.43 <0.5 19 3 781 3.81 <10 <1 0.24 <10 1.09 1055 67 0.12 15 1630 5 2.91 3 8 198 <0.01 <10 <10 47 <10 52CGH-06-102 76.20 79.25 EL06078318 C100930 0.052 0.4 0.78 18 10 60 0.6 <2 4.9 <0.5 18 3 461 4.05 <10 <1 0.33 <10 1.35 876 87 0.13 16 1420 4 3.16 <2 9 153 <0.01 <10 <10 31 <10 59CGH-06-102 Standard 2 EL06078318 C100931 0.893 2.9 0.85 14 10 60 <0.5 4 1.68 <0.5 29 1580 >10000 10.85 <10 1 0.42 <10 0.79 1045 29 0.04 1200 620 9 3.56 6 5 61 0.01 <10 <10 56 <10 84 1.19
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-102 79.25 82.05 EL06078318 C100932 0.106 0.7 0.67 27 10 50 <0.5 <2 3.26 <0.5 16 16 695 3 <10 <1 0.29 <10 1 632 79 0.1 20 1120 2 2.31 <2 7 73 <0.01 <10 <10 34 <10 32CGH-06-102 82.05 83.83 EL06078318 C100933 0.561 3.8 0.71 24 <10 320 0.5 <2 3.56 <0.5 5 3 2560 3.46 <10 <1 0.36 <10 1.02 1120 7 0.13 4 1320 4 0.88 <2 8 84 <0.01 <10 <10 29 <10 51CGH-06-102 83.83 86.14 EL06078318 C100934 0.034 0.3 0.54 14 <10 100 <0.5 <2 5.07 <0.5 28 65 137 5.52 <10 1 0.13 <10 2 1175 1 0.13 58 750 8 0.73 <2 21 520 <0.01 <10 <10 113 <10 87CGH-06-103 21.34 24.38 EL06078317 C098747 0.013 0.9 0.61 4 <10 340 0.5 <2 4.37 0.5 8 1 218 4.07 <10 <1 0.36 10 0.73 1755 1 0.01 4 1570 4 0.91 6 5 149 <0.01 10 <10 36 <10 111CGH-06-103 24.38 27.43 EL06078317 C098748 0.012 0.8 0.36 16 <10 110 <0.5 <2 4.39 <0.5 8 1 50 3.66 <10 <1 0.25 10 0.9 1775 <1 0.01 3 1400 5 1.37 2 3 129 <0.01 <10 <10 29 <10 123CGH-06-103 27.43 30.48 EL06078317 C098749 0.106 1.2 0.48 21 <10 50 <0.5 <2 4.59 <0.5 9 2 1680 3.82 <10 <1 0.35 10 0.67 2100 <1 0.02 2 1120 6 1.53 5 3 139 <0.01 <10 <10 20 <10 64CGH-06-103 30.48 33.53 EL06078317 C098750 0.371 9.1 0.42 61 <10 20 <0.5 <2 3.58 1.1 11 3 3340 4.76 <10 <1 0.32 <10 0.85 2470 <1 0.01 4 910 10 2.77 103 3 101 <0.01 <10 <10 15 <10 62CGH-06-103 33.53 36.58 EL06078317 C098751 0.211 2.5 0.51 19 <10 40 <0.5 <2 3.25 0.5 13 2 2520 5.3 <10 <1 0.39 <10 0.64 2430 1 0.02 1 1210 4 2.37 8 4 102 <0.01 <10 <10 24 <10 66CGH-06-103 36.58 39.62 EL06078317 C098752 0.218 2.5 0.3 34 <10 20 <0.5 <2 2.84 <0.5 18 1 2590 5.41 <10 <1 0.26 <10 0.63 2420 <1 0.02 2 1020 6 3.48 9 4 90 <0.01 <10 <10 19 <10 55CGH-06-103 39.62 42.67 EL06078317 C098753 0.141 2.3 0.54 30 <10 40 <0.5 <2 3.3 0.9 10 2 1910 3.88 <10 <1 0.38 <10 0.71 1980 <1 0.05 3 1220 7 2.23 27 3 165 <0.01 <10 <10 21 <10 116CGH-06-103 Standard 2 EL06078317 C098754 0.963 2.8 0.9 11 <10 50 <0.5 5 1.69 <0.5 29 1575 >10000 11.3 <10 1 0.45 <10 0.8 1045 28 0.03 1240 680 13 3.58 5 5 65 0.01 <10 <10 57 10 86 1.17CGH-06-103 42.67 45.72 EL06078317 C098755 0.204 1.9 0.36 16 <10 30 <0.5 <2 3.57 0.6 12 3 1450 4.4 <10 1 0.25 <10 0.85 1755 <1 0.05 5 1160 5 2.98 12 4 153 <0.01 <10 <10 22 <10 80CGH-06-103 45.72 48.77 EL06078317 C098756 0.121 1.2 0.97 <2 <10 660 <0.5 <2 5.21 <0.5 9 2 1900 3.23 <10 <1 0.31 10 0.82 1500 1 0.09 <1 1160 4 0.53 3 5 225 <0.01 <10 <10 51 <10 95CGH-06-103 48.77 51.82 EL06078317 C098757 0.052 0.6 1.66 3 10 310 <0.5 <2 3.14 <0.5 9 2 871 3.81 <10 <1 0.35 10 1.2 1720 1 0.1 2 1260 6 0.97 2 4 156 <0.01 <10 <10 53 <10 139CGH-06-103 51.82 54.86 EL06078317 C098758 0.029 0.3 1.77 <2 10 250 0.5 <2 4.26 <0.5 9 2 286 3.61 <10 <1 0.33 10 1.09 1800 <1 0.11 <1 1390 4 0.49 3 5 157 <0.01 <10 <10 51 <10 153CGH-06-103 54.86 57.91 EL06078317 C098759 0.064 0.4 1.54 <2 10 270 0.5 <2 3.9 <0.5 6 2 708 2.9 <10 <1 0.36 10 0.92 1395 1 0.12 1 1370 5 0.33 <2 5 154 <0.01 10 <10 48 <10 102CGH-06-103 57.91 60.96 EL06078317 C098760 0.180 0.9 1.47 4 <10 330 <0.5 <2 3.44 <0.5 10 3 1990 3.57 <10 <1 0.35 10 1.06 1045 6 0.11 3 1380 8 0.66 4 5 183 <0.01 <10 <10 63 <10 79CGH-06-103 60.96 64.01 EL06078317 C098761 0.360 1.2 1.68 <2 <10 290 <0.5 <2 3.06 <0.5 14 3 3110 4.33 10 <1 0.37 10 1.24 888 1 0.11 1 1470 5 1.06 <2 5 131 0.01 <10 <10 77 <10 80CGH-06-103 64.01 67.06 EL06078317 C098762 0.274 1.6 1.48 5 <10 50 <0.5 <2 3.51 <0.5 12 2 2820 4.29 <10 1 0.33 <10 1.09 1145 <1 0.1 2 1220 2 1.73 <2 4 164 <0.01 <10 <10 54 <10 100CGH-06-103 67.06 70.10 EL06078317 C098763 0.364 2.5 1.27 4 <10 30 <0.5 <2 3.62 <0.5 15 2 3950 5.24 <10 <1 0.24 <10 1.02 1485 <1 0.08 <1 1220 4 3.01 <2 5 162 <0.01 <10 <10 55 <10 115CGH-06-103 70.10 73.15 EL06078317 C098764 0.224 1.3 1.54 <2 <10 70 <0.5 <2 2.9 <0.5 11 2 2430 4.67 10 <1 0.29 <10 1.07 1145 <1 0.08 2 1240 8 1.44 5 5 143 <0.01 <10 <10 69 <10 99CGH-06-103 70.10 73.15 EL06078317 C098765 0.279 1.4 1.36 6 <10 100 <0.5 <2 2.73 0.5 11 3 2650 4.47 <10 1 0.21 10 1.05 1110 <1 0.07 2 1210 6 1.51 2 5 137 <0.01 <10 <10 61 <10 96CGH-06-103 73.15 76.20 EL06078317 C098766 0.090 1.2 1.42 6 <10 70 <0.5 <2 3.74 <0.5 9 2 935 3.73 <10 <1 0.33 10 0.94 1545 <1 0.07 2 1240 5 1.27 <2 4 170 <0.01 <10 <10 45 <10 95CGH-06-103 76.20 79.25 EL06078317 C098767 0.455 1.9 1.52 8 <10 240 <0.5 <2 2.64 <0.5 17 2 4300 4.96 10 <1 0.21 10 1.19 1325 2 0.06 1 1200 3 1.23 <2 5 115 <0.01 <10 <10 71 <10 119CGH-06-103 79.25 82.30 EL06078317 C098768 0.378 2.9 1.4 7 <10 120 <0.5 <2 3.96 <0.5 17 2 3800 4.49 <10 <1 0.35 10 1.01 1750 4 0.07 4 1160 4 1.54 <2 4 173 <0.01 <10 <10 53 <10 98CGH-06-103 82.30 85.34 EL06078317 C098769 0.650 4.9 0.75 5 <10 130 <0.5 <2 3.94 <0.5 19 3 6520 4.06 <10 <1 0.27 10 0.96 1690 4 0.07 2 1150 3 1.55 <2 4 181 <0.01 <10 <10 41 <10 78CGH-06-103 85.34 88.39 EL06078317 C098770 0.357 2.2 0.85 5 <10 110 <0.5 <2 3.07 <0.5 16 2 4070 3.52 <10 <1 0.35 10 0.78 1260 7 0.09 1 1160 4 1.65 <2 4 197 <0.01 <10 <10 39 <10 75CGH-06-103 88.39 91.44 EL06078317 C098771 0.157 1.8 1.29 3 <10 70 <0.5 <2 2.99 <0.5 13 2 2290 4.16 <10 <1 0.26 10 1.15 1380 1 0.07 4 1270 2 1.47 2 4 303 <0.01 <10 <10 61 <10 109CGH-06-103 91.44 94.49 EL06078317 C098772 0.157 1.2 1.33 10 <10 70 <0.5 <2 2.61 <0.5 11 2 2170 3.79 <10 <1 0.29 <10 1.05 955 12 0.07 3 1320 6 1.38 <2 4 253 <0.01 <10 <10 56 <10 74CGH-06-103 94.49 97.54 EL06078317 C098773 0.222 4.9 1.3 48 <10 40 <0.5 <2 3.23 <0.5 12 2 2670 3.65 <10 <1 0.4 10 0.82 1500 6 0.07 2 1410 7 1.95 <2 4 185 <0.01 <10 <10 39 <10 72CGH-06-103 97.54 100.58 EL06078317 C098774 0.351 7.9 1.15 24 <10 80 <0.5 <2 3.04 <0.5 15 2 4190 3.74 <10 <1 0.37 10 0.95 1570 1 0.07 2 1310 4 1.44 <2 5 173 <0.01 <10 <10 48 <10 65CGH-06-103 100.58 103.63 EL06078317 C098775 0.182 3.9 0.49 29 <10 70 <0.5 <2 4.42 2.5 11 1 2330 3.15 <10 <1 0.27 10 0.74 2190 5 0.05 2 1240 8 1.67 4 4 172 <0.01 <10 <10 23 <10 262CGH-06-103 Standard 6 EL06078317 C098776 0.254 0.7 1.06 11 10 40 <0.5 <2 3.01 0.7 15 415 3240 6.45 <10 <1 0.36 <10 1.18 814 10 0.05 334 1240 17 3.29 8 8 200 <0.01 <10 <10 58 <10 124CGH-06-103 103.63 106.68 EL06078317 C098777 0.129 1.5 0.62 22 <10 630 0.5 <2 4.67 <0.5 5 2 761 1.99 <10 <1 0.36 10 0.57 2860 <1 0.08 1 1320 6 0.5 2 4 215 <0.01 <10 <10 16 <10 42CGH-06-103 106.68 109.73 EL06078317 C098778 0.268 9.7 0.32 55 <10 50 <0.5 <2 3.97 <0.5 18 3 4050 3.41 <10 <1 0.26 <10 0.84 2180 6 0.05 4 1070 11 2.36 4 3 139 <0.01 <10 <10 13 <10 46CGH-06-103 109.73 112.78 EL06078317 C098779 0.260 6.5 0.59 36 <10 60 <0.5 <2 3.75 0.7 13 2 2890 3.72 <10 <1 0.39 <10 0.76 2410 3 0.07 4 1370 5 1.89 2 5 163 <0.01 <10 <10 26 <10 107CGH-06-103 112.78 115.82 EL06078317 C098780 0.454 3.1 1.22 23 <10 110 <0.5 <2 3.58 0.8 12 1 2940 6.09 <10 <1 0.26 <10 0.93 1795 18 0.06 <1 1280 2 2.02 2 6 142 <0.01 <10 <10 77 <10 146CGH-06-103 115.82 118.87 EL06078317 C098781 0.491 2.7 1.5 <2 <10 80 <0.5 <2 3.66 0.9 11 2 3140 4.89 <10 <1 0.33 <10 0.93 1600 3 0.07 4 1210 8 1.6 2 6 146 <0.01 <10 <10 70 <10 166CGH-06-103 118.87 121.92 EL06078317 C098782 0.620 4.8 1.72 37 <10 80 <0.5 <2 3.17 1.1 10 1 3820 5.14 <10 <1 0.25 <10 1.18 2230 3 0.03 1 1160 4 2.36 <2 4 108 <0.01 <10 <10 52 <10 205CGH-06-103 121.92 124.97 EL06078317 C098783 0.640 2.1 1.31 20 <10 70 <0.5 <2 3.33 <0.5 13 2 2680 5.03 <10 <1 0.28 <10 1.04 1390 3 0.07 2 1050 5 2.1 <2 4 132 <0.01 <10 <10 62 <10 99CGH-06-103 124.97 128.02 EL06078317 C098784 0.251 1.2 0.92 16 <10 140 <0.5 <2 3.42 1.7 11 2 1600 3.77 <10 <1 0.26 <10 0.82 1515 6 0.09 2 1160 <2 2.04 <2 4 150 <0.01 <10 <10 43 <10 217CGH-06-103 128.02 131.06 EL06078317 C098785 0.252 1.1 1.03 5 10 80 <0.5 <2 4.22 <0.5 11 1 1700 3.84 <10 <1 0.32 10 0.74 1345 6 0.09 1 1200 2 2.27 <2 4 174 <0.01 <10 <10 32 <10 97CGH-06-103 131.06 134.11 EL06078317 C098786 1.105 1.08 1.3 0.9 4 <10 160 <0.5 <2 3.75 <0.5 11 2 3220 4.29 <10 <1 0.22 <10 0.81 1145 5 0.08 1 950 2 1.62 <2 4 138 <0.01 <10 <10 41 <10 70CGH-06-103 131.06 134.11 EL06078317 C098787 1.110 1.1 1.4 0.9 2 <10 180 <0.5 <2 3.77 <0.5 11 2 3240 4.28 <10 <1 0.22 <10 0.81 1145 5 0.08 <1 960 3 1.63 <2 4 138 <0.01 <10 <10 41 <10 71CGH-06-103 134.11 137.16 EL06078317 C098788 0.790 1.4 1.28 <2 <10 80 <0.5 <2 2.38 <0.5 14 2 3010 4.9 10 <1 0.26 <10 0.88 619 3 0.08 1 1050 <2 1.99 <2 5 113 <0.01 <10 <10 56 <10 77CGH-06-103 137.16 140.21 EL06078317 C098789 0.755 1.6 1.45 <2 <10 80 <0.5 <2 2.92 2.7 13 2 3380 5 10 <1 0.28 <10 0.98 798 8 0.08 1 1090 <2 2.23 <2 5 115 <0.01 <10 <10 65 <10 365CGH-06-103 140.21 143.26 EL06078317 C098790 0.664 2.0 1.37 2 <10 130 <0.5 <2 2.82 12.3 11 2 4010 4.78 10 <1 0.27 <10 0.88 939 4 0.08 <1 960 3 2.11 <2 5 108 <0.01 <10 <10 57 <10 1430CGH-06-103 143.26 146.30 EL06078317 C098791 0.445 1.1 1.22 <2 <10 170 <0.5 <2 2.92 <0.5 9 2 2640 4.92 10 <1 0.21 <10 0.93 743 2 0.09 1 1190 3 1.66 <2 7 115 <0.01 <10 <10 75 <10 73CGH-06-103 146.30 149.35 EL06078317 C098792 0.388 1.5 1.46 3 <10 120 <0.5 <2 2.41 <0.5 9 2 2620 4.49 10 <1 0.24 <10 1.13 1060 6 0.08 1 1150 2 1.91 <2 5 106 <0.01 <10 <10 73 <10 92CGH-06-103 149.35 152.40 EL06078317 C098793 0.320 1.1 1.44 4 <10 160 <0.5 <2 2.67 <0.5 10 2 2020 3.99 <10 <1 0.21 <10 1.21 1005 6 0.09 2 1290 2 1.36 <2 5 115 <0.01 <10 <10 78 <10 91CGH-06-103 152.40 154.31 EL06078317 C098794 0.106 1.5 1.69 42 <10 120 <0.5 <2 3.66 9.4 12 15 1030 4.26 <10 1 0.26 <10 1.65 1450 9 0.06 11 1130 55 2.22 2 5 132 <0.01 <10 <10 52 <10 646CGH-06-103 154.31 156.20 EL06078317 C098795 <0.005 0.5 3.75 5 <10 450 <0.5 <2 6.89 <0.5 24 175 101 5.62 10 <1 0.09 10 3.74 1660 <1 0.06 110 1140 3 0.09 10 13 181 0.01 <10 <10 100 <10 282CGH-06-103 156.20 158.50 EL06078317 C098796 0.096 0.9 1.26 3 <10 190 <0.5 <2 2.77 <0.5 10 3 634 3.56 <10 <1 0.27 10 1.31 1175 6 0.09 3 1320 3 1.66 <2 5 153 <0.01 <10 <10 51 <10 84CGH-06-103 158.50 161.54 EL06078317 C098797 0.117 2.7 1.01 29 <10 50 <0.5 <2 2.81 <0.5 23 3 1090 4.03 <10 <1 0.36 <10 0.85 871 48 0.09 5 1140 25 2.82 7 4 160 <0.01 <10 <10 31 <10 69CGH-06-103 BLANK EL06078317 C098798 0.024 0.3 0.9 32 <10 190 <0.5 <2 3.51 5.1 13 1 81 3.93 <10 <1 0.32 10 0.58 1375 1 0.12 4 1580 2 1.31 <2 6 128 <0.01 <10 <10 33 <10 584CGH-06-103 161.54 164.59 EL06078317 C098799 0.089 1.1 0.75 16 <10 80 <0.5 <2 3.4 <0.5 14 9 709 3.8 <10 <1 0.31 <10 1.09 1245 41 0.08 9 1150 5 2.65 <2 5 187 <0.01 <10 <10 34 <10 69CGH-06-103 164.59 167.64 EL06078317 C098800 0.126 1.8 0.46 29 <10 70 <0.5 <2 3.63 <0.5 15 10 928 4.39 <10 <1 0.21 <10 1.05 1350 33 0.08 9 1240 4 3.53 <2 4 171 <0.01 <10 <10 28 <10 74CGH-06-104 60.96 64.01 EL06078318 C100935 0.021 0.3 0.94 15 10 370 0.6 <2 6.49 <0.5 19 32 233 4.38 <10 4 0.41 <10 1.39 2000 3 0.13 35 1380 9 1.02 4 10 295 <0.01 <10 <10 55 <10 73CGH-06-104 64.01 67.06 EL06078318 C100936 0.016 0.3 0.92 8 10 390 0.7 <2 6.68 <0.5 17 36 225 4.11 <10 7 0.41 <10 1.01 2080 1 0.14 35 1700 9 0.55 2 10 263 <0.01 <10 <10 72 <10 71CGH-06-104 67.06 69.20 EL06078318 C100937 0.058 0.3 0.46 6 <10 320 0.5 <2 10.55 <0.5 20 42 209 5.12 <10 13 0.22 <10 2.02 3570 <1 0.11 31 1280 10 0.52 7 10 438 <0.01 <10 <10 67 <10 81CGH-06-104 69.20 71.20 EL06078318 C100938 0.007 0.3 0.56 5 10 710 0.8 <2 2.89 <0.5 12 17 90 4.27 <10 2 0.22 <10 0.86 985 <1 0.17 18 1060 5 0.4 4 10 354 <0.01 <10 <10 49 <10 86CGH-06-104 71.20 73.15 EL06078318 C100939 0.007 0.4 0.76 8 10 750 0.5 <2 3.33 <0.5 13 15 29 4.28 <10 1 0.24 <10 0.85 819 <1 0.12 21 720 7 0.32 4 8 319 <0.01 <10 <10 59 <10 87CGH-06-104 73.15 76.20 EL06078318 C100940 0.055 1.3 0.36 26 <10 60 <0.5 <2 3.35 <0.5 22 9 760 4.37 <10 <1 0.17 <10 0.95 1090 34 0.09 30 600 7 2.14 6 8 249 <0.01 <10 <10 35 <10 66CGH-06-104 76.20 79.25 EL06078318 C100941 0.076 1.5 0.67 26 <10 80 <0.5 <2 3.4 <0.5 11 11 801 2.9 <10 <1 0.32 <10 0.96 1350 30 0.06 16 1170 8 1.49 5 6 108 <0.01 <10 <10 31 <10 85CGH-06-104 76.20 79.25 EL06078318 C100942 0.116 1.6 0.6 63 <10 20 <0.5 <2 3.15 <0.5 12 10 735 4.16 <10 <1 0.32 <10 0.83 972 19 0.04 14 1300 4 3.42 15 6 122 <0.01 <10 <10 27 <10 33CGH-06-104 79.25 82.30 EL06078318 C100943 0.092 1.6 0.7 66 <10 20 <0.5 <2 3.44 <0.5 13 13 664 4.54 <10 <1 0.35 <10 0.92 1105 22 0.04 19 1350 5 3.62 16 7 127 <0.01 <10 <10 32 <10 39CGH-06-104 82.30 85.34 EL06078318 C100944 0.081 0.8 0.78 42 10 20 <0.5 <2 4.79 <0.5 20 5 536 5.48 <10 <1 0.37 <10 1.27 1330 6 0.04 6 1680 2 4.69 <2 9 192 <0.01 <10 <10 54 <10 44CGH-06-104 85.34 88.39 EL06078318 C100945 0.094 1.0 0.74 24 10 20 <0.5 <2 5.5 <0.5 23 1 603 4.9 <10 <1 0.39 <10 0.78 1235 11 0.04 3 1950 <2 4.59 7 9 171 <0.01 <10 <10 41 <10 25CGH-06-104 88.39 91.44 EL06078318 C100946 0.133 0.9 0.38 23 10 20 <0.5 <2 4.17 <0.5 25 1 541 6.42 <10 <1 0.21 <10 1.27 1110 7 0.03 3 1800 3 5.93 2 7 160 <0.01 <10 <10 47 <10 46CGH-06-104 91.44 94.49 EL06078318 C100947 0.108 0.9 0.74 104 10 20 <0.5 <2 1.66 <0.5 14 7 182 4.53 <10 <1 0.44 <10 0.43 824 3 0.03 5 1520 4 4.78 <2 5 120 <0.01 <10 <10 21 <10 17CGH-06-104 94.49 97.54 EL06078318 C100948 0.123 0.5 0.73 61 10 20 <0.5 <2 3.83 <0.5 19 3 393 5.01 <10 <1 0.4 <10 1.3 929 6 0.04 8 2090 4 4.66 2 7 135 <0.01 <10 <10 42 <10 35CGH-06-104 97.54 100.58 EL06078318 C100949 0.081 0.4 0.4 27 <10 20 <0.5 <2 2.79 <0.5 12 1 205 5.06 <10 <1 0.22 <10 0.99 788 <1 0.03 1 1590 2 5.14 <2 3 81 <0.01 <10 <10 26 <10 39CGH-06-104 100.58 103.63 EL06078318 C100950 0.085 0.7 0.79 19 10 20 <0.5 <2 3.59 <0.5 7 2 609 5.06 <10 <1 0.41 10 1.24 1030 1 0.04 <1 1730 3 4.46 <2 4 120 <0.01 <10 <10 35 <10 42CGH-06-104 103.63 106.68 EL06078318 C100951 0.057 0.8 0.65 12 10 30 <0.5 <2 3.28 <0.5 11 2 486 4.07 <10 1 0.33 <10 1.13 1050 14 0.03 1 1240 2 3.74 3 3 95 <0.01 <10 <10 22 <10 37CGH-06-104 106.68 109.73 EL06078318 C100952 0.111 1.3 0.31 38 <10 40 <0.5 <2 2.34 <0.5 11 3 1260 3.1 <10 <1 0.19 10 0.75 729 41 0.03 1 1050 2 2.93 4 2 75 <0.01 <10 <10 8 <10 40CGH-06-104 Standard 6 EL06078318 C100953 0.254 0.7 1.03 14 <10 50 <0.5 <2 2.93 <0.5 15 421 3220 6.27 <10 1 0.33 <10 1.18 795 10 0.07 319 1180 12 3.3 7 8 196 <0.01 <10 <10 58 <10 120CGH-06-104 109.73 112.78 EL06078318 C100954 0.212 3.4 0.7 26 <10 20 <0.5 <2 2.58 1.2 19 8 2700 4.96 <10 <1 0.39 <10 0.82 802 37 0.04 2 1120 4 5.12 7 2 75 <0.01 <10 <10 12 <10 144CGH-06-104 112.78 115.82 EL06078318 C100955 0.158 1.3 0.62 26 10 30 <0.5 <2 3.42 <0.5 10 4 2020 2.86 <10 <1 0.34 <10 0.98 814 24 0.04 1 980 <2 2.49 <2 2 121 <0.01 <10 <10 15 <10 57CGH-06-104 115.82 118.87 EL06078318 C100956 0.069 0.6 0.76 10 10 30 <0.5 <2 3.57 <0.5 10 2 618 3.94 <10 <1 0.38 <10 1.13 881 12 0.05 1 1320 <2 3.5 <2 3 133 <0.01 <10 <10 19 <10 29CGH-06-104 118.87 121.92 EL06078318 C100957 0.058 0.6 0.85 9 10 30 0.5 <2 3.7 <0.5 9 3 395 4.52 <10 <1 0.42 10 1.13 768 <1 0.06 1 1790 2 4.21 <2 4 150 <0.01 <10 <10 36 <10 30CGH-06-104 121.92 124.97 EL06078318 C100958 0.118 1.1 0.76 17 10 20 <0.5 <2 2.63 <0.5 11 2 700 4.56 <10 <1 0.41 <10 0.8 728 7 0.05 1 1710 13 4.54 <2 3 94 <0.01 <10 <10 25 <10 30CGH-06-104 124.97 128.02 EL06078318 C100959 0.300 1.4 0.36 7 <10 30 <0.5 <2 2.05 <0.5 12 4 2070 3.7 <10 <1 0.21 <10 0.62 566 86 0.04 2 1140 4 3.66 <2 2 59 <0.01 <10 <10 12 <10 16CGH-06-104 128.02 131.06 EL06078318 C100960 0.288 1.0 0.79 5 10 30 <0.5 <2 2.36 <0.5 11 7 1770 4.22 <10 <1 0.44 <10 0.81 566 25 0.06 1 1090 <2 3.71 <2 3 82 <0.01 <10 <10 28 <10 21CGH-06-104 131.06 134.11 EL06078318 C100961 0.192 1.5 0.65 21 10 20 <0.5 <2 2.49 <0.5 11 3 1480 4.75 <10 <1 0.38 <10 0.86 868 85 0.05 2 1000 3 4.1 <2 2 73 <0.01 <10 <10 24 <10 21CGH-06-104 134.11 137.16 EL06078318 C100962 0.176 1.4 0.67 12 <10 10 <0.5 <2 2.14 <0.5 15 3 1590 7.78 <10 <1 0.36 <10 0.91 791 27 0.05 3 590 <2 7 <2 2 62 <0.01 <10 <10 32 <10 32
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-104 137.16 140.21 EL06078318 C100963 0.279 2.1 0.3 36 <10 10 <0.5 <2 1.94 <0.5 21 5 2290 6.33 <10 <1 0.19 <10 0.65 671 166 0.03 2 690 5 6.67 2 1 48 <0.01 <10 <10 7 <10 12CGH-06-104 137.16 140.21 EL06078318 C100964 0.283 1.9 0.3 31 <10 10 <0.5 <2 1.95 <0.5 20 5 2310 6.39 <10 <1 0.2 <10 0.66 676 172 0.04 3 720 2 6.71 2 1 48 <0.01 <10 <10 7 <10 12CGH-06-104 140.21 143.25 EL06078318 C100965 0.177 1.6 0.58 15 <10 30 <0.5 <2 1.89 <0.5 12 3 1860 3.47 <10 <1 0.35 <10 0.64 586 97 0.05 2 1060 3 3.31 2 2 62 <0.01 <10 <10 13 <10 26CGH-06-104 143.25 146.30 EL06078318 C100966 0.062 0.9 0.36 28 10 290 <0.5 <2 1.95 <0.5 7 1 440 2.09 <10 <1 0.26 10 0.64 772 30 0.06 1 1300 4 1.11 2 4 87 <0.01 <10 <10 14 <10 59CGH-06-104 146.30 149.35 EL06078318 C100967 0.336 1.5 0.72 39 10 130 <0.5 <2 2.33 <0.5 8 6 1450 2.97 <10 <1 0.43 10 0.77 897 144 0.06 2 1310 2 1.87 3 4 80 <0.01 <10 <10 21 <10 71CGH-06-104 149.35 152.40 EL06078318 C100968 0.337 4.2 0.53 47 10 20 <0.5 <2 2.09 <0.5 14 3 3350 4.33 <10 <1 0.32 <10 0.63 795 83 0.04 3 920 2 4.19 6 2 66 <0.01 <10 <10 8 <10 33CGH-06-104 152.40 155.44 EL06078318 C100969 0.660 3.2 0.53 76 <10 10 <0.5 <2 1.86 <0.5 12 3 3320 6.7 <10 <1 0.3 <10 0.57 588 76 0.04 2 530 4 6.78 2 2 56 <0.01 <10 <10 14 <10 16CGH-06-104 155.44 158.49 EL06078318 C100970 0.533 1.5 0.6 33 10 20 <0.5 <2 3.13 <0.5 9 11 2810 4.46 <10 <1 0.36 <10 0.73 696 21 0.05 2 1140 2 4.12 2 3 104 <0.01 <10 <10 18 <10 15CGH-06-104 158.49 161.54 EL06078318 C100971 0.639 1.3 0.45 64 10 30 <0.5 <2 3.53 <0.5 8 3 2900 3.61 <10 <1 0.3 <10 0.87 760 16 0.04 1 1040 <2 2.45 2 3 116 <0.01 <10 <10 16 <10 19CGH-06-104 161.54 164.59 EL06078318 C100972 0.511 1.2 0.31 69 10 30 <0.5 <2 3.04 <0.5 7 2 2060 3.25 <10 <1 0.21 <10 0.64 618 34 0.05 1 1080 2 2.52 6 3 100 <0.01 <10 <10 10 <10 18CGH-06-104 164.59 167.64 EL06078318 C100973 0.238 1.0 0.33 57 10 50 0.5 <2 3.32 <0.5 20 33 1130 5.12 <10 <1 0.18 <10 1.5 1275 22 0.07 38 680 <2 1.36 2 15 151 <0.01 <10 <10 56 <10 53CGH-06-104 167.64 170.68 EL06078318 C100974 0.915 1.7 0.5 60 10 30 <0.5 <2 4.2 <0.5 8 2 3200 3.91 <10 <1 0.32 <10 1.32 1405 88 0.05 3 940 <2 2.7 10 2 107 <0.01 <10 <10 8 <10 17CGH-06-104 BLANK EL06078318 C100975 0.008 <0.2 0.47 4 <10 150 0.5 <2 4.49 <0.5 9 1 82 3.07 <10 <1 0.22 <10 0.68 1215 1 0.13 5 1430 2 0.64 <2 8 163 <0.01 <10 <10 41 <10 46CGH-06-104 170.68 173.73 EL06078318 C100976 0.880 1.9 0.29 20 <10 50 <0.5 <2 3.46 <0.5 8 4 3580 3.89 <10 <1 0.2 <10 1.15 802 48 0.04 2 940 3 2.61 4 2 85 <0.01 <10 <10 16 <10 21CGH-06-104 173.73 175.73 EL06078318 C100977 0.303 0.8 0.61 29 10 30 <0.5 <2 3.52 <0.5 7 2 1260 4.56 <10 <1 0.34 <10 1.1 775 16 0.07 2 1550 3 3.56 3 4 125 <0.01 <10 <10 27 <10 22CGH-06-104 175.73 177.90 EL06078318 C100978 0.553 1.6 0.34 25 10 100 <0.5 <2 3.53 <0.5 14 5 2510 4.26 <10 <1 0.21 10 1.05 733 32 0.06 10 1430 4 2.88 4 5 115 <0.01 <10 <10 24 <10 28CGH-06-104 177.90 179.83 EL06078318 C100979 0.302 0.5 0.59 6 10 120 <0.5 <2 2.92 <0.5 6 11 1220 2.54 <10 <1 0.33 10 0.93 579 19 0.07 2 1130 <2 1.76 <2 3 98 <0.01 <10 <10 22 <10 17CGH-06-104 179.83 182.88 EL06078318 C100980 0.101 0.2 0.53 10 10 40 <0.5 <2 2.46 <0.5 9 3 532 3.18 <10 <1 0.27 10 0.8 463 22 0.07 1 1270 <2 2.96 <2 2 85 <0.01 <10 <10 13 <10 17CGH-06-104 182.88 185.92 EL06078318 C100981 0.122 0.4 0.33 8 10 30 <0.5 <2 3.79 <0.5 12 2 817 3.11 <10 <1 0.17 10 0.79 477 57 0.07 1 1040 <2 2.89 <2 2 112 <0.01 <10 <10 16 <10 20CGH-06-104 185.92 188.97 EL06078318 C100982 0.067 0.3 0.35 10 10 40 <0.5 <2 2.88 <0.5 10 3 500 3.58 <10 <1 0.2 10 0.89 466 59 0.06 1 1200 2 2.77 <2 3 107 <0.01 <10 <10 25 <10 20CGH-06-104 188.97 192.02 EL06078318 C100983 0.075 0.3 0.61 73 10 20 <0.5 <2 2.6 <0.5 9 2 657 3.87 <10 <1 0.3 10 0.73 470 37 0.07 1 1100 <2 3.6 16 3 90 <0.01 <10 <10 21 <10 23CGH-06-104 192.02 195.07 EL06078318 C100984 0.148 1.2 0.3 110 10 20 <0.5 <2 3.47 <0.5 9 1 610 3.57 <10 <1 0.17 <10 0.42 537 29 0.05 1 1060 2 3.8 27 2 94 <0.01 <10 <10 8 <10 21CGH-06-104 195.07 198.12 EL06078318 C100985 0.157 0.5 0.6 35 10 30 <0.5 <2 3.8 <0.5 8 6 371 3.72 <10 <1 0.32 10 0.88 717 14 0.06 1 1140 2 3.03 <2 3 131 <0.01 <10 <10 24 <10 25CGH-06-104 Standard 5 EL06078318 C100986 0.133 0.4 1.64 9 <10 170 <0.5 <2 1.33 <0.5 21 1080 1510 4.57 <10 1 0.22 <10 0.83 600 16 0.13 834 650 3 0.97 2 5 75 0.11 <10 <10 64 <10 52CGH-06-104 198.12 201.17 EL06078318 C100987 0.165 0.5 0.55 31 10 30 <0.5 <2 2.96 <0.5 7 5 395 3.94 <10 <1 0.3 <10 0.66 545 6 0.07 4 1100 <2 3.87 <2 2 103 <0.01 <10 <10 19 <10 20CGH-06-104 201.17 204.22 EL06078318 C100988 0.161 1.4 0.32 43 10 20 <0.5 <2 3.28 <0.5 8 1 240 3.96 <10 <1 0.21 <10 0.56 741 3 0.05 2 1080 3 3.81 2 2 91 <0.01 <10 <10 12 <10 22CGH-06-104 204.22 207.26 EL06078318 C100989 0.128 0.9 0.25 100 <10 20 <0.5 <2 2.93 <0.5 9 4 148 4.18 <10 <1 0.16 <10 0.62 765 2 0.04 2 970 3 4.24 4 2 94 <0.01 <10 <10 6 <10 19CGH-06-104 207.26 210.31 EL06078318 C100990 0.121 0.6 0.47 61 10 20 <0.5 <2 2.85 <0.5 10 2 48 4.39 <10 <1 0.26 <10 0.81 933 1 0.04 4 870 3 4.32 3 2 137 <0.01 <10 <10 10 <10 19CGH-06-104 210.31 213.36 EL06078318 C100991 0.093 0.4 0.31 30 <10 30 <0.5 <2 3.66 <0.5 7 1 123 3.77 <10 <1 0.19 10 0.8 787 6 0.05 2 1100 3 3.23 3 3 103 <0.01 <10 <10 20 <10 29CGH-06-104 213.36 216.41 EL06078318 C100992 0.118 0.7 0.64 35 10 20 <0.5 <2 2.58 <0.5 9 8 388 3.77 <10 <1 0.38 10 0.52 689 20 0.05 1 1150 <2 3.91 <2 2 74 <0.01 <10 <10 11 <10 11CGH-06-104 216.41 219.46 EL06078318 C100993 0.080 2.1 0.49 89 10 30 <0.5 <2 3.44 <0.5 10 2 448 4.31 <10 <1 0.31 10 0.42 772 29 0.04 2 1180 5 4.71 8 2 78 <0.01 <10 <10 10 <10 20CGH-06-104 219.46 222.50 EL06078318 C100994 0.130 0.7 0.33 20 <10 30 <0.5 <2 2.32 0.5 8 2 411 4.7 <10 <1 0.2 <10 0.6 588 36 0.05 1 1120 4 5 <2 2 72 <0.01 <10 <10 15 <10 81CGH-06-104 222.50 225.55 EL06078318 C100995 0.158 0.6 0.33 88 10 60 <0.5 <2 2.11 <0.5 7 4 523 4.17 <10 <1 0.19 <10 0.56 523 14 0.05 1 1350 2 4.37 <2 2 60 <0.01 <10 <10 12 <10 34CGH-06-104 225.55 228.60 EL06078318 C100996 0.436 1.0 0.61 84 10 20 <0.5 <2 2.45 <0.5 7 2 1410 4.47 <10 1 0.31 <10 0.68 576 37 0.05 2 1140 3 4.55 <2 2 74 <0.01 <10 <10 20 <10 27CGH-06-104 225.55 228.60 EL06078318 C100997 0.479 1.0 0.33 79 10 20 <0.5 <2 2.41 <0.5 7 2 1530 4.3 <10 <1 0.18 <10 0.65 556 38 0.05 2 1130 2 4.41 <2 2 67 <0.01 <10 <10 15 <10 24CGH-06-104 228.60 231.65 EL06078318 C100998 0.252 0.9 0.69 71 10 30 <0.5 <2 2.93 <0.5 9 12 1070 3.83 <10 <1 0.29 <10 0.88 852 68 0.05 3 1110 <2 3.11 2 4 85 <0.01 <10 <10 24 <10 29CGH-06-104 231.65 234.70 EL06078318 C100999 0.140 1.0 0.57 159 10 70 <0.5 <2 3.15 <0.5 5 2 461 3.63 <10 <1 0.27 <10 1.04 820 10 0.05 7 970 4 2.92 4 3 140 <0.01 <10 <10 26 <10 64CGH-06-104 234.70 237.74 EL06078318 C101000 0.040 1.6 0.28 29 <10 30 <0.5 <2 4.13 0.6 24 44 1140 3.56 <10 <1 0.16 <10 1.65 1420 50 0.03 70 860 7 2.63 <2 11 180 <0.01 <10 <10 27 <10 80CGH-06-104 237.74 240.79 EL06078318 C101001 0.149 2.2 0.25 156 10 20 <0.5 <2 2.6 <0.5 19 18 833 4.12 <10 <1 0.14 <10 0.93 1110 38 0.03 44 600 9 4.09 2 8 85 <0.01 <10 <10 17 <10 37CGH-06-104 240.79 243.84 EL06078318 C101002 0.018 0.6 0.51 26 10 30 <0.5 <2 1.55 <0.5 10 3 237 2.84 <10 <1 0.28 <10 0.61 641 11 0.03 18 150 4 2.62 2 3 50 <0.01 <10 <10 10 <10 7CGH-06-104 243.84 246.89 EL06078318 C101003 0.039 0.9 0.27 37 <10 20 <0.5 <2 2.14 1 20 9 442 3.34 <10 <1 0.14 <10 0.68 983 23 0.02 40 1670 5 3.31 3 4 76 <0.01 <10 <10 11 <10 63CGH-06-104 246.89 249.94 EL06078318 C101004 0.016 0.8 0.4 20 <10 40 <0.5 <2 2.7 <0.5 12 21 250 2.51 <10 <1 0.17 <10 0.96 1165 35 0.02 23 290 6 1.59 4 4 54 <0.01 <10 <10 16 <10 13CGH-06-104 249.94 252.98 EL06078318 C101005 0.023 0.8 0.21 23 <10 90 <0.5 <2 2.97 <0.5 5 11 285 2.15 <10 <1 0.12 <10 0.97 1505 69 0.01 17 90 7 1.17 4 2 40 <0.01 <10 <10 9 <10 18CGH-06-104 252.98 255.33 EL06078318 C101006 0.023 0.7 0.2 25 <10 90 <0.5 <2 0.83 <0.5 5 17 281 1.49 <10 <1 0.11 <10 0.11 195 46 0.01 25 70 5 1.23 2 2 23 <0.01 <10 <10 6 <10 4CGH-06-106 23.00 24.38 EL06078317 C098801 0.072 1.3 0.97 35 <10 110 0.6 <2 6.48 6.1 24 8 863 5.13 <10 <1 0.2 10 2.04 1900 7 0.03 13 900 275 1.06 3 7 131 <0.01 <10 <10 41 <10 170CGH-06-106 24.38 27.43 EL06078317 C098802 0.230 2.9 1.12 18 <10 130 0.5 <2 4.58 6.3 22 12 2310 4.68 <10 <1 0.22 10 1.97 1010 34 0.04 13 860 115 1.53 <2 6 92 <0.01 <10 <10 45 <10 164CGH-06-106 27.43 30.48 EL06078317 C098803 0.190 1.0 1.28 9 <10 250 <0.5 <2 3.6 <0.5 21 28 1560 4.48 10 <1 0.11 10 1.89 651 15 0.04 18 970 2 0.91 3 8 61 <0.01 <10 <10 77 <10 30CGH-06-106 30.48 33.53 EL06078317 C098804 0.189 1.4 2.05 57 <10 230 0.6 <2 4.74 30.6 16 <1 933 5.14 10 <1 0.33 10 2.04 839 26 0.03 4 1450 32 1.12 2 10 98 0.01 <10 <10 100 <10 678CGH-06-106 33.53 36.58 EL06078317 C098805 0.058 0.5 1.99 7 10 100 0.5 <2 4.41 2.3 13 1 597 5.14 10 <1 0.33 10 1.56 586 7 0.05 3 1760 3 0.49 <2 12 100 0.01 <10 <10 141 <10 83CGH-06-106 36.58 38.30 EL06078317 C098806 0.158 0.5 2.11 6 <10 250 0.5 <2 3.55 <0.5 16 1 1100 4.89 10 <1 0.34 10 1.79 512 19 0.04 3 1650 <2 0.32 <2 10 95 0.02 <10 <10 119 <10 40CGH-06-106 38.30 39.62 EL06078317 C098807 0.061 0.7 1.37 7 <10 120 0.5 <2 4.26 <0.5 11 16 671 3.86 10 <1 0.28 10 1.7 703 28 0.05 13 800 11 0.47 <2 6 106 0.02 <10 <10 51 <10 45CGH-06-106 39.62 41.52 EL06078317 C098808 0.120 0.8 1.98 3 <10 350 0.5 <2 4.08 <0.5 19 32 1690 5.14 10 <1 0.45 10 2.22 660 31 0.04 17 1350 2 0.63 <2 11 116 0.05 <10 <10 119 <10 38CGH-06-106 Standard 5 EL06078317 C098809 0.152 0.5 1.64 6 <10 170 <0.5 <2 1.33 <0.5 21 1090 1510 4.58 10 <1 0.22 <10 0.83 603 16 0.13 830 640 5 0.97 <2 5 78 0.11 <10 <10 64 <10 54CGH-06-106 41.52 43.47 EL06078317 C098810 0.122 0.7 2.67 34 <10 90 0.7 <2 4.53 <0.5 33 27 1160 6.72 10 <1 0.23 10 2.66 777 13 0.03 19 2020 3 0.89 <2 15 109 0.04 <10 <10 152 <10 48CGH-06-106 43.47 44.52 EL06078317 C098811 0.085 0.6 2.21 6 <10 340 0.7 <2 5.26 <0.5 16 13 868 5.75 10 <1 0.28 10 2.61 1040 2 0.04 10 1520 2 0.53 2 16 113 0.02 <10 <10 131 <10 47CGH-06-106 44.52 47.30 EL06078317 C098812 0.287 1.0 3.02 343 <10 240 0.8 <2 7.74 0.8 28 55 1520 6.82 10 <1 0.34 10 2.98 1045 9 0.04 27 1730 6 0.71 5 27 191 0.04 <10 <10 201 <10 80CGH-06-106 47.30 49.08 EL06078317 C098813 0.073 0.3 2.07 3 <10 110 <0.5 <2 4.25 <0.5 14 1 606 5.28 10 <1 0.33 10 1.61 713 2 0.05 4 1660 <2 0.26 <2 13 108 0.03 <10 <10 160 <10 36CGH-06-106 49.08 51.82 EL06078317 C098814 0.044 0.2 4.12 3 <10 810 0.8 <2 5.05 <0.5 28 50 551 6.89 10 <1 1.54 10 3.83 877 1 0.05 29 2620 2 0.29 2 20 155 0.27 <10 <10 250 <10 43CGH-06-106 51.82 54.86 EL06078317 C098815 0.053 0.2 4.49 <2 <10 720 0.9 <2 4.14 <0.5 34 42 675 7.63 20 <1 1.4 10 3.84 805 6 0.06 31 2570 <2 0.27 <2 21 137 0.28 <10 <10 270 <10 50CGH-06-106 54.86 56.65 EL06078317 C098816 0.050 0.2 3.45 6 <10 390 0.7 <2 5.95 <0.5 24 24 406 6.64 10 1 0.93 10 3.43 1290 1 0.05 21 1960 <2 0.38 2 16 167 0.18 <10 <10 190 <10 33CGH-06-106 56.65 57.80 EL06078317 C098817 0.022 0.6 2.87 47 10 310 1 <2 8.14 0.5 31 24 344 7.32 10 1 0.27 10 3.04 1660 <1 0.04 26 1890 3 0.76 30 19 228 <0.01 <10 <10 139 <10 27CGH-06-106 57.80 59.00 EL06078317 C098818 0.089 0.7 3.16 22 10 250 0.8 <2 8.72 0.6 31 51 864 7.21 10 <1 0.28 10 3.24 1560 1 0.04 30 1630 3 0.73 17 28 262 0.02 <10 <10 191 <10 38CGH-06-106 59.00 61.18 EL06078317 C098819 0.083 0.3 3.23 7 <10 550 <0.5 <2 7.29 <0.5 23 73 922 6.66 10 <1 0.56 10 3.14 897 6 0.04 28 1570 8 0.26 3 34 287 0.09 <10 <10 235 <10 61CGH-06-106 59.00 61.18 EL06078317 C098820 0.075 0.3 3.22 13 <10 610 <0.5 <2 7.85 <0.5 23 70 720 6.72 10 <1 0.59 10 3.17 944 8 0.04 29 1610 8 0.22 <2 35 354 0.1 <10 <10 235 <10 58CGH-06-106 61.18 64.01 EL06078317 C098821 0.179 0.8 1.63 28 <10 60 0.6 <2 4.74 <0.5 17 17 835 4.4 <10 1 0.29 10 1.22 793 9 0.05 14 1300 16 2.22 <2 8 179 <0.01 <10 <10 63 <10 59CGH-06-106 64.01 67.06 EL06078317 C098822 0.232 0.9 0.97 76 <10 40 0.5 <2 5.02 <0.5 11 9 971 3.94 <10 <1 0.31 10 0.95 796 10 0.06 7 1340 19 2.93 14 6 194 <0.01 <10 <10 36 <10 53CGH-06-106 67.06 70.10 EL06078317 C098823 0.744 1.2 1.17 39 10 50 0.5 <2 2.94 1.3 14 3 1530 4.24 <10 <1 0.31 10 1.1 596 18 0.07 6 1610 26 3.38 14 6 113 <0.01 <10 <10 37 <10 103CGH-06-106 70.10 73.15 EL06078317 C098824 0.106 0.9 0.9 45 10 20 0.5 <2 3.63 0.7 15 2 433 4.7 <10 1 0.3 <10 1.03 710 7 0.07 10 1350 26 4.51 4 5 133 <0.01 <10 <10 27 <10 82CGH-06-106 73.15 76.20 EL06078317 C098825 0.055 0.7 0.62 18 <10 10 <0.5 <2 3.76 <0.5 19 4 589 5.93 <10 <1 0.23 <10 1.4 581 6 0.06 22 1250 28 5.42 <2 5 83 <0.01 <10 <10 25 <10 27CGH-06-106 76.20 79.25 EL06078317 C098826 0.164 1.0 1.03 20 <10 50 <0.5 <2 3.18 0.7 22 11 1070 4.36 <10 <1 0.23 10 1.53 535 34 0.06 16 1270 42 2.64 12 4 72 <0.01 <10 <10 44 <10 48CGH-06-106 79.25 82.47 EL06078317 C098827 0.020 0.4 0.82 9 <10 60 <0.5 <2 3.89 <0.5 14 11 180 4.77 <10 1 0.19 10 1.6 575 4 0.07 14 1260 15 3.61 8 6 88 <0.01 <10 <10 43 <10 34CGH-06-106 82.47 85.34 EL06078317 C098828 0.085 0.5 2.53 16 <10 70 0.7 2 3.2 1.4 23 26 417 6.68 10 1 1 10 2.21 405 3 0.11 20 2130 27 3.2 <2 14 140 0.11 <10 <10 167 <10 105CGH-06-106 85.34 88.39 EL06078317 C098829 0.131 0.4 2.22 12 <10 40 0.6 <2 4.06 <0.5 31 7 767 7.39 10 <1 0.54 10 2.73 506 6 0.09 16 1790 8 4.81 <2 12 140 0.05 <10 <10 135 <10 32CGH-06-106 88.39 89.75 EL06078317 C098830 0.130 0.6 2.08 43 <10 60 0.7 <2 4.73 2.3 36 26 585 7.4 10 1 0.48 10 2.68 915 6 0.1 31 1660 167 4.52 <2 15 171 0.04 <10 <10 126 <10 85CGH-06-106 Standard 2 EL06078317 C098831 0.926 2.6 0.92 19 <10 60 <0.5 <2 1.73 <0.5 28 1510 >10000 11.15 <10 1 0.45 <10 0.81 1040 27 0.04 1210 640 11 3.44 2 5 63 0.01 <10 <10 56 <10 80 1.19CGH-06-106 89.75 90.95 EL06078317 C098832 0.390 0.4 1.05 207 <10 90 0.7 <2 7.7 <0.5 19 4 131 5.06 <10 <1 0.38 10 2.99 3090 1 0.12 11 1380 9 2.2 10 8 188 <0.01 <10 <10 43 <10 31CGH-06-106 90.95 92.34 EL06078317 C098833 0.059 0.2 2.03 36 <10 80 0.6 <2 3.98 <0.5 38 9 367 6.3 10 1 0.67 10 2.15 853 1 0.12 20 1770 3 1.6 2 16 249 0.1 <10 <10 145 <10 50CGH-06-106 92.34 93.30 EL06078317 C098834 0.039 0.7 0.76 36 <10 50 0.5 <2 3.51 <0.5 22 4 179 5.1 <10 1 0.33 10 1.2 785 3 0.12 13 1410 11 3.95 <2 7 184 <0.01 <10 <10 45 <10 56CGH-06-106 93.30 94.49 EL06078317 C098835 0.051 0.5 0.69 18 10 90 0.9 <2 3.25 0.5 15 2 919 4.46 <10 1 0.41 10 1.09 1230 22 0.14 10 1590 10 2.06 3 7 119 <0.01 <10 <10 30 <10 120CGH-06-106 94.49 97.54 EL06078317 C098836 0.205 2.4 0.55 123 <10 10 0.5 <2 4.85 <0.5 25 45 865 6.61 <10 2 0.36 <10 1.79 1860 22 0.08 66 1560 20 5.25 35 13 122 <0.01 10 <10 38 <10 173CGH-06-106 97.54 100.58 EL06078317 C098837 0.048 0.4 0.55 32 <10 40 0.5 <2 4.35 0.6 24 20 844 5.44 <10 1 0.33 10 1.87 1710 32 0.11 47 1390 11 1.45 6 11 120 <0.01 <10 <10 39 <10 216CGH-06-106 100.58 103.63 EL06078317 C098838 0.071 0.6 0.68 27 10 120 0.6 <2 4.29 <0.5 23 13 1820 5.09 <10 1 0.4 10 1.48 1630 36 0.14 39 2110 10 1.47 2 11 104 <0.01 <10 <10 45 <10 193CGH-06-106 103.63 106.68 VA06091580 C98839 0.068 0.9 0.56 98 <10 70 <0.5 <2 2.49 <0.5 18 6 1795 4.86 <10 3 0.36 <10 0.72 1070 21 0.11 17 1300 14 3 2 6 76 <0.01 <10 <10 27 <10 76CGH-06-106 106.68 109.73 VA06091580 C98840 0.103 0.8 0.48 477 <10 60 <0.5 <2 2.55 <0.5 12 7 2350 4.46 <10 2 0.32 <10 0.68 1340 25 0.09 2 840 24 2.02 2 5 64 <0.01 <10 <10 24 <10 51CGH-06-106 109.73 112.78 VA06091580 C98841 0.238 3.0 0.47 92 10 20 <0.5 2 3.34 <0.5 8 2 1625 5.47 <10 3 0.32 <10 0.8 2010 5 0.08 3 1290 103 3.6 24 4 74 <0.01 <10 <10 19 <10 87
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-106 109.73 112.78 VA06091580 C98842 0.227 2.6 0.26 70 <10 40 <0.5 2 2.89 <0.5 11 4 1765 5.17 <10 2 0.21 <10 0.69 1670 4 0.11 2 1360 66 3.55 24 4 78 <0.01 <10 <10 15 <10 88CGH-06-106 112.78 114.80 VA06091580 C98843 0.064 0.5 0.57 65 10 390 <0.5 2 3.11 <0.5 6 1 76 3.2 <10 1 0.39 10 0.71 2210 <1 0.1 <1 1730 8 0.77 10 5 82 <0.01 <10 <10 21 <10 60CGH-06-106 112.78 114.80 VA06107255 519830 0.068 0.4 0.78 10 10 380 <0.5 <2 3 <0.5 8 2 121 3.23 <10 1 0.49 10 0.73 2160 <1 0.1 3 1790 6 0.85 9 6 84 <0.01 <10 <10 23 <10 67CGH-06-106 114.80 115.82 VA06091580 C98844 0.141 1.8 0.58 73 <10 40 <0.5 2 2.65 <0.5 15 3 3150 5.35 <10 <1 0.38 <10 0.63 1700 4 0.1 3 2100 14 3.25 6 4 70 <0.01 <10 <10 19 <10 49CGH-06-106 115.82 118.87 VA06091580 C98845 0.266 1.4 0.51 24 10 40 <0.5 <2 3.39 <0.5 8 2 3540 5.42 <10 3 0.33 <10 0.96 1930 4 0.08 2 1510 8 1.78 30 4 72 <0.01 <10 <10 26 <10 65CGH-06-106 118.87 121.92 VA06091580 C98846 0.366 0.9 0.55 31 10 80 <0.5 <2 3.59 <0.5 9 2 4720 5.18 <10 1 0.35 <10 1 1250 4 0.1 5 1430 8 1.74 16 5 81 <0.01 <10 <10 26 <10 48CGH-06-106 121.92 123.15 VA06091580 C98847 0.514 0.9 0.68 55 <10 240 <0.5 <2 3.55 <0.5 8 7 5220 5.22 <10 4 0.4 <10 0.91 1350 5 0.11 2 1590 4 1.27 8 5 90 <0.01 <10 <10 26 <10 46CGH-06-106 123.15 124.51 VA06091580 C98848 0.315 1.5 0.5 98 <10 30 <0.5 2 3.75 <0.5 10 1 1415 4.42 <10 <1 0.32 <10 0.8 1350 8 0.1 4 1210 16 3.56 9 4 106 <0.01 <10 <10 13 <10 35CGH-06-106 124.51 126.27 VA06091580 C98849 0.095 1.1 0.57 65 <10 40 <0.5 2 2.78 <0.5 11 2 238 3.83 <10 2 0.38 <10 0.69 1600 2 0.1 2 1340 4 2.23 8 6 77 <0.01 <10 <10 15 <10 40CGH-06-106 126.27 128.02 VA06091580 C98850 0.811 2.3 0.54 215 10 40 <0.5 <2 2.31 <0.5 15 5 189 4.11 <10 <1 0.35 <10 0.61 1240 2 0.09 1 1540 12 3.22 9 6 65 <0.01 <10 <10 19 <10 33CGH-06-106 128.02 131.06 VA06091580 C98851 0.119 2.9 0.61 89 <10 20 <0.5 2 3.31 <0.5 17 3 1255 5.52 <10 3 0.34 <10 0.88 2510 5 0.1 4 1830 14 3.72 18 7 88 <0.01 <10 <10 32 <10 56CGH-06-106 131.06 134.11 VA06091580 C98852 0.068 0.9 0.96 16 <10 340 <0.5 <2 3.39 <0.5 11 2 1040 4.44 <10 5 0.31 10 0.79 1640 4 0.12 3 1780 3 0.57 20 10 131 <0.01 <10 <10 85 <10 84CGH-06-106 Standard 6 VA06091580 C98853 0.277 0.7 1 20 10 50 <0.5 2 2.91 <0.5 14 399 3260 6.17 <10 2 0.34 <10 1.13 799 11 0.06 319 1200 15 3.2 8 8 195 <0.01 <10 <10 57 <10 121CGH-06-106 134.11 137.16 VA06091580 C98854 0.207 3.0 0.59 102 <10 30 <0.5 2 2.64 <0.5 15 5 2250 6.15 <10 2 0.32 <10 0.63 2300 4 0.11 4 1910 13 3.47 31 8 94 <0.01 <10 <10 52 <10 61CGH-06-106 137.16 140.21 VA06091580 C98855 0.088 1.6 0.59 35 10 50 <0.5 <2 2.34 <0.5 14 2 1110 4.34 <10 4 0.33 <10 0.55 2070 5 0.12 4 1680 10 2.35 21 8 76 <0.01 <10 <10 34 <10 40CGH-06-106 140.21 141.90 VA06091580 C98856 0.058 0.6 0.6 23 <10 30 <0.5 <2 1.99 <0.5 11 4 1360 4.64 <10 6 0.3 <10 0.56 1890 7 0.13 9 1760 7 1.98 22 8 79 <0.01 <10 <10 55 <10 47CGH-06-106 141.90 143.55 VA06091580 C98857 0.073 1.4 0.49 97 <10 30 <0.5 <2 3.47 <0.5 9 20 1120 4.41 <10 4 0.28 <10 0.99 2500 13 0.09 12 1590 7 1.96 29 6 95 <0.01 <10 <10 44 <10 129CGH-06-106 143.55 146.30 VA06091580 C98858 0.072 1.5 1.52 28 <10 80 0.5 <2 3.46 <0.5 11 3 1010 5.92 10 2 0.26 10 1.57 2120 7 0.12 8 1830 11 1.76 5 9 137 0.01 <10 <10 88 <10 146CGH-06-106 146.30 147.25 VA06091580 C98859 0.048 1.2 0.65 27 <10 80 0.5 <2 3.47 <0.5 9 7 2290 5.99 <10 7 0.35 <10 1.28 2280 13 0.12 8 1020 11 2.35 17 7 121 <0.01 <10 <10 66 <10 130CGH-06-106 147.25 149.40 VA06091580 C98860 0.024 0.9 0.53 42 <10 760 <0.5 <2 4.39 0.7 4 11 653 2.79 <10 8 0.28 <10 1.26 2200 21 0.12 4 1100 4 0.38 79 8 130 <0.01 <10 <10 32 <10 150CGH-06-106 149.40 152.40 VA06091580 C98861 0.066 1.7 0.91 30 <10 120 0.5 <2 3.68 <0.5 23 1 1125 5.62 <10 4 0.35 <10 0.97 2460 19 0.12 5 1710 8 2.17 15 8 109 <0.01 <10 <10 62 <10 102CGH-06-106 152.40 155.45 VA06091580 C98862 0.089 1.3 1.5 24 10 390 <0.5 <2 4.04 <0.5 16 2 1950 4.87 <10 3 0.29 10 1.34 1990 12 0.12 3 1790 8 0.97 13 9 128 0.01 <10 <10 92 <10 124CGH-06-106 155.45 158.50 VA06091580 C98863 0.346 7.2 1.81 55 <10 70 <0.5 <2 5.21 <0.5 16 3 6490 5.82 <10 2 0.29 10 1.36 2620 10 0.08 8 1830 12 2.82 2 6 142 0.01 <10 <10 63 <10 133CGH-06-106 155.45 158.50 VA06091580 C98864 0.340 6.4 1.85 30 10 90 <0.5 <2 5.2 <0.5 16 1 6420 5.49 <10 2 0.3 10 1.38 2600 10 0.08 7 1960 7 2.47 4 7 141 0.01 <10 <10 65 <10 137CGH-06-106 158.50 161.54 VA06091580 C98865 0.208 8.8 0.55 48 <10 20 <0.5 <2 4.68 1.8 15 2 2840 6.3 <10 5 0.31 <10 1.11 3010 14 0.08 4 1600 18 4.03 31 5 120 <0.01 <10 <10 39 <10 372CGH-06-106 161.54 164.59 VA06091580 C98866 0.136 2.8 0.57 40 10 180 0.5 <2 3.37 0.9 17 3 3950 3.66 <10 2 0.36 10 0.77 2040 25 0.11 6 1740 7 1.45 71 6 113 <0.01 <10 <10 24 <10 142CGH-06-106 164.59 167.64 VA06091580 C98867 0.136 2.7 0.57 27 10 260 0.5 2 4.9 3.1 11 1 3160 3.57 <10 3 0.39 <10 0.95 2680 13 0.1 7 1390 12 1.45 45 6 127 <0.01 <10 <10 24 <10 447CGH-06-106 167.64 170.69 VA06091580 C98868 0.110 4.4 0.62 27 <10 50 <0.5 2 5.09 3.2 13 1 3040 3.79 <10 4 0.38 <10 1.15 2850 25 0.09 4 1380 45 2.16 34 6 111 <0.01 <10 <10 19 <10 328CGH-06-106 170.69 173.74 VA06091580 C98869 0.229 6.9 0.51 35 <10 30 <0.5 <2 5.36 1 18 5 7100 3.93 <10 4 0.32 <10 1.51 2930 86 0.08 4 1220 18 2.15 72 5 103 <0.01 <10 <10 15 <10 107CGH-06-106 173.74 176.78 VA06091580 C98870 0.124 0.9 0.84 8 <10 90 <0.5 <2 5.34 <0.5 13 1 2200 3.19 <10 1 0.33 10 0.83 1560 41 0.09 3 1320 5 1.09 23 6 129 <0.01 <10 <10 35 <10 84CGH-06-106 176.78 179.83 VA06091580 C98871 0.043 0.7 1.51 16 10 230 <0.5 <2 4.95 <0.5 18 2 784 3.82 10 <1 0.28 10 1.05 1300 21 0.09 3 1310 3 1.24 4 8 126 <0.01 <10 <10 54 <10 85CGH-06-106 179.83 182.88 VA06091580 C98872 0.023 0.4 1.33 23 <10 160 <0.5 2 4.77 <0.5 19 3 520 4.24 <10 1 0.26 10 0.86 1040 9 0.09 3 1280 6 1.26 <2 7 132 <0.01 <10 <10 65 <10 76CGH-06-106 182.88 185.93 VA06091580 C98873 0.033 0.7 0.91 16 <10 90 <0.5 2 4.89 1.1 19 1 414 3.92 <10 3 0.3 10 1.05 1580 5 0.1 4 1320 8 1.79 25 7 157 <0.01 <10 <10 46 <10 194CGH-06-106 185.93 188.98 VA06091580 C98874 0.025 1.0 0.68 21 10 80 <0.5 <2 4.62 0.5 37 1 572 3.63 <10 2 0.32 <10 0.96 1630 6 0.1 <1 1200 8 1.59 34 7 140 <0.01 <10 <10 38 <10 103CGH-06-106 BLANK VA06091580 C98875 0.010 0.2 0.6 2 <10 190 0.5 2 5.39 <0.5 9 4 75 3.31 <10 1 0.26 <10 0.85 1380 2 0.12 5 1350 2 0.69 3 7 194 <0.01 <10 <10 42 <10 53CGH-06-106 188.98 192.02 VA06091580 C98876 0.056 3.8 0.56 42 10 160 0.5 <2 5.05 2.5 30 1 1370 3.34 <10 2 0.35 <10 0.95 1770 114 0.1 2 1350 26 1.78 155 7 146 <0.01 <10 <10 23 <10 207CGH-06-106 192.02 195.07 VA06091580 C98877 0.120 3.5 0.64 24 10 50 0.6 2 6.82 1.4 59 15 4540 6.64 <10 2 0.33 10 1.18 2820 206 0.08 33 1070 14 3.99 35 7 193 <0.01 <10 <10 118 <10 309CGH-06-106 195.07 198.12 VA06091580 C98878 0.220 4.9 0.54 27 10 20 <0.5 3 3.68 1.4 44 9 5420 4.43 <10 1 0.33 <10 0.87 1830 1375 0.09 26 1140 17 2.99 32 5 107 <0.01 <10 <10 24 <10 277CGH-06-106 198.12 200.20 VA06091580 C98879 0.031 1.1 0.58 12 10 160 <0.5 <2 4.52 1.8 15 2 1175 2.7 <10 1 0.34 10 1.14 2200 265 0.1 7 1310 6 0.76 12 6 121 <0.01 <10 <10 18 <10 278CGH-06-106 200.20 201.17 VA06091580 C98880 0.019 1.1 0.36 44 <10 40 <0.5 <2 5.01 2.7 16 16 387 2.79 <10 2 0.24 <10 0.6 1950 108 0.05 84 430 5 1.7 6 4 115 <0.01 <10 <10 218 <10 415CGH-06-106 201.17 203.77 VA06091580 C98881 0.104 3.4 0.48 30 <10 40 <0.5 <2 5.13 1.2 38 23 1455 4.5 <10 10 0.27 <10 0.83 2120 77 0.07 74 820 7 3.03 2 5 128 <0.01 <10 <10 229 <10 197CGH-06-106 203.77 204.77 VA06091580 C98882 0.037 0.7 0.53 4 10 170 <0.5 2 4.6 <0.5 7 1 701 2.57 <10 <1 0.34 <10 1 1520 109 0.09 4 1190 4 0.86 36 4 134 <0.01 <10 <10 12 <10 59CGH-06-106 204.77 207.26 VA06091580 C98883 0.067 0.9 0.49 11 10 40 <0.5 <2 4.06 <0.5 20 2 1140 3.07 <10 1 0.31 <10 1.06 1755 112 0.08 5 1120 3 1.63 49 3 99 <0.01 <10 <10 11 <10 43CGH-06-112 38.60 41.05 VA06094991 C97118 0.066 0.5 1.14 24 <10 20 <0.5 <2 2.12 6.5 13 9 66 3.81 <10 1 0.26 <10 0.71 1230 <1 0.01 6 1230 14 3.44 <2 2 103 <0.01 <10 <10 34 <10 777CGH-06-112 41.05 42.67 VA06094991 C97119 0.041 0.3 1 14 <10 60 <0.5 <2 1.79 0.7 10 2 56 2.51 <10 <1 0.26 10 0.55 965 <1 0.01 3 830 3 1.91 <2 2 84 <0.01 <10 <10 21 <10 215CGH-06-112 42.67 45.72 VA06094991 C97120 0.056 0.6 1.54 14 <10 40 <0.5 <2 4.48 0.7 10 6 80 3.88 <10 1 0.25 10 0.99 1755 1 0.02 3 1360 8 2.57 <2 3 147 <0.01 <10 <10 43 <10 233CGH-06-112 45.72 48.77 VA06094991 C97121 0.026 0.3 1.38 9 <10 50 <0.5 <2 3.58 0.5 10 2 81 3.24 <10 <1 0.29 10 0.83 1465 <1 0.02 3 1290 9 2.06 <2 3 138 <0.01 <10 <10 38 <10 207CGH-06-112 48.77 51.82 VA06094991 C97122 0.088 <0.2 1.85 3 <10 110 <0.5 <2 4.07 0.8 10 6 76 3.77 10 <1 0.26 10 1.12 1775 <1 0.03 4 1400 7 1.6 <2 4 161 <0.01 <10 <10 61 <10 263CGH-06-112 51.82 54.86 VA06094991 C97123 0.037 0.3 1.78 6 <10 50 <0.5 <2 3.35 2.1 11 4 103 3.88 <10 <1 0.29 10 1.14 1460 <1 0.02 4 1440 8 2.35 2 4 178 <0.01 <10 <10 60 <10 358CGH-06-112 54.86 57.91 VA06094991 C97124 0.030 0.2 1.84 2 <10 150 <0.5 <2 3.93 <0.5 13 6 152 3.65 <10 <1 0.25 10 1.21 1715 <1 0.03 3 1430 7 2.01 <2 4 172 <0.01 <10 <10 64 <10 172CGH-06-112 57.91 60.96 VA06094991 C97125 0.032 0.4 1.72 6 <10 130 <0.5 <2 4.22 3.2 10 2 162 3.55 <10 <1 0.25 10 1.06 2340 <1 0.03 3 1260 7 1.56 <2 4 164 <0.01 <10 <10 65 <10 575CGH-06-112 60.96 64.01 VA06094991 C97126 0.026 0.3 1.45 2 <10 110 <0.5 <2 5.52 1.4 11 5 123 3.73 <10 <1 0.27 10 1.03 2290 <1 0.02 2 1360 9 2.07 2 4 221 <0.01 <10 <10 45 <10 294CGH-06-112 60.96 64.01 VA06094991 C97127 0.024 0.2 1.48 <2 <10 130 0.5 <2 5.32 1.3 10 2 133 3.63 <10 1 0.28 10 1.05 2260 <1 0.02 3 1360 9 1.87 <2 4 213 <0.01 <10 <10 48 <10 309CGH-06-112 64.01 67.06 VA06094991 C97128 0.028 0.4 1.56 7 <10 150 <0.5 <2 4.32 2.4 9 7 129 3.55 <10 <1 0.24 10 1.03 2180 <1 0.02 3 1390 10 1.44 <2 5 209 <0.01 <10 <10 45 <10 395CGH-06-112 67.06 70.10 VA06094991 C97129 0.026 0.4 1.86 3 <10 100 <0.5 <2 3.68 0.8 11 3 114 3.92 <10 <1 0.24 10 1.18 2110 <1 0.04 3 1380 10 1.9 <2 4 166 <0.01 <10 <10 59 <10 274CGH-06-112 70.10 73.15 VA06094991 C97130 0.035 0.4 2.22 <2 <10 140 <0.5 <2 3.08 0.7 9 9 104 4 10 <1 0.25 10 1.27 2190 <1 0.08 3 1420 18 1.62 <2 5 161 <0.01 <10 <10 61 <10 290CGH-06-112 73.15 76.20 VA06094991 C97131 0.054 0.3 1.5 <2 <10 100 <0.5 <2 3.17 3.1 8 1 60 3.3 <10 1 0.31 10 0.99 1530 1 0.03 2 1180 32 2.36 <2 3 141 <0.01 <10 <10 41 <10 454CGH-06-112 76.20 79.25 VA06094991 C97132 0.043 0.7 1.45 8 <10 40 <0.5 <2 4.2 3.4 10 5 44 3.64 <10 1 0.34 10 0.99 1650 <1 0.03 2 1250 20 3.04 <2 3 176 <0.01 <10 <10 40 <10 626CGH-06-112 79.25 82.30 VA06094991 C97133 0.045 0.5 1.46 21 <10 40 <0.5 <2 3.26 11.9 8 1 64 3.62 <10 1 0.29 10 0.91 1430 <1 0.03 2 1300 13 2.36 <2 3 157 <0.01 <10 <10 36 <10 1630CGH-06-112 82.30 85.34 VA06094991 C97134 0.023 0.5 1.59 4 <10 50 <0.5 <2 6 <0.5 12 7 132 3.98 <10 <1 0.26 10 1.07 1995 2 0.02 6 1310 7 2.04 3 4 220 <0.01 <10 <10 45 <10 237CGH-06-112 85.34 88.39 VA06094991 C97135 0.031 0.5 1 4 <10 40 <0.5 <2 6.01 <0.5 9 2 99 3.47 <10 <1 0.27 10 1.02 2060 <1 0.02 3 1020 6 2.41 <2 3 217 <0.01 <10 <10 26 <10 122CGH-06-112 88.39 91.44 VA06094991 C97136 0.052 1.1 0.61 5 <10 20 <0.5 <2 4.86 1.1 10 6 103 3.89 <10 <1 0.3 10 0.85 1860 <1 0.02 3 1290 8 3.52 3 4 186 <0.01 <10 <10 12 <10 190CGH-06-112 91.44 94.49 VA06094991 C97137 0.065 0.6 0.94 9 <10 40 <0.5 <2 4.78 <0.5 10 1 113 3.06 <10 <1 0.26 10 0.66 1305 <1 0.02 3 1260 4 2.35 2 3 188 <0.01 <10 <10 20 <10 127CGH-06-112 Standard 6 VA06094991 C97138 0.260 0.7 1.15 12 <10 100 <0.5 <2 3.17 <0.5 15 423 3270 6.62 <10 2 0.34 <10 1.22 876 11 0.06 347 1290 16 3.62 9 8 196 <0.01 <10 <10 58 <10 128CGH-06-112 94.49 97.54 VA06094991 C97139 0.019 <0.2 2.88 4 <10 520 0.6 <2 4.27 <0.5 20 25 51 5.35 10 <1 0.38 20 2.04 2020 <1 0.06 26 1950 3 0.8 <2 9 175 0.11 <10 <10 106 <10 187CGH-06-112 97.54 100.58 VA06094991 C97140 0.021 0.3 0.76 3 <10 750 <0.5 <2 2.2 <0.5 5 11 39 1.57 <10 <1 0.14 10 0.73 874 1 0.01 18 610 3 0.5 <2 4 78 <0.01 <10 <10 20 <10 87CGH-06-112 100.58 103.63 VA06094991 C97141 0.023 0.3 0.61 4 <10 310 <0.5 <2 5.28 <0.5 5 25 39 2.28 <10 1 0.14 10 1.06 1940 16 0.01 23 1070 5 0.84 <2 5 143 <0.01 <10 <10 61 <10 114CGH-06-112 103.63 106.68 VA06094991 C97142 0.016 0.2 0.77 13 <10 390 <0.5 <2 1.72 0.6 8 10 50 1.97 <10 <1 0.18 10 0.69 877 <1 0.01 17 300 3 0.8 <2 6 50 <0.01 <10 <10 17 <10 149CGH-06-112 106.68 108.42 VA06094991 C97143 0.046 0.6 1.18 7 <10 470 <0.5 <2 2.68 2 11 26 100 2.67 <10 <1 0.19 10 1.03 1345 <1 0.02 21 750 5 0.86 <2 6 90 <0.01 <10 <10 41 <10 445CGH-06-112 108.42 109.73 VA06094991 C97144 0.076 1.3 1.06 38 <10 80 0.6 <2 3.83 7.4 25 4 80 3.94 <10 1 0.36 10 0.73 1430 1 0.02 23 2520 8 2.84 2 7 160 <0.01 <10 <10 45 <10 998CGH-06-112 109.73 112.78 VA06094991 C97145 0.072 1.2 1.86 13 <10 90 0.6 <2 5.88 <0.5 20 21 123 5.46 <10 <1 0.3 <10 1.85 2450 <1 0.04 18 1490 7 2.77 4 13 208 <0.01 <10 <10 81 <10 179CGH-06-112 112.78 115.82 VA06094991 C97146 0.034 0.9 1 17 <10 70 0.5 <2 4.11 <0.5 11 1 118 3.27 <10 <1 0.31 <10 0.97 1450 1 0.02 3 1180 19 2.21 3 4 150 <0.01 <10 <10 23 <10 125CGH-06-112 115.82 118.87 VA06094991 C97147 0.028 0.4 1.35 13 <10 60 <0.5 <2 3.91 <0.5 8 4 81 2.99 <10 1 0.33 10 1 1055 <1 0.03 2 1170 9 2.12 2 2 146 <0.01 <10 <10 31 <10 107CGH-06-112 118.87 121.92 VA06094991 C97148 0.038 0.8 0.79 35 <10 40 <0.5 <2 4.56 <0.5 14 1 218 2.8 <10 <1 0.3 <10 0.67 1285 1 0.02 2 1200 11 2.43 <2 3 151 <0.01 <10 <10 16 <10 112CGH-06-112 118.87 121.92 VA06094991 C97149 0.034 0.6 0.75 36 <10 60 <0.5 <2 4.34 <0.5 12 6 229 2.62 <10 <1 0.28 <10 0.67 1245 1 0.02 1 1190 10 2.19 <2 3 147 <0.01 <10 <10 15 <10 103CGH-06-112 121.92 124.97 VA06094991 C97150 0.037 1.0 0.73 50 <10 40 <0.5 <2 4.95 1.8 7 <1 34 3.39 <10 1 0.3 10 0.76 1735 <1 0.02 1 1210 9 3.03 <2 2 173 <0.01 <10 <10 11 <10 338CGH-06-112 124.97 128.02 VA06094991 C97151 0.032 0.7 1.29 62 <10 80 <0.5 <2 4.47 3.5 8 4 80 3.08 <10 <1 0.31 10 0.87 1770 <1 0.02 2 1280 7 2.35 <2 3 181 <0.01 <10 <10 21 <10 537
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-112 128.02 131.06 VA06094991 C97152 0.067 1.4 1.31 42 <10 40 <0.5 <2 4.63 0.6 10 2 117 4.58 <10 <1 0.3 10 0.87 1540 2 0.03 1 1390 8 4.36 3 3 137 <0.01 <10 <10 33 <10 184CGH-06-112 131.06 134.11 VA06094991 C97153 0.045 1.2 1.52 16 <10 50 <0.5 <2 3.71 2.5 10 7 171 3.93 <10 <1 0.27 10 1.08 1330 1 0.03 2 1260 6 3.22 4 3 134 <0.01 <10 <10 42 <10 392CGH-06-112 134.11 137.16 VA06094991 C97154 0.019 0.7 1.68 14 <10 300 0.5 2 4.07 1.1 9 1 44 3.39 <10 <1 0.3 10 1 1590 1 0.04 1 1220 5 0.9 <2 3 157 <0.01 <10 <10 50 <10 202CGH-06-112 137.16 140.21 VA06094991 C97155 0.020 0.6 0.79 49 <10 90 <0.5 3 4.79 0.7 7 7 28 2.99 <10 <1 0.27 10 0.66 1605 1 0.02 <1 1200 5 1.82 <2 4 160 <0.01 <10 <10 22 <10 101CGH-06-112 140.21 141.55 VA06094991 C97156 0.032 0.8 0.91 44 10 90 0.6 2 4.25 2.1 16 11 162 3.76 <10 <1 0.28 <10 0.99 1800 1 0.04 24 1280 4 1.84 <2 13 199 <0.01 <10 <10 39 <10 246CGH-06-112 141.55 143.44 VA06094991 C97157 0.013 0.6 0.58 27 <10 270 0.6 2 5.06 1 11 9 89 3.39 <10 1 0.2 <10 1.37 2140 1 0.03 9 830 7 0.81 3 6 200 <0.01 <10 <10 19 <10 136CGH-06-112 143.44 146.30 VA06094991 C97158 0.006 0.6 0.87 166 10 70 0.5 <2 4.48 1.1 10 <1 83 3.28 <10 <1 0.25 10 1.03 1175 1 0.05 3 1150 18 1.1 4 8 233 <0.01 <10 <10 28 <10 145CGH-06-112 146.30 149.35 VA06094991 C97159 0.006 0.5 0.73 174 <10 90 0.5 <2 4.37 1.3 9 5 92 3.27 <10 <1 0.26 10 1.07 1075 1 0.05 2 1110 18 1.19 5 7 217 <0.01 <10 <10 23 <10 167CGH-06-112 BLANK VA06094991 C97160 0.009 0.2 1.34 10 <10 260 <0.5 <2 4.7 1.2 12 1 62 3.32 <10 1 0.27 10 1.1 1325 <1 0.09 3 1390 3 1.12 2 5 168 <0.01 <10 <10 45 <10 140CGH-06-112 149.35 152.40 VA06094991 C97161 <0.005 0.5 0.98 127 <10 100 0.5 <2 4.31 1.5 11 2 96 3.68 <10 <1 0.24 10 1.13 1180 1 0.05 3 1200 16 0.89 5 8 215 <0.01 <10 <10 31 <10 246CGH-06-112 152.40 155.45 VA06094991 C97162 <0.005 0.2 0.37 8 <10 820 <0.5 <2 4.06 0.7 5 6 44 2.09 <10 <1 0.14 <10 1 1355 1 0.03 8 940 3 0.25 <2 4 134 <0.01 <10 <10 14 <10 110CGH-06-112 155.45 158.50 VA06094991 C97163 0.049 2.1 0.43 16 <10 270 <0.5 <2 4.88 1.1 11 16 113 2.89 <10 <1 0.15 <10 1.54 2080 1 0.03 19 600 4 0.41 3 7 132 <0.01 <10 <10 18 <10 167CGH-06-112 158.50 161.54 VA06094991 C97164 <0.005 0.4 1.43 27 10 60 0.5 2 5.18 0.9 13 2 50 3.94 <10 1 0.27 <10 1.17 1280 1 0.05 4 1580 6 0.85 2 8 204 <0.01 <10 <10 46 <10 97CGH-06-112 161.54 164.59 VA06094991 C97165 0.007 0.4 1.52 15 10 200 0.5 <2 5.44 0.7 13 5 57 3.95 <10 <1 0.24 <10 1.29 1490 1 0.05 3 1480 4 0.65 2 7 220 <0.01 <10 <10 48 <10 122CGH-06-112 164.59 167.64 VA06094991 C97166 0.005 0.2 1.14 9 10 700 0.5 <2 5.94 <0.5 9 <1 73 3.29 <10 1 0.27 10 1.16 1925 1 0.05 <1 1110 2 0.58 2 6 225 <0.01 <10 <10 27 <10 81CGH-06-112 167.64 170.69 VA06094991 C97167 0.027 0.9 1.53 23 10 90 0.5 <2 6.64 0.7 15 3 122 4.12 <10 <1 0.31 10 0.85 1925 <1 0.04 2 1530 4 1.42 2 7 263 <0.01 <10 <10 30 <10 119CGH-06-112 170.69 173.74 VA06094991 C97168 0.074 0.9 1.24 55 <10 90 <0.5 <2 4.95 <0.5 14 2 67 3.74 <10 <1 0.3 10 0.83 1650 1 0.04 4 1240 5 1.53 2 6 189 <0.01 <10 <10 36 <10 60CGH-06-112 173.74 176.78 VA06094991 C97169 0.246 1.5 1.09 199 10 30 <0.5 <2 8.19 <0.5 12 6 124 4.5 <10 <1 0.26 10 1.01 2620 1 0.03 6 970 11 2.85 4 4 208 <0.01 <10 <10 24 <10 50CGH-06-112 176.78 179.83 VA06094991 C97170 0.015 0.2 1.99 12 10 230 <0.5 <2 3.9 <0.5 13 5 63 3.93 10 <1 0.3 10 0.94 1095 1 0.08 6 1440 <2 1.5 <2 6 149 0.01 <10 <10 66 <10 53CGH-06-112 Standard 5 VA06094991 C97171 0.126 0.4 1.64 5 <10 170 <0.5 3 1.27 <0.5 21 1020 1490 4.36 10 <1 0.22 <10 0.8 577 15 0.12 821 640 4 0.94 4 4 72 0.11 <10 <10 63 <10 51CGH-06-112 179.83 182.88 VA06094991 C97172 0.010 0.3 2.17 11 10 170 <0.5 <2 3.13 <0.5 13 6 76 4.52 10 1 0.22 <10 1.34 1140 <1 0.07 4 1500 2 1.68 2 6 122 0.01 <10 <10 85 <10 64CGH-06-112 182.88 185.95 VA06094991 C97173 0.025 0.4 1.98 10 <10 190 <0.5 2 3.02 <0.5 12 3 72 3.57 10 <1 0.17 <10 1.07 1185 <1 0.12 2 1280 3 1.48 <2 6 119 0.04 <10 <10 76 <10 45CGH-06-112 185.95 188.98 VA06094991 C97174 0.015 0.2 1.95 9 10 70 <0.5 3 2.34 <0.5 11 8 66 4.1 10 1 0.15 10 1.41 1215 1 0.09 2 1240 2 1.82 <2 6 83 0.04 <10 <10 80 <10 85CGH-06-112 188.98 192.02 VA06094991 C97175 0.014 0.2 2 11 10 240 <0.5 <2 2.33 <0.5 11 5 54 3.85 10 <1 0.16 10 1.29 1145 <1 0.12 4 1230 3 1.46 <2 6 98 0.02 <10 <10 81 <10 86CGH-06-112 192.02 195.07 VA06094991 C97176 0.006 0.2 1.62 6 <10 60 <0.5 <2 3.59 <0.5 10 8 45 3.74 <10 1 0.22 10 1.17 1160 1 0.07 3 1250 2 2.79 2 5 110 0.02 <10 <10 60 <10 67CGH-06-112 195.07 198.12 VA06094991 C97177 0.012 0.2 1.89 18 <10 80 <0.5 2 3.48 <0.5 12 4 46 3.93 10 <1 0.23 10 1.23 1290 <1 0.07 4 1400 2 2.1 <2 6 107 0.01 <10 <10 76 <10 71CGH-06-112 198.12 201.17 VA06094991 C97178 0.007 <0.2 1.74 22 10 160 <0.5 <2 2.91 <0.5 11 7 28 3.32 <10 <1 0.21 10 1.13 1035 <1 0.08 4 1220 3 1.51 <2 5 95 0.02 <10 10 65 <10 54CGH-06-112 201.17 204.22 VA06094991 C97179 <0.005 0.2 1.68 13 10 140 <0.5 <2 1.96 <0.5 11 4 44 3.15 10 <1 0.14 10 1.29 716 <1 0.1 3 1230 2 1.53 <2 6 86 0.05 <10 <10 73 <10 44CGH-06-112 204.22 207.26 VA06094991 C97180 <0.005 0.2 1.66 7 <10 130 <0.5 <2 3 <0.5 9 8 37 3.59 10 <1 0.18 10 1.17 874 <1 0.09 4 1220 2 2.23 <2 5 92 0.01 <10 <10 66 <10 42CGH-06-114 15.24 18.29 VA06100280 97196 <0.005 0.4 2.79 29 <10 210 <0.5 <2 2.97 <0.5 17 14 62 4.13 10 1 0.11 <10 1.62 1070 1 0.08 11 1370 3 0.18 <2 8 101 0.12 <10 <10 124 <10 61CGH-06-114 18.29 21.34 VA06100280 97197 <0.005 0.3 2.76 20 <10 170 <0.5 <2 2.83 <0.5 14 14 64 4.17 10 <1 0.09 <10 1.7 1080 <1 0.08 11 1370 2 0.04 <2 8 86 0.12 <10 <10 123 <10 54CGH-06-114 21.34 24.38 VA06100280 97198 <0.005 0.2 2.59 21 <10 80 <0.5 <2 5.81 <0.5 17 14 50 4.08 10 1 0.12 <10 1.6 1510 1 0.04 11 1300 6 0.07 <2 8 92 0.05 <10 <10 113 <10 53CGH-06-114 24.38 27.43 VA06100280 97199 <0.005 0.4 2.76 16 <10 240 <0.5 <2 2.84 0.5 15 13 63 4.26 10 1 0.09 <10 1.81 1325 1 0.08 10 1370 11 0.05 <2 7 87 0.07 <10 <10 119 <10 100CGH-06-114 27.43 30.48 VA06100280 97200 <0.005 0.3 2.94 17 <10 130 <0.5 <2 4.72 <0.5 15 14 54 4.46 10 1 0.11 <10 1.88 1440 1 0.09 12 1340 3 0.07 <2 10 119 0.04 <10 <10 131 <10 65CGH-06-114 30.48 33.53 VA06100280 97201 <0.005 0.2 2.13 20 <10 70 <0.5 <2 7.46 <0.5 15 10 74 3.48 10 1 0.18 10 1.29 1625 1 0.02 11 1330 3 0.11 <2 7 127 <0.01 <10 <10 82 <10 40CGH-06-114 33.53 36.58 VA06100280 97202 <0.005 0.3 2.45 23 <10 60 <0.5 <2 4.94 <0.5 15 14 68 4.16 10 1 0.17 <10 1.47 1435 1 0.03 12 1410 <2 0.08 <2 8 106 <0.01 <10 <10 105 <10 66CGH-06-114 36.58 37.73 VA06100280 97203 <0.005 0.4 2.73 20 <10 40 <0.5 <2 3.82 0.8 18 20 58 4.59 10 1 0.14 <10 1.62 1450 <1 0.05 14 1480 <2 0.15 <2 8 114 0.01 <10 <10 119 <10 182CGH-06-114 36.58 37.73 VA06100280 97204 <0.005 0.5 2.73 17 <10 40 <0.5 <2 3.97 1 17 16 53 4.52 10 1 0.15 <10 1.61 1460 1 0.05 12 1560 3 0.14 <2 8 118 0.01 <10 <10 119 <10 189CGH-06-114 37.73 39.62 VA06100280 97205 <0.005 0.4 1.52 15 <10 110 <0.5 <2 3.99 0.5 8 2 14 2.67 10 <1 0.17 <10 0.84 1245 <1 0.01 8 1050 4 0.27 2 3 87 <0.01 <10 <10 35 <10 62CGH-06-114 39.62 42.67 VA06100280 97206 <0.005 0.3 1.64 9 <10 220 <0.5 <2 3.17 <0.5 7 2 6 2.83 10 1 0.17 10 0.93 1105 <1 0.02 7 1030 5 0.15 <2 2 78 <0.01 <10 <10 38 <10 34CGH-06-114 42.67 45.72 VA06100280 97207 <0.005 0.2 2.6 19 <10 1040 <0.5 <2 4.84 0.5 13 11 52 4.24 10 <1 0.15 <10 1.55 1555 1 0.06 10 1290 2 0.22 <2 8 136 0.03 <10 <10 109 <10 107CGH-06-114 45.72 48.77 VA06100280 97208 <0.005 0.2 2.58 15 <10 50 <0.5 <2 5.59 <0.5 18 12 59 4.17 10 1 0.2 <10 1.48 1570 <1 0.06 23 1360 4 0.15 <2 8 145 0.01 <10 <10 102 <10 88CGH-06-114 48.77 51.82 VA06100280 97209 <0.005 0.6 1.48 20 <10 250 <0.5 <2 7.98 <0.5 15 8 52 3.86 <10 <1 0.16 <10 1.42 1930 <1 0.01 19 1250 5 0.26 <2 6 190 <0.01 <10 <10 75 <10 83CGH-06-114 51.82 54.86 VA06100280 97210 0.013 0.3 2.34 30 <10 500 <0.5 <2 6.48 1.2 15 12 65 4.23 10 1 0.14 <10 1.52 1990 1 0.01 11 1260 10 0.48 2 7 133 <0.01 <10 <10 101 <10 179CGH-06-114 54.86 57.91 VA06100280 97211 <0.005 0.4 2.26 27 <10 90 0.5 <2 7.73 <0.5 16 16 66 4.01 10 1 0.17 <10 1.41 1735 1 0.01 13 1260 2 0.39 <2 8 139 <0.01 <10 <10 98 <10 92CGH-06-114 57.91 60.96 VA06100280 97212 0.005 0.2 1.72 16 <10 700 <0.5 <2 8.21 <0.5 16 20 75 3.94 <10 1 0.18 <10 1.43 1635 1 0.01 18 1140 10 0.41 <2 10 186 <0.01 <10 <10 92 <10 58CGH-06-114 60.96 64.01 VA06100280 97213 0.005 0.4 2.48 17 <10 140 0.5 <2 6.71 <0.5 19 32 85 4.59 10 <1 0.18 <10 1.75 1445 1 0.02 25 1200 3 0.37 <2 14 147 <0.01 <10 <10 121 <10 100CGH-06-114 64.01 67.06 VA06100280 97214 <0.005 0.3 2.09 27 10 940 0.5 <2 9.26 <0.5 20 33 97 3.9 10 <1 0.22 <10 1.42 1965 5 0.01 26 1100 2 0.19 <2 12 205 <0.01 <10 <10 96 <10 106CGH-06-114 Standard 6 VA06100280 97215 0.266 0.6 1.01 13 <10 40 <0.5 <2 2.9 0.5 15 406 3290 6.1 <10 2 0.34 <10 1.15 769 10 0.05 326 1210 13 3.26 6 8 194 <0.01 <10 <10 56 <10 122CGH-06-114 67.06 70.10 VA06100280 97216 <0.005 0.5 1 30 <10 590 <0.5 <2 5.63 2 11 39 58 2.47 <10 <1 0.15 <10 0.73 1550 15 <0.01 20 1050 3 0.07 <2 5 114 <0.01 <10 <10 84 <10 247CGH-06-114 70.10 73.15 VA06100280 97217 0.017 0.8 1.98 118 <10 520 <0.5 <2 11.95 <0.5 24 226 40 4.1 <10 <1 0.07 <10 2.27 2720 12 <0.01 130 1940 6 0.42 <2 14 268 <0.01 <10 <10 101 <10 49CGH-06-114 73.15 76.20 VA06100280 97218 <0.005 0.7 2.29 151 <10 560 0.6 <2 9.55 <0.5 33 313 50 4.33 10 1 0.04 <10 4.15 2060 8 <0.01 184 1360 3 0.27 <2 18 279 <0.01 <10 <10 111 <10 87CGH-06-114 76.20 79.25 VA06100280 97219 <0.005 0.6 0.33 22 <10 240 <0.5 2 4.23 2.4 5 12 40 1.69 <10 <1 0.08 <10 0.48 827 14 <0.01 17 710 5 0.65 <2 3 122 <0.01 <10 <10 41 <10 260CGH-06-114 79.25 82.30 VA06100280 97220 <0.005 0.6 1.03 21 <10 160 <0.5 <2 2.35 1.9 7 31 48 2.34 <10 <1 0.14 <10 0.88 482 9 <0.01 24 490 9 1.08 2 3 50 <0.01 <10 <10 36 <10 266CGH-06-114 82.30 85.34 VA06100280 97221 0.017 0.7 0.93 14 <10 210 <0.5 <2 1.56 3.1 6 19 91 1.9 <10 <1 0.13 <10 0.74 326 3 <0.01 22 610 6 0.77 <2 3 42 <0.01 <10 <10 154 <10 339CGH-06-114 85.34 88.39 VA06100280 97222 <0.005 0.7 1.27 19 <10 160 <0.5 <2 3.57 1.2 7 14 64 2.28 <10 <1 0.18 10 0.9 630 22 0.01 22 1650 7 0.78 3 4 75 <0.01 <10 10 134 <10 164CGH-06-114 88.39 91.44 VA06100280 97223 <0.005 0.5 1.63 15 <10 200 <0.5 <2 4.61 0.5 6 34 47 2.76 <10 <1 0.1 10 1.43 891 19 <0.01 20 1550 5 0.61 2 4 90 <0.01 <10 <10 132 <10 75CGH-06-114 91.44 94.49 VA06100280 97224 <0.005 <0.2 1.21 18 <10 200 <0.5 <2 2.42 <0.5 7 9 41 2.12 <10 <1 0.17 <10 0.8 459 2 <0.01 14 460 3 0.54 <2 3 63 <0.01 <10 <10 35 <10 63CGH-06-114 106.68 109.73 VA06100280 97225 0.006 0.5 2.08 23 <10 160 <0.5 2 4.42 <0.5 11 1 103 4.06 10 1 0.18 10 1.38 1490 2 0.03 5 1530 8 0.74 2 6 118 <0.01 <10 <10 87 <10 55CGH-06-114 106.68 109.73 VA06100280 97226 0.006 0.5 2.05 30 <10 180 <0.5 2 4.38 <0.5 12 5 111 4.06 10 1 0.19 10 1.37 1480 1 0.03 5 1500 6 0.74 <2 6 120 <0.01 <10 <10 92 <10 62CGH-06-114 109.73 112.26 VA06100280 97227 <0.005 0.5 2.31 11 <10 360 <0.5 <2 3.56 <0.5 13 5 164 4.2 10 <1 0.16 10 1.55 1340 2 0.03 9 1560 4 0.36 <2 7 82 <0.01 <10 <10 101 <10 73CGH-06-114 112.26 115.10 VA06100280 97228 0.114 0.4 0.85 46 <10 380 <0.5 <2 3.7 <0.5 5 9 22 1.68 <10 <1 0.11 <10 0.73 803 2 0.01 14 570 2 0.63 <2 2 86 <0.01 <10 <10 19 <10 25CGH-06-114 135.50 137.80 VA06100280 97229 0.011 0.5 0.94 41 <10 290 <0.5 <2 5.16 1.3 7 50 44 1.86 <10 <1 0.09 <10 0.79 1220 3 0.01 23 370 10 0.75 2 3 92 <0.01 <10 <10 33 <10 212CGH-06-114 137.80 140.21 VA06100280 97230 <0.005 0.5 2.03 15 10 320 <0.5 2 4.36 <0.5 11 1 87 3.7 10 <1 0.21 10 1.26 1750 1 0.03 4 1480 9 0.42 <2 5 97 <0.01 <10 <10 74 <10 53CGH-06-114 140.21 143.26 VA06100280 97231 0.043 0.7 1.95 108 <10 200 <0.5 <2 4.2 0.7 11 2 100 3.77 10 <1 0.25 10 1.1 1730 1 0.02 4 1270 16 0.58 <2 4 111 <0.01 <10 <10 54 <10 133CGH-06-114 143.26 146.30 VA06100280 97232 0.012 0.3 2.05 10 <10 470 <0.5 <2 4.9 <0.5 10 6 110 3.68 <10 1 0.28 10 1.13 1720 1 0.02 4 1270 7 0.23 <2 5 121 <0.01 <10 <10 59 <10 50CGH-06-114 146.30 149.35 VA06100280 97233 <0.005 0.7 1.17 22 <10 680 <0.5 <2 4.79 <0.5 7 2 47 2.29 <10 <1 0.26 10 0.58 1320 1 0.03 4 930 5 0.32 2 3 129 <0.01 <10 <10 18 <10 26CGH-06-114 149.35 152.40 VA06100280 97234 <0.005 0.2 1.37 7 <10 1340 <0.5 <2 5.51 <0.5 6 2 11 2.5 <10 <1 0.23 10 0.69 1650 <1 0.04 3 760 2 0.2 <2 2 141 <0.01 <10 <10 22 <10 34CGH-06-114 152.40 155.45 VA06100280 97235 <0.005 <0.2 1.6 9 <10 530 <0.5 <2 4.06 0.8 6 8 29 2.77 <10 <1 0.27 10 0.76 1430 <1 0.03 3 880 4 0.2 <2 3 100 <0.01 <10 <10 35 <10 144CGH-06-114 155.45 157.65 VA06100280 97236 0.061 0.2 1.38 43 <10 560 <0.5 2 4.37 1.8 6 4 34 2.71 <10 <1 0.22 10 0.67 1480 1 0.03 5 790 7 0.42 2 3 104 <0.01 <10 <10 29 <10 263CGH-06-114 BLANK VA06100280 97237 0.006 <0.2 1.46 6 <10 80 <0.5 <2 3.65 <0.5 8 1 39 3.56 <10 1 0.21 10 0.85 784 1 0.14 3 1490 2 0.29 <2 8 128 <0.01 <10 <10 72 <10 46CGH-06-114 157.65 159.60 VA06100280 97238 0.018 0.8 0.39 53 <10 50 <0.5 <2 2.44 3.8 5 36 24 1.4 <10 <1 0.13 10 0.11 535 14 <0.01 17 910 31 0.95 2 2 54 <0.01 <10 <10 40 <10 395CGH-06-114 159.60 161.54 VA06100280 97239 <0.005 0.7 0.3 47 <10 80 <0.5 <2 2.32 1.5 5 9 26 1.41 <10 <1 0.11 10 0.09 427 7 <0.01 13 590 86 1.14 2 1 51 <0.01 <10 <10 25 <10 118CGH-06-114 161.54 164.59 VA06100280 97240 <0.005 0.6 0.45 24 <10 70 <0.5 <2 8.58 1.3 5 13 25 1.24 <10 <1 0.1 10 0.31 1040 8 0.01 18 2000 7 0.8 2 2 137 <0.01 <10 10 53 <10 83CGH-06-114 164.59 167.64 VA06100280 97241 <0.005 1.3 2.07 21 10 270 0.5 <2 5.23 6.5 11 16 60 3.71 10 1 0.24 10 1.18 1320 33 0.02 16 2460 11 0.75 3 4 133 <0.01 <10 10 197 <10 405CGH-06-114 167.64 170.69 VA06100280 97242 0.012 0.6 2.36 22 <10 370 0.5 2 4.91 0.7 13 7 50 4.13 10 <1 0.23 10 1.33 1570 1 0.02 9 1480 11 0.39 3 4 153 <0.01 <10 <10 89 <10 118CGH-06-114 221.30 223.40 VA06100280 97243 0.007 0.5 0.39 34 <10 60 <0.5 <2 5.45 3.2 6 8 37 2.05 <10 <1 0.12 <10 0.48 1450 6 <0.01 14 330 9 1.19 2 2 123 <0.01 <10 <10 19 <10 441CGH-06-114 223.40 225.55 VA06100280 97244 0.006 0.3 0.4 68 <10 510 <0.5 <2 5.76 <0.5 5 3 13 2.2 <10 <1 0.19 10 1.03 1830 1 0.01 3 730 3 0.45 2 3 181 <0.01 <10 <10 6 <10 29CGH-06-114 225.55 228.60 VA06100280 97245 <0.005 0.2 1.2 9 10 240 <0.5 2 3.87 <0.5 6 2 20 2.65 <10 1 0.22 10 0.78 1190 1 0.01 3 820 2 0.22 <2 4 129 <0.01 <10 <10 19 <10 40CGH-06-114 228.60 231.65 VA06100280 97246 0.009 0.3 1.2 19 <10 580 <0.5 <2 3.81 <0.5 7 3 30 2.63 <10 <1 0.23 10 0.78 1290 1 0.02 5 810 5 0.28 <2 4 142 <0.01 <10 <10 24 <10 53CGH-06-114 231.65 234.70 VA06100280 97247 <0.005 0.3 1.49 13 10 650 <0.5 <2 3.96 <0.5 6 8 33 2.7 <10 <1 0.22 10 0.75 1170 1 0.04 5 830 4 0.22 <2 4 161 <0.01 <10 <10 36 <10 69CGH-06-114 Standard 5 VA06100280 97248 0.139 0.4 1.64 6 <10 160 <0.5 3 1.27 <0.5 20 980 1490 4.3 <10 <1 0.22 <10 0.8 575 15 0.12 809 620 5 0.89 3 4 74 0.11 <10 <10 61 <10 51
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-115 38.85 41.40 VA06100259 99236 0.046 0.6 0.47 15 <10 60 <0.5 <2 2.76 1.6 5 55 102 1.95 <10 <1 0.23 <10 0.54 1060 9 0.01 23 880 7 1.35 <2 3 85 <0.01 <10 <10 28 <10 252CGH-06-115 41.40 42.40 VA06100259 99237 0.101 0.6 0.55 22 <10 20 <0.5 <2 1.69 2.5 8 1 114 3.79 <10 <1 0.31 <10 0.57 651 1 0.01 5 1240 15 3.84 <2 2 63 <0.01 <10 <10 14 <10 305CGH-06-115 Standard 6 VA06100259 99238 0.260 0.5 1.05 12 <10 70 <0.5 2 2.83 <0.5 15 394 3300 6.02 <10 1 0.35 <10 1.13 788 10 0.06 323 1190 16 3.22 7 8 193 <0.01 <10 <10 56 <10 124CGH-06-115 42.40 43.53 VA06100259 99239 0.046 0.3 0.62 19 <10 20 <0.5 <2 1.3 0.7 10 41 104 2.68 <10 <1 0.28 10 0.43 407 31 0.01 38 1290 6 2.57 <2 3 66 <0.01 <10 <10 116 <10 89CGH-06-115 43.53 46.30 VA06100259 99240 0.041 <0.2 0.5 10 <10 40 <0.5 <2 1.44 0.6 6 5 78 2.11 <10 <1 0.19 10 0.56 526 12 0.01 19 600 9 1.88 <2 2 68 <0.01 <10 <10 40 <10 90CGH-06-115 46.30 48.77 VA06100259 99241 0.114 0.5 1.02 5 10 30 <0.5 <2 1.88 1.3 9 10 70 4.1 <10 <1 0.37 10 0.6 869 2 0.05 5 1210 6 3.42 <2 4 91 <0.01 <10 <10 45 <10 213CGH-06-115 48.77 51.76 VA06100259 99242 0.058 0.6 0.61 9 <10 30 <0.5 <2 2.33 2.5 8 1 112 3.47 <10 <1 0.31 10 0.67 1050 2 0.03 5 1150 5 3 <2 4 97 <0.01 <10 <10 20 <10 325CGH-06-115 51.76 53.02 VA06100259 99243 0.036 0.5 0.39 15 <10 20 <0.5 <2 3.18 1.5 7 24 113 2.63 <10 <1 0.21 <10 0.38 931 26 0.01 20 610 8 2.33 <2 3 144 <0.01 <10 <10 39 <10 120CGH-06-115 53.02 54.17 VA06100259 99244 0.070 1.5 0.52 17 <10 10 <0.5 <2 1.37 <0.5 18 1 159 5.37 <10 <1 0.3 <10 0.3 795 9 0.01 15 1450 9 5.54 2 3 97 <0.01 <10 <10 34 <10 22CGH-06-115 54.17 55.70 VA06100259 99245 0.047 1.0 0.37 24 <10 20 <0.5 <2 3.48 0.8 8 32 68 3.32 <10 <1 0.16 10 0.83 1890 41 0.01 39 3340 7 2.5 <2 2 143 <0.01 <10 <10 122 <10 106CGH-06-115 55.70 57.91 VA06100259 99246 0.049 0.6 0.71 14 10 20 0.5 <2 3.13 2.8 15 1 188 4.8 <10 <1 0.33 <10 0.65 1690 1 0.02 6 1620 9 2.69 <2 7 112 <0.01 <10 <10 51 <10 425CGH-06-115 57.91 60.96 VA06100259 99247 0.066 0.4 0.82 12 10 40 0.5 <2 4.51 3.6 13 7 116 4.99 <10 <1 0.36 10 1.11 2530 2 0.02 5 1570 10 2.93 <2 7 131 <0.01 <10 <10 49 <10 514CGH-06-115 60.96 64.01 VA06100259 99248 0.053 0.5 0.64 16 10 20 <0.5 <2 4.36 1.3 14 2 88 4.73 <10 <1 0.31 10 1.43 2360 1 0.02 12 1520 7 2.83 <2 6 182 <0.01 <10 <10 35 <10 228CGH-06-115 60.96 64.01 VA06100259 99249 0.061 0.4 0.69 13 10 20 0.5 <2 4.5 1.7 14 10 93 4.78 <10 <1 0.33 10 1.46 2420 1 0.02 12 1580 6 2.82 <2 6 185 <0.01 <10 <10 36 <10 247CGH-06-115 64.01 65.22 VA06100259 99250 0.030 0.3 0.93 4 <10 30 0.5 <2 2.31 12.4 15 4 161 4.2 <10 <1 0.31 10 0.91 1280 1 0.02 14 1330 8 1.86 <2 7 122 <0.01 <10 <10 66 <10 1600CGH-06-115 65.22 67.63 VA06100259 99251 0.054 0.2 0.5 5 <10 130 <0.5 <2 3.6 1 7 43 70 2.49 <10 <1 0.19 10 1.03 1720 8 0.02 25 3590 4 0.97 <2 4 111 <0.01 <10 <10 44 <10 171CGH-06-115 67.63 70.10 VA06100259 99252 0.053 0.4 0.6 7 <10 30 <0.5 <2 3.48 7.9 10 2 75 3.98 <10 <1 0.31 10 1.12 1590 1 0.02 6 1250 8 2.5 2 4 165 <0.01 <10 <10 23 <10 953CGH-06-115 70.10 73.15 VA06100259 99253 0.046 0.3 1.25 5 <10 90 <0.5 2 2.44 0.6 11 14 81 4.11 <10 <1 0.36 10 1.08 1055 1 0.04 4 1310 12 1.66 4 4 111 <0.01 <10 <10 45 <10 174CGH-06-115 73.15 76.20 VA06100259 99254 0.113 0.3 1.11 5 <10 60 <0.5 <2 3.14 <0.5 11 3 97 3.88 <10 1 0.32 10 0.96 1065 1 0.03 3 1300 6 1.57 2 3 140 <0.01 <10 <10 48 <10 154CGH-06-115 76.20 79.25 VA06100259 99255 0.068 0.2 0.98 8 <10 90 <0.5 <2 3.95 1.6 10 11 90 3.59 <10 <1 0.33 10 0.87 1165 1 0.04 4 1290 5 1.47 2 4 178 <0.01 <10 <10 47 <10 257CGH-06-115 79.25 82.30 VA06100259 99256 0.069 0.4 1.67 7 10 30 0.5 <2 4.18 1.6 14 2 185 5.24 <10 1 0.33 10 1.43 1440 1 0.04 4 1790 10 2.79 <2 7 169 <0.01 <10 <10 75 <10 327CGH-06-115 82.30 85.34 VA06100259 99257 0.080 0.4 2.07 6 <10 50 <0.5 <2 3.73 <0.5 16 7 275 4.95 10 <1 0.25 10 1.7 1165 1 0.05 2 1840 4 1.71 2 7 132 <0.01 <10 10 87 <10 161CGH-06-115 85.34 88.39 VA06100259 99258 0.046 0.4 1.97 5 <10 40 <0.5 <2 2.88 0.8 13 2 197 4.83 10 <1 0.25 10 1.52 1085 2 0.05 3 1600 7 2.22 2 6 124 <0.01 <10 <10 81 <10 204CGH-06-115 88.39 91.44 VA06100259 99259 0.047 0.3 1.4 8 10 60 0.5 <2 2.84 0.8 10 8 145 3.86 <10 1 0.31 10 1.05 1145 3 0.04 3 1420 5 1.97 2 5 144 <0.01 <10 <10 59 <10 202CGH-06-115 BLANK VA06100259 99260 0.007 <0.2 1.8 2 <10 370 <0.5 <2 3.34 <0.5 8 2 21 3.96 10 1 0.22 10 1.33 713 <1 0.14 3 1530 4 0.69 3 8 126 <0.01 <10 <10 73 <10 42CGH-06-115 91.44 94.49 VA06100259 99261 0.106 0.5 1.04 14 10 30 <0.5 <2 3.26 2.3 10 12 204 4.08 <10 <1 0.31 10 1.05 1195 4 0.03 5 1310 12 3.14 3 4 146 <0.01 <10 10 45 <10 272CGH-06-115 94.49 97.54 VA06100259 99262 0.132 0.4 1.56 8 <10 30 <0.5 <2 1.73 0.6 11 3 306 4.88 10 <1 0.28 10 1.2 755 8 0.04 5 1320 5 3.41 2 4 70 <0.01 <10 <10 58 <10 157CGH-06-115 97.54 100.58 VA06100259 99263 0.098 0.5 1.7 7 <10 30 <0.5 <2 2.73 3.6 11 9 234 4.08 <10 <1 0.26 10 1.24 962 5 0.06 2 1360 6 2.45 2 5 111 <0.01 <10 <10 66 <10 472CGH-06-115 100.58 103.63 VA06100259 99264 0.156 2.7 0.97 58 <10 20 <0.5 <2 4.05 3.9 14 2 351 5.07 <10 1 0.31 10 0.93 1410 5 0.02 5 1220 12 4.27 20 3 110 <0.01 <10 <10 28 <10 442CGH-06-115 103.63 106.68 VA06100259 99265 0.088 0.7 0.88 33 <10 30 <0.5 <2 4.33 4.8 11 11 149 4.59 <10 1 0.38 10 0.91 2290 2 0.02 3 1200 15 3.8 3 3 113 <0.01 <10 <10 21 <10 605CGH-06-115 106.68 109.73 VA06100259 99266 0.092 0.7 0.84 4 <10 20 <0.5 <2 3.83 1.8 9 1 159 4.19 <10 1 0.34 <10 0.89 1480 1 0.02 4 1210 11 3.46 6 3 115 <0.01 <10 <10 24 <10 251CGH-06-115 109.73 112.78 VA06100259 99267 0.069 0.5 0.61 29 <10 20 <0.5 <2 3.43 0.6 12 11 76 4.77 <10 <1 0.35 <10 0.97 1655 2 0.02 4 1250 9 3.79 4 4 124 <0.01 <10 10 15 <10 96CGH-06-115 112.78 115.82 VA06100259 99268 0.234 0.9 0.76 19 <10 30 0.5 <2 3.39 1 13 1 231 4.35 <10 <1 0.4 10 0.95 1735 2 0.03 4 1320 10 3.04 5 5 128 <0.01 <10 <10 21 <10 129CGH-06-115 115.82 118.87 VA06100259 99269 0.217 1.1 0.58 46 <10 20 <0.5 <2 3.41 3.4 11 18 134 4.38 <10 <1 0.33 <10 0.87 1785 2 0.02 4 1130 8 3.29 7 4 99 <0.01 <10 <10 14 <10 401CGH-06-115 118.87 121.92 VA06100259 99270 0.201 0.6 0.51 102 <10 30 <0.5 <2 3.27 2.1 12 2 128 4.43 <10 <1 0.31 <10 0.63 1655 1 0.02 3 1140 6 3.9 3 3 104 <0.01 <10 10 15 <10 263CGH-06-115 Standard 5 VA06100259 99271 0.134 0.3 1.71 6 <10 170 <0.5 <2 1.39 <0.5 23 1065 1535 4.78 <10 <1 0.23 <10 0.85 602 16 0.12 857 660 6 0.94 5 5 76 0.11 <10 <10 66 <10 54CGH-06-115 121.92 124.97 VA06100259 99272 0.073 0.8 0.59 35 <10 10 <0.5 <2 3.95 4.3 13 19 108 6.11 <10 1 0.34 <10 1 2440 3 0.02 6 1200 10 5.34 6 3 120 <0.01 <10 <10 16 <10 528CGH-06-115 124.97 128.02 VA06100259 99273 0.113 0.5 0.65 22 <10 20 <0.5 <2 3.48 1.7 13 1 171 5.13 <10 <1 0.32 10 1.07 1335 2 0.03 4 1240 10 4.19 2 3 102 <0.01 <10 <10 16 <10 197CGH-06-115 128.02 131.06 VA06100259 99274 0.075 0.5 1.37 22 <10 20 <0.5 <2 3.19 1.1 12 12 174 4.69 <10 <1 0.33 10 1.3 1480 2 0.04 4 1320 10 3.06 <2 4 118 <0.01 <10 <10 44 <10 196CGH-06-115 131.06 134.11 VA06100259 99275 0.102 1.0 1.08 34 <10 20 <0.5 <2 3.62 7.7 11 2 216 5.57 <10 1 0.36 10 1.1 1820 3 0.03 4 1240 53 4.57 5 4 110 <0.01 <10 10 28 <10 779CGH-06-115 134.11 137.16 VA06100259 99276 0.119 0.6 0.99 21 <10 30 <0.5 <2 3.6 2.1 13 15 197 4.81 <10 1 0.35 10 0.98 1535 4 0.03 4 1280 15 3.65 2 4 135 <0.01 <10 <10 31 <10 277CGH-06-115 137.16 140.21 VA06100259 99277 0.097 0.9 0.62 26 <10 30 <0.5 <2 3.04 3.6 12 1 216 4.68 <10 1 0.34 10 0.91 1470 2 0.03 4 1240 37 4.17 5 3 113 <0.01 <10 <10 20 <10 433CGH-06-115 140.21 143.26 VA06100259 99278 0.387 1.5 0.68 40 <10 20 <0.5 <2 4.19 1.8 15 20 165 6.04 <10 1 0.36 <10 0.92 1795 5 0.03 3 1170 17 5.56 2 3 142 <0.01 <10 <10 19 <10 239CGH-06-115 143.26 146.30 VA06100259 99279 0.107 0.3 1.47 14 <10 30 <0.5 <2 2.79 <0.5 12 2 144 4.31 <10 1 0.29 10 1.19 794 2 0.05 2 1320 9 3.21 <2 3 110 <0.01 <10 <10 53 <10 104CGH-06-115 146.30 149.35 VA06100259 99280 0.113 0.4 1.44 6 <10 30 <0.5 <2 2.18 <0.5 11 9 96 4.14 <10 <1 0.35 10 1.11 661 1 0.06 5 1220 10 3.36 3 3 93 <0.01 <10 <10 40 <10 111CGH-06-115 149.35 152.40 VA06100259 99281 0.076 0.2 1.62 10 <10 50 <0.5 <2 2.76 <0.5 13 1 88 4.22 <10 <1 0.3 10 1.12 737 1 0.06 2 1190 4 2.34 3 3 111 <0.01 <10 10 49 <10 83CGH-06-115 149.35 152.40 VA06100259 99282 0.075 0.2 1.71 9 <10 50 <0.5 <2 2.83 <0.5 14 8 94 4.3 <10 2 0.33 10 1.15 755 1 0.07 4 1210 5 2.41 2 3 114 <0.01 <10 <10 50 <10 87CGH-06-115 152.40 155.45 VA06100259 99283 0.066 0.5 1.96 6 <10 160 0.5 <2 3.7 2.1 12 2 158 4.21 <10 1 0.34 10 1.21 1580 2 0.05 4 1230 20 1.73 <2 5 155 <0.01 <10 <10 63 <10 286CGH-06-115 155.45 158.50 VA06100259 99284 0.064 0.6 2.04 19 <10 80 0.5 <2 2.59 2.2 14 11 167 4.68 <10 1 0.34 10 1.23 1335 2 0.04 4 1210 15 1.95 3 5 132 <0.01 <10 <10 57 <10 345CGH-06-115 158.50 161.54 VA06100259 99285 0.162 0.7 1.74 19 <10 100 <0.5 <2 1.88 5.6 14 7 163 4.56 <10 1 0.34 10 1.18 967 3 0.05 3 1260 12 2.64 2 4 126 <0.01 <10 <10 49 370 707CGH-06-115 161.54 164.59 VA06100259 99286 0.099 0.8 1.53 16 <10 30 0.5 <2 1.86 3.7 12 1 55 4.45 <10 1 0.32 10 1.1 1075 2 0.05 2 1360 29 3.29 <2 3 141 <0.01 <10 <10 45 270 343CGH-06-115 164.59 167.54 VA06100259 99287 0.150 0.6 1.53 23 <10 30 <0.5 <2 1.84 <0.5 17 5 183 4.45 <10 1 0.28 10 1.23 894 1 0.06 4 1320 5 3.27 <2 3 108 <0.01 <10 <10 43 70 104CGH-06-115 167.54 170.69 VA06100259 99288 0.063 0.2 1.8 16 <10 140 <0.5 <2 1.37 <0.5 13 1 35 3.78 10 1 0.26 10 1.32 946 1 0.06 4 1300 4 1.64 <2 3 81 <0.01 <10 <10 45 80 100CGH-06-115 170.69 173.74 VA06100259 99289 0.140 0.5 1.66 21 <10 40 <0.5 <2 0.91 <0.5 12 6 114 4.25 <10 1 0.28 10 1.27 772 1 0.07 5 1280 7 2.67 3 3 83 <0.01 <10 <10 43 50 87CGH-06-115 173.74 176.78 VA06100259 99290 0.071 0.6 0.89 26 <10 20 <0.5 <2 3.82 <0.5 13 <1 86 3.7 <10 1 0.35 10 0.78 1620 2 0.06 4 1220 5 2.24 <2 4 168 <0.01 <10 <10 20 40 38CGH-06-115 176.78 179.83 VA06100259 99291 0.111 1.0 0.94 19 <10 30 <0.5 <2 4.22 8.1 12 5 188 4.83 <10 1 0.34 10 0.92 1920 8 0.05 4 1090 22 3.28 2 4 144 <0.01 <10 <10 22 20 904CGH-06-115 179.83 182.88 VA06100259 99292 0.079 0.7 0.93 14 <10 20 0.5 <2 3.8 3.4 15 1 248 4.35 <10 1 0.33 <10 0.94 1775 2 0.06 4 1160 36 3.32 2 3 157 <0.01 <10 10 26 20 371CGH-06-115 Standard 2 VA06100259 99293 0.935 3.1 0.96 15 10 70 <0.5 <2 1.78 <0.5 30 1590 >10000 11.6 <10 1 0.46 <10 0.83 1060 29 0.04 1270 650 11 3.52 9 5 64 0.01 <10 <10 59 <10 87 1.19CGH-06-115 182.88 185.93 VA06100259 99294 0.072 1.0 0.85 14 <10 20 <0.5 <2 3.82 2.8 11 5 186 3.9 <10 1 0.33 <10 0.77 1595 3 0.06 2 1140 15 2.94 2 3 148 <0.01 <10 <10 21 20 298CGH-06-115 185.93 188.98 VA06100259 99295 0.098 1.2 0.55 31 <10 10 <0.5 <2 3.93 <0.5 42 1 58 7.4 <10 1 0.28 <10 0.49 1190 2 0.05 11 1170 14 7.51 2 3 147 <0.01 <10 <10 11 30 49CGH-06-117 23.00 24.55 VA06100259 99296 0.016 0.5 1.92 31 <10 1120 <0.5 <2 3.51 1.5 7 82 60 3.65 <10 <1 0.15 10 1.27 812 8 0.04 59 4130 18 0.19 3 6 87 0.02 <10 <10 71 20 142CGH-06-117 24.55 27.43 VA06100259 99297 0.081 2.1 1.8 209 <10 630 <0.5 2 3.11 4.7 8 60 684 3.58 10 1 0.21 10 1.19 825 11 0.02 57 2730 55 0.47 7 5 74 <0.01 <10 <10 62 10 394CGH-06-117 27.43 30.48 VA06100259 99298 0.045 1.7 1.59 27 <10 820 <0.5 <2 2.48 0.5 8 42 267 2.93 <10 <1 0.15 10 1.12 560 7 0.01 53 2420 26 0.39 4 4 65 <0.01 <10 <10 75 20 76CGH-06-117 30.48 33.53 VA06100259 99299 0.098 3.1 1.29 235 <10 370 <0.5 <2 2.7 3.5 10 19 558 2.6 <10 1 0.14 <10 0.87 657 4 0.01 27 1000 42 0.6 7 4 54 <0.01 <10 <10 38 20 312CGH-06-117 33.53 36.58 VA06100259 99300 0.035 1.6 2.29 38 <10 280 <0.5 2 2.51 0.6 18 93 459 4.4 10 1 0.17 30 1.59 646 3 0.02 57 2260 15 0.68 6 5 77 0.01 <10 <10 96 10 104CGH-06-117 36.58 38.48 VA06100259 99301 0.018 1.8 0.86 34 <10 130 <0.5 <2 2.34 1.7 31 15 185 2.88 <10 <1 0.08 <10 0.6 504 2 0.01 19 150 21 1.4 7 3 48 <0.01 <10 <10 20 30 144CGH-06-117 38.48 41.55 VA06100259 99302 0.075 4.2 4.3 65 <10 290 1.1 2 9.76 2.9 41 472 794 7.58 10 1 0.16 10 5.98 2050 1 0.01 254 2340 32 0.77 8 30 249 0.03 <10 10 166 <10 371CGH-06-117 41.55 42.67 VA06100259 99303 0.008 0.3 1.02 8 <10 1630 <0.5 <2 2.33 <0.5 5 7 89 1.69 <10 1 0.12 10 0.62 557 1 0.02 17 330 5 0.15 3 3 47 <0.01 <10 <10 18 10 44CGH-06-117 41.55 42.67 VA06100259 99304 0.011 0.4 1.07 11 <10 1700 <0.5 <2 2.41 <0.5 5 26 95 1.77 <10 <1 0.12 10 0.7 572 1 0.02 19 350 5 0.14 2 4 49 <0.01 <10 <10 20 10 49CGH-06-117 42.67 45.60 VA06100259 99305 0.099 0.6 1.13 7 <10 140 <0.5 <2 3.24 <0.5 9 4 364 2.34 <10 1 0.17 <10 0.67 625 3 0.01 15 420 6 0.82 <2 3 52 <0.01 <10 <10 20 10 37CGH-06-117 45.60 48.70 VA06100259 99306 0.144 0.8 1.7 34 <10 50 <0.5 <2 4.29 <0.5 17 9 1120 4.2 <10 1 0.26 10 1.28 757 78 0.03 7 1300 13 2.53 <2 5 75 <0.01 <10 <10 70 <10 52CGH-06-117 48.70 51.82 VA06100259 99307 0.144 0.8 1.98 9 10 60 0.5 <2 3.66 <0.5 20 4 773 5.53 <10 1 0.3 <10 1.57 643 13 0.04 13 1570 4 3.75 2 5 79 <0.01 <10 <10 83 <10 37CGH-06-117 51.82 53.04 VA06100259 99308 0.128 1.5 2.01 13 <10 50 <0.5 <2 3.69 <0.5 22 9 1220 5.41 10 1 0.32 <10 1.39 670 25 0.03 10 1550 3 3.19 <2 4 85 <0.01 <10 <10 86 <10 33CGH-06-117 53.04 55.61 VA06100259 99309 0.062 0.9 0.31 31 <10 40 <0.5 <2 5.98 <0.5 13 5 106 2.57 <10 <1 0.15 <10 0.13 1005 5 0.01 16 570 5 2.54 3 2 65 <0.01 <10 <10 6 10 11CGH-06-117 55.61 57.91 VA06100259 99310 0.059 1.6 2.73 10 <10 40 <0.5 <2 3.63 <0.5 31 6 529 6.63 <10 <1 0.43 <10 1.5 734 5 0.04 10 1570 5 3.64 4 6 89 <0.01 <10 <10 106 <10 39CGH-06-117 57.91 60.10 VA06100259 99311 0.114 1.1 3.15 13 10 30 0.5 2 4.21 1.2 20 5 328 5.72 10 2 0.64 <10 1.51 857 2 0.09 10 1560 4 2.94 3 8 138 0.01 <10 <10 116 <10 102CGH-06-117 60.10 61.55 VA06100259 99312 0.081 0.8 2.92 10 10 50 0.6 <2 2.78 <0.5 13 5 203 4.51 <10 1 0.7 10 1.21 516 2 0.03 19 1640 4 2.29 2 6 127 0.01 <10 <10 45 <10 40CGH-06-117 61.55 64.42 VA06100259 99313 0.027 0.3 1.7 4 <10 60 <0.5 <2 2.53 <0.5 9 7 118 2.52 <10 <1 0.38 10 0.92 451 1 0.02 18 600 3 1.16 2 5 85 0.01 <10 <10 19 <10 23CGH-06-117 64.42 67.42 VA06100259 99314 0.119 0.6 1.26 5 <10 40 <0.5 <2 2.65 <0.5 9 8 238 2.12 <10 <1 0.41 <10 0.6 445 4 0.02 18 610 3 1.51 2 3 73 <0.01 <10 10 22 <10 16CGH-06-117 Standard 6 VA06100259 99315 0.271 0.6 1.11 17 <10 40 <0.5 4 3.03 <0.5 17 413 3340 6.31 <10 3 0.36 <10 1.19 785 10 0.06 335 1210 13 3.16 11 8 195 <0.01 <10 <10 61 <10 123CGH-06-117 67.42 68.85 VA06100259 99316 0.155 0.3 4.43 10 <10 60 1.1 2 8.61 <0.5 46 379 403 8.51 10 1 0.41 10 4.42 1330 1 0.03 151 2470 2 1.99 2 33 238 0.05 <10 10 216 <10 116CGH-06-117 68.85 70.10 VA06100259 99317 0.094 0.8 1.08 12 <10 40 <0.5 <2 1.61 <0.5 10 9 227 2.66 <10 1 0.27 10 0.54 275 1 0.01 20 570 4 1.74 2 3 35 <0.01 <10 <10 19 <10 19CGH-06-117 70.10 72.37 VA06100259 99318 0.049 0.4 1.37 27 10 40 <0.5 <2 3.72 <0.5 10 35 112 2.75 <10 1 0.48 10 0.52 560 1 0.01 24 570 3 2.07 3 6 67 0.01 <10 <10 30 <10 14CGH-06-117 72.37 73.39 VA06100259 99319 0.056 0.5 4.66 22 10 140 0.7 <2 3.56 <0.5 18 6 288 6.13 10 1 1.06 10 1.96 946 1 0.05 7 1630 9 1.26 2 8 86 <0.01 <10 <10 130 <10 66CGH-06-117 73.39 74.33 VA06100259 99320 0.014 0.2 3.92 31 10 320 0.8 2 5.95 <0.5 26 180 66 5.47 10 1 0.46 20 3.35 1330 1 0.06 86 1900 4 0.64 2 19 151 0.01 <10 <10 138 <10 82
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-117 74.33 75.00 VA06100259 99321 0.149 0.8 3.47 53 10 130 0.5 <2 7.56 0.7 17 6 202 4.43 10 <1 0.74 10 1.62 1390 1 0.08 8 1470 13 0.96 3 8 133 <0.01 <10 <10 118 <10 66CGH-06-117 75.00 76.20 VA06100259 99322 0.013 0.3 4.08 40 10 720 0.6 <2 5.96 <0.5 30 195 71 5.49 10 2 0.32 20 3.86 1290 2 0.06 93 1650 7 0.38 4 17 184 0.01 <10 <10 135 <10 83CGH-06-117 76.20 79.25 VA06100259 99323 0.005 0.2 3.86 19 <10 1320 0.6 3 6.54 <0.5 32 221 40 5.21 10 <1 0.24 20 4.02 1430 <1 0.05 121 1550 6 0.18 5 17 234 0.04 <10 <10 125 <10 79CGH-06-117 79.25 80.35 VA06100259 99324 0.012 0.4 3.97 31 <10 610 0.7 <2 5.2 <0.5 30 193 85 5.73 10 2 0.22 20 3.95 1250 1 0.06 93 1760 8 0.43 8 17 236 0.06 <10 <10 143 <10 80CGH-06-117 80.35 82.30 VA06100259 99325 0.053 0.7 2.58 37 10 290 0.5 <2 4.41 <0.5 14 8 167 4.85 10 <1 0.28 10 1.83 968 1 0.06 8 1600 10 0.96 4 8 120 <0.01 <10 <10 127 <10 54CGH-06-117 80.35 82.30 VA06100259 99326 0.055 0.7 3.12 40 10 360 0.6 <2 4.47 <0.5 14 12 171 5.07 10 <1 0.48 10 1.95 991 1 0.09 8 1650 8 0.99 4 9 129 <0.01 <10 <10 136 <10 53CGH-06-117 82.30 85.02 VA06100259 99327 0.039 1.2 2.52 46 <10 190 0.5 <2 5.97 0.5 15 5 311 4.95 10 <1 0.35 10 1.47 1520 1 0.04 9 1520 21 0.89 6 6 165 <0.01 <10 <10 102 <10 67CGH-06-117 85.02 86.40 VA06100259 99328 0.008 0.3 3.92 16 <10 430 0.6 <2 5.9 <0.5 32 217 60 5.86 10 1 0.21 20 4.29 1555 1 0.04 124 1780 4 0.56 4 18 182 0.01 <10 <10 130 <10 99CGH-06-117 86.40 87.43 VA06100259 99329 0.098 14.4 0.8 67 <10 80 <0.5 <2 3.23 0.6 10 12 891 2.29 <10 1 0.19 <10 0.4 670 1 0.01 14 540 11 1.39 16 3 83 <0.01 <10 <10 16 <10 35CGH-06-117 87.43 89.50 VA06100259 99330 0.210 4.0 1.65 235 <10 140 <0.5 <2 6.27 <0.5 18 7 2950 4.71 <10 <1 0.21 <10 1.03 1235 2 0.01 8 1150 11 2.56 5 4 130 <0.01 <10 <10 34 <10 61CGH-06-117 89.50 91.44 VA06100259 99331 0.031 0.6 1.18 30 <10 370 <0.5 <2 2.41 <0.5 10 10 86 1.98 <10 1 0.2 10 0.64 479 1 0.01 11 390 4 0.46 3 3 45 <0.01 <10 <10 24 <10 22CGH-06-117 91.44 94.49 VA06100259 99332 0.085 0.6 1.31 13 <10 330 <0.5 <2 1.47 <0.5 15 16 560 2.35 10 1 0.16 10 0.95 333 2 0.03 16 580 3 0.65 <2 3 52 <0.01 <10 <10 34 <10 28CGH-06-117 94.49 97.54 VA06100259 99333 0.057 0.3 1.38 12 <10 60 <0.5 <2 1.73 <0.5 16 12 162 2.74 10 <1 0.2 10 0.9 363 2 0.02 22 270 3 1.2 2 3 56 <0.01 <10 <10 37 <10 23CGH-06-117 97.54 100.58 VA06100259 99334 0.027 0.4 1.72 4 <10 100 <0.5 <2 1.46 <0.5 9 15 65 2.99 <10 1 0.27 10 1.01 314 <1 0.01 14 370 2 0.89 <2 4 51 0.01 <10 <10 38 <10 22CGH-06-117 100.58 103.63 VA06100259 99335 0.112 0.7 0.75 21 <10 330 <0.5 <2 1.96 <0.5 7 15 136 1.37 <10 1 0.16 10 0.45 363 <1 0.01 11 410 3 0.56 <2 2 56 <0.01 <10 <10 14 10 13CGH-06-117 103.63 106.68 VA06100259 99336 0.040 1.1 0.73 21 <10 140 <0.5 <2 2.16 0.5 8 7 132 1.57 <10 1 0.18 <10 0.42 434 1 0.01 11 260 7 0.86 2 2 51 <0.01 <10 <10 15 10 34CGH-06-117 BLANK VA06100259 99337 <0.005 <0.2 1.62 4 <10 530 <0.5 <2 3.33 <0.5 6 6 17 3.55 <10 1 0.19 10 1.13 574 1 0.14 3 1570 2 0.29 3 8 136 <0.01 <10 <10 74 10 33CGH-06-117 106.68 109.73 VA06100259 99338 0.064 1.2 1.09 17 <10 280 <0.5 <2 2.07 1.2 8 10 107 2.01 <10 <1 0.15 <10 0.78 454 1 0.01 16 690 6 0.7 3 2 50 <0.01 <10 <10 20 10 89CGH-06-117 109.73 112.78 VA06100259 99339 0.112 1.9 1.18 12 <10 200 <0.5 <2 3.35 0.7 6 25 111 2.06 <10 <1 0.14 <10 0.92 653 3 0.02 21 590 6 0.53 <2 3 79 <0.01 <10 <10 40 10 54CGH-06-117 112.78 115.82 VA06100259 99340 0.081 4.1 0.94 38 <10 520 <0.5 <2 4.24 1.7 8 34 191 1.78 <10 <1 0.12 10 0.61 731 13 0.02 34 840 13 0.47 5 2 89 <0.01 <10 10 73 10 183CGH-06-117 115.82 118.87 VA06100259 99341 0.055 0.6 0.84 8 <10 1130 <0.5 <2 1.24 <0.5 4 26 106 1.23 <10 <1 0.12 10 0.58 276 1 0.02 20 310 4 0.1 2 2 42 <0.01 <10 <10 16 10 35CGH-06-117 118.87 121.92 VA06100259 99342 0.062 0.8 0.94 41 <10 500 <0.5 <2 3.76 1.2 6 12 226 1.55 <10 <1 0.15 10 0.64 544 6 0.02 20 710 15 0.4 4 2 109 <0.01 <10 <10 33 10 99CGH-06-117 121.92 124.97 VA06100259 99343 0.042 0.7 1.06 36 <10 280 <0.5 <2 2.58 1.4 11 34 112 2 <10 1 0.13 10 0.77 456 28 0.02 30 860 13 0.64 5 2 68 <0.01 <10 <10 120 10 140CGH-06-117 124.97 128.02 VA06100259 99344 0.018 0.6 1.5 39 <10 530 <0.5 <2 2.52 1.9 9 24 89 2.52 <10 <1 0.12 10 1.22 503 65 0.02 51 1700 23 0.52 6 4 67 <0.01 <10 10 290 <10 161CGH-06-117 128.02 130.20 VA06100259 99345 0.007 0.2 2.25 17 <10 90 0.5 <2 3.47 <0.5 14 11 77 4.47 10 2 0.21 10 1.37 900 2 0.04 10 1400 6 1.05 5 6 120 <0.01 <10 <10 107 <10 58CGH-06-117 130.20 132.00 VA06100259 99346 0.016 0.4 2.34 54 10 60 0.8 2 5.18 0.9 14 11 63 4.27 10 1 0.28 10 1.23 1210 2 0.02 12 1590 11 0.74 6 5 182 <0.01 <10 10 73 <10 137CGH-06-117 132.00 134.11 VA06100259 99347 0.009 0.6 1.48 34 <10 120 <0.5 <2 9.92 <0.5 10 56 79 2.94 <10 <1 0.19 10 0.67 1940 35 0.01 76 3320 7 0.58 3 4 237 <0.01 <10 10 306 <10 30CGH-06-117 Standard 5 VA06100259 99348 0.143 0.3 1.71 7 <10 170 <0.5 <2 1.39 <0.5 23 1045 1530 4.73 10 1 0.23 <10 0.84 594 16 0.13 846 650 6 0.92 3 5 77 0.11 <10 <10 66 <10 53CGH-06-117 134.11 137.16 VA06100259 99349 0.008 1.0 1.58 53 <10 140 <0.5 <2 7.34 2.3 12 73 173 3.26 <10 1 0.16 10 0.87 1575 59 0.02 75 1250 28 0.72 4 5 153 <0.01 <10 10 255 <10 243CGH-06-117 137.16 140.21 VA06100259 99350 0.008 0.7 2.18 78 <10 70 0.5 <2 4.41 <0.5 11 87 398 5.5 10 2 0.14 10 1.59 1025 56 0.02 79 870 7 1.71 3 8 100 0.01 <10 10 253 <10 42CGH-06-117 140.21 143.00 VA06100259 99351 0.034 0.7 1.74 76 10 230 0.6 <2 11.75 <0.5 8 34 131 3.49 <10 1 0.06 10 1.6 2070 92 0.01 146 1380 4 0.21 2 5 203 0.05 <10 10 370 <10 84CGH-06-117 143.00 144.60 VA06100259 99352 0.046 0.5 1.72 281 <10 330 0.5 <2 7.5 <0.5 15 46 23 2.74 <10 <1 0.18 10 1 1700 99 0.01 184 2770 26 0.08 4 5 174 <0.01 <10 10 437 <10 54CGH-06-117 144.60 147.00 VA06100259 99353 0.011 1.3 2.2 76 <10 320 0.5 <2 7.4 3.5 11 4 330 3.81 10 1 0.24 10 1.3 1750 4 0.04 12 1900 53 0.66 5 7 152 <0.01 <10 <10 115 <10 318CGH-06-117 147.00 149.94 VA06100259 99354 <0.005 0.4 2.22 32 <10 150 <0.5 <2 5.74 0.5 17 3 93 3.9 <10 <1 0.23 10 1.44 1375 2 0.04 5 1860 20 0.33 3 10 129 0.01 <10 <10 116 <10 100CGH-06-117 149.94 152.40 VA06100259 99355 0.009 1.0 1.15 89 <10 430 <0.5 <2 6.31 <0.5 17 28 50 2.47 <10 1 0.17 10 0.63 1240 124 0.01 180 490 10 0.66 2 3 134 <0.01 <10 10 436 <10 24CGH-06-117 152.40 154.60 VA06100259 99356 <0.005 0.6 1.72 21 <10 970 0.5 <2 7.42 <0.5 9 5 84 3.73 <10 1 0.25 10 0.68 2090 6 0.03 12 1200 5 0.31 2 5 189 <0.01 <10 <10 64 <10 18CGH-06-117 154.60 155.45 VA06100259 99357 0.014 3.5 0.38 17 <10 100 <0.5 <2 21.3 0.6 11 4 330 1.64 <10 <1 0.1 10 0.28 4620 46 0.01 50 430 14 0.7 6 2 273 <0.01 <10 10 74 <10 46CGH-06-118 6.10 9.14 VA06100280 97258 0.399 0.3 0.92 771 10 310 0.5 <2 9.85 <0.5 10 <1 111 2.65 <10 <1 0.29 10 0.85 3350 2 0.02 3 1030 7 0.81 9 6 152 <0.01 <10 <10 29 <10 45CGH-06-118 6.10 9.14 VA06100280 97259 0.239 0.2 0.63 502 10 390 <0.5 <2 11.1 <0.5 7 <1 89 2.34 <10 <1 0.28 10 1.05 3740 2 0.02 3 880 6 0.58 5 5 172 <0.01 <10 <10 19 <10 42CGH-06-118 9.14 12.19 VA06100280 97260 0.057 0.3 1.09 44 10 60 0.6 <2 7.92 <0.5 19 5 248 2.66 <10 <1 0.38 10 0.4 2350 1 0.01 5 1160 6 1.69 3 7 163 <0.01 <10 <10 29 <10 45CGH-06-118 12.19 13.85 VA06100280 97261 0.032 <0.2 2.11 49 10 100 0.6 <2 4.63 <0.5 16 2 99 4.27 10 <1 0.31 10 1.05 2570 1 0.01 4 1410 16 0.97 <2 8 104 <0.01 <10 <10 71 <10 135CGH-06-118 13.85 15.24 VA06103293 C097262 0.104 0.6 2.88 54 <10 100 0.5 <2 5.66 <0.5 15 <1 33 6.38 10 <1 0.27 10 1.81 4020 <1 <0.01 3 1810 10 1.76 3 9 109 <0.01 <10 <10 120 <10 156CGH-06-118 15.24 18.29 VA06103293 C097263 0.011 0.3 2.99 3 <10 150 0.6 <2 5.46 <0.5 30 25 156 6.53 10 <1 0.63 10 2.4 1685 <1 0.03 21 1940 5 0.56 <2 18 117 0.23 <10 <10 231 <10 65CGH-06-118 18.29 21.34 VA06103293 C097264 0.015 0.6 2.86 8 10 90 0.6 <2 4.32 <0.5 22 11 234 5.98 10 <1 0.25 10 1.93 1880 2 0.01 14 1600 6 0.46 4 10 94 0.01 <10 <10 138 <10 108CGH-06-118 21.34 24.38 VA06103293 C097265 0.017 0.6 3.3 12 <10 90 0.5 <2 4.99 <0.5 35 26 184 7.68 10 <1 0.48 10 2.74 2010 <1 0.02 23 1780 4 1.02 <2 17 95 0.15 <10 <10 224 <10 121CGH-06-118 24.38 27.43 VA06103293 C097266 0.008 0.4 2.66 <2 <10 60 0.5 <2 5.98 <0.5 20 29 133 6.06 10 1 0.31 10 2.07 1825 <1 0.03 21 1440 4 0.34 <2 16 129 0.11 <10 <10 175 <10 80CGH-06-118 27.43 30.48 VA06103293 C097267 0.009 0.4 3.17 <2 <10 60 0.5 <2 5.07 <0.5 34 36 145 7.39 10 1 0.28 10 2.86 1635 <1 0.09 24 1840 6 0.67 <2 19 113 0.33 <10 <10 251 <10 90CGH-06-118 30.48 33.53 VA06103293 C097268 0.007 0.3 3.28 7 10 20 0.5 <2 5.4 <0.5 20 34 40 7.14 10 <1 0.19 10 2.63 1710 <1 0.02 21 1840 8 0.5 <2 16 142 0.09 <10 <10 186 <10 114CGH-06-118 33.53 36.58 VA06103293 C097269 0.009 0.3 2.74 7 <10 70 0.5 <2 3.88 <0.5 28 28 127 6.53 10 <1 0.27 10 2.76 1410 <1 0.1 25 2120 8 0.58 <2 17 110 0.38 <10 <10 253 <10 79CGH-06-118 Standard 2 VA06103293 C097270 0.937 3.2 0.94 14 10 50 <0.5 <2 1.74 <0.5 28 1650 >10000 11.35 <10 1 0.47 <10 0.84 1100 31 0.01 1260 650 7 3.6 3 5 63 0.01 <10 <10 62 <10 85 1.18CGH-06-118 36.58 39.62 VA06103293 C097271 0.011 0.3 2.64 <2 10 40 <0.5 <2 4.16 <0.5 26 10 139 6.05 10 <1 0.16 10 2.36 1330 <1 0.1 14 1960 7 0.54 <2 13 140 0.3 <10 <10 203 <10 76CGH-06-118 39.62 42.67 VA06103293 C097272 0.008 0.3 3.08 82 10 120 0.8 <2 5.52 <0.5 25 5 84 6.76 10 1 0.46 10 1.82 1630 <1 0.06 15 2060 7 0.59 3 17 163 0.11 <10 <10 184 <10 77CGH-06-118 42.67 45.72 VA06103293 C097273 0.007 0.5 2.83 24 10 370 0.7 <2 5.54 <0.5 24 7 72 6.69 10 1 0.34 10 1.72 1885 <1 0.01 16 1780 7 0.57 4 14 136 0.03 <10 <10 153 <10 87CGH-06-118 45.72 48.77 VA06103293 C097274 0.006 <0.2 2.89 15 <10 40 0.6 <2 5.65 <0.5 25 25 72 7.32 10 <1 0.27 10 1.98 1605 <1 0.05 30 2130 13 0.6 3 17 124 0.1 <10 <10 197 <10 91CGH-06-118 48.77 51.82 VA06103293 C097275 0.006 <0.2 3.04 2 <10 20 <0.5 <2 6.01 <0.5 17 44 35 5.91 10 <1 0.1 10 2.71 1725 <1 0.07 27 2030 6 0.11 2 17 172 0.2 <10 <10 210 <10 93CGH-06-118 51.82 54.86 VA06103293 C097276 0.011 0.3 2.58 9 <10 40 <0.5 <2 5.63 <0.5 25 40 38 5.79 10 <1 0.2 10 2.48 1510 <1 0.08 30 2050 8 0.91 2 18 142 0.16 <10 <10 209 <10 63CGH-06-118 54.86 57.91 VA06103293 C097277 0.006 <0.2 2.38 5 <10 40 0.5 2 5.57 <0.5 14 34 12 7.21 10 <1 0.1 10 2.25 1505 <1 0.1 27 1920 4 0.28 <2 18 154 0.13 <10 <10 214 <10 67CGH-06-118 57.91 60.96 VA06103293 C097278 0.012 <0.2 2.15 21 10 200 0.7 2 6.5 <0.5 21 17 73 6.29 10 <1 0.34 10 1.37 1525 1 0.04 22 1980 9 1.37 3 14 250 0.02 <10 <10 101 <10 69CGH-06-118 60.96 64.01 VA06103293 C097279 0.007 <0.2 2.87 7 <10 150 0.5 2 5.59 <0.5 18 11 55 6.4 10 <1 0.22 10 2.22 1655 <1 0.05 14 1990 8 0.27 2 12 207 0.06 <10 <10 174 <10 93CGH-06-118 64.01 67.06 VA06103293 C097280 0.009 <0.2 3.05 14 <10 290 0.5 <2 5.98 <0.5 27 226 56 6.03 10 1 0.83 10 3.31 1940 <1 0.08 106 1980 9 0.16 <2 16 221 0.19 <10 <10 188 <10 78CGH-06-118 64.01 67.06 VA06103293 C097281 0.010 <0.2 3.02 15 <10 300 0.5 <2 5.89 <0.5 24 224 50 6 10 <1 0.82 10 3.33 1955 <1 0.07 103 1980 6 0.17 <2 16 223 0.18 <10 <10 184 <10 78CGH-06-118 67.06 70.10 VA06103293 C097282 0.006 <0.2 4.03 4 <10 290 0.7 2 7.19 <0.5 32 428 40 6.92 10 <1 0.72 <10 5.12 2620 <1 0.04 172 2000 11 0.32 <2 23 257 0.13 <10 <10 177 <10 116CGH-06-118 70.10 73.15 VA06103293 C097283 0.010 0.2 4.2 8 <10 170 0.8 <2 8.31 <0.5 33 485 40 6.57 10 <1 0.58 <10 5.4 3910 <1 0.03 184 2000 7 0.34 <2 27 304 0.1 <10 <10 180 <10 116CGH-06-118 73.15 76.20 VA06103293 C097284 <0.005 0.2 4 9 <10 460 0.7 <2 7.75 <0.5 36 464 62 5.87 10 1 0.84 <10 5.44 2180 1 0.04 178 1880 7 0.35 <2 23 548 0.14 <10 <10 162 <10 91CGH-06-118 76.20 79.25 VA06103293 C097285 0.027 0.4 3.4 36 <10 190 0.5 <2 8.08 <0.5 27 291 47 6.72 10 1 0.36 10 3.23 6350 1 0.02 133 1760 13 1.27 <2 23 276 0.01 <10 <10 134 <10 140CGH-06-118 79.25 82.30 VA06103293 C097286 0.016 0.2 3.56 20 <10 460 0.5 <2 3.94 <0.5 25 184 52 6.01 10 <1 0.25 10 3.25 1960 <1 0.03 105 1190 13 0.91 <2 13 157 0.01 <10 <10 114 <10 119CGH-06-118 82.30 85.34 VA06103293 C097287 0.008 <0.2 3.3 15 <10 260 0.6 <2 5.84 <0.5 25 170 110 6.27 10 <1 0.5 10 2.25 1965 1 0.02 77 1800 9 0.73 <2 16 221 0.02 <10 <10 122 <10 93CGH-06-118 85.34 88.39 VA06103293 C097288 0.013 0.4 3.02 19 10 140 0.5 <2 4.7 <0.5 30 91 132 6.58 10 <1 0.35 10 2.09 1670 2 0.03 54 1640 9 2.58 <2 12 157 <0.01 <10 <10 119 <10 79CGH-06-118 88.39 91.44 VA06103293 C097289 0.043 0.2 2.61 11 <10 120 0.5 <2 4.77 <0.5 23 37 166 6.38 10 <1 0.36 10 1.7 1630 <1 0.08 15 1770 6 0.57 <2 14 148 0.11 <10 <10 183 <10 78CGH-06-118 91.44 94.50 VA06103293 C097290 <0.005 <0.2 2.58 7 <10 130 <0.5 <2 3.84 <0.5 19 105 59 5.5 10 <1 0.26 10 2.39 1210 2 0.08 48 1760 5 0.28 <2 13 105 0.08 <10 <10 160 <10 60CGH-06-118 94.50 97.54 VA06103293 C097291 <0.005 <0.2 3.19 4 <10 120 0.5 <2 4.6 <0.5 30 353 20 5.18 10 <1 0.84 10 3.97 1260 2 0.07 140 1820 6 0.08 <2 14 174 0.21 <10 <10 160 <10 72CGH-06-118 Standard 6 VA06103293 C097292 0.249 0.6 1.08 12 <10 70 <0.5 <2 2.9 <0.5 15 426 3360 6.33 <10 1 0.35 <10 1.18 812 10 0.05 344 1240 18 3.33 6 8 198 <0.01 <10 <10 60 <10 129CGH-06-118 97.54 100.58 VA06103293 C097293 <0.005 <0.2 2.54 <2 <10 170 <0.5 <2 1.98 <0.5 23 204 49 4.31 10 <1 0.8 10 3.19 758 2 0.13 84 1750 5 0.15 <2 6 132 0.29 <10 <10 147 <10 49CGH-06-118 100.58 103.63 VA06103293 C097294 0.009 <0.2 1.8 <2 <10 100 <0.5 <2 1.8 <0.5 21 41 159 4.49 10 <1 0.34 10 1.87 654 9 0.12 27 1650 8 0.47 <2 7 96 0.38 <10 <10 184 <10 34CGH-06-118 103.63 106.68 VA06103293 C097295 0.040 <0.2 1.74 <2 <10 50 <0.5 <2 2.65 <0.5 20 42 151 4.62 10 1 0.16 10 1.84 856 2 0.12 26 1590 8 0.38 <2 10 119 0.32 <10 <10 163 <10 37CGH-06-118 106.68 109.73 VA06103293 C097296 0.014 <0.2 2.13 <2 <10 100 <0.5 <2 5.22 <0.5 24 36 155 6.08 10 <1 0.17 10 1.67 1315 <1 0.09 17 1900 6 0.34 2 16 132 0.09 <10 <10 204 <10 49CGH-06-118 109.73 112.78 VA06103293 C097297 0.009 <0.2 1.84 <2 <10 150 <0.5 <2 2.53 <0.5 19 35 177 5.09 10 <1 0.21 10 2.02 908 <1 0.14 18 1740 3 0.63 <2 11 123 0.35 <10 <10 179 <10 37CGH-06-118 112.78 115.82 VA06103293 C097298 0.019 0.2 2.13 7 <10 140 0.5 <2 3.71 <0.5 21 38 97 6.42 10 <1 0.18 10 2.18 1060 1 0.12 18 1870 6 0.45 3 14 173 0.31 <10 <10 227 <10 48CGH-06-118 115.82 118.87 VA06103293 C097299 0.010 <0.2 2.15 <2 <10 110 0.5 <2 5.26 <0.5 18 17 90 5.23 10 <1 0.25 10 1.63 1310 1 0.08 11 1500 5 0.37 <2 20 149 0.1 <10 <10 202 <10 49CGH-06-118 118.87 121.92 VA06103293 C097300 0.014 <0.2 2.01 <2 <10 160 <0.5 <2 5 <0.5 17 30 102 5.23 10 1 0.17 10 1.6 1080 <1 0.09 18 1750 8 0.67 <2 13 123 0.08 <10 <10 162 <10 46CGH-06-118 121.92 124.97 VA06103293 C097301 0.005 <0.2 2.23 <2 <10 60 <0.5 2 5.4 <0.5 16 41 34 4.98 10 <1 0.14 10 2.47 1365 <1 0.1 19 1960 8 0.18 <2 20 142 0.23 <10 <10 213 <10 52CGH-06-118 124.97 128.02 VA06103293 C097302 0.006 <0.2 2.13 2 <10 70 0.5 <2 3.97 <0.5 13 35 38 7 10 <1 0.16 10 2.36 1095 <1 0.12 20 2240 7 0.12 <2 16 128 0.3 <10 <10 244 <10 54CGH-06-118 124.97 128.02 VA06103293 C097303 0.005 <0.2 2.17 <2 <10 70 0.5 <2 4.06 <0.5 12 36 39 7.2 10 <1 0.16 10 2.43 1120 <1 0.12 21 2300 5 0.12 2 17 131 0.31 <10 <10 249 <10 54CGH-06-118 128.02 131.06 VA06103293 C097304 0.013 0.2 2.36 <2 <10 70 0.5 <2 5 <0.5 18 34 118 6.51 10 <1 0.15 10 2.37 1450 <1 0.14 17 2360 7 0.24 <2 18 154 0.32 <10 <10 242 <10 62CGH-06-118 131.06 134.11 VA06103293 C097305 0.010 <0.2 2.57 <2 <10 40 0.5 <2 5.94 <0.5 19 38 105 6.61 10 <1 0.11 10 2.67 1655 <1 0.13 20 2200 6 0.2 <2 21 155 0.34 <10 <10 265 <10 65
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-118 134.11 137.16 VA06103293 C097306 0.014 0.2 2.23 <2 <10 40 <0.5 <2 4.95 <0.5 23 28 144 6.99 10 <1 0.14 10 2.14 1360 1 0.11 19 2320 7 0.54 <2 17 132 0.34 <10 <10 266 <10 56CGH-06-120 19.04 21.34 VA06103294 C099358 0.007 0.7 0.7 17 10 280 <0.5 <2 5.12 <0.5 8 15 72 2.76 <10 <1 0.23 <10 1.77 1130 5 0.02 22 2100 6 0.69 <2 6 186 <0.01 <10 <10 43 <10 60CGH-06-120 19.04 21.34 VA06103294 C099359 <0.005 0.7 0.72 14 10 200 <0.5 <2 5.35 <0.5 7 19 59 2.77 <10 <1 0.24 <10 1.83 1205 5 0.02 23 2560 5 0.65 <2 5 223 <0.01 <10 <10 46 <10 60CGH-06-120 21.34 24.38 VA06103294 C099360 0.005 0.6 0.28 43 <10 80 <0.5 <2 1.83 0.5 5 14 52 1.79 <10 <1 0.13 <10 0.59 576 5 0.01 18 590 4 1.08 <2 2 93 <0.01 <10 <10 34 <10 91CGH-06-120 24.38 27.43 VA06103294 C099361 0.005 0.6 0.34 39 10 140 <0.5 <2 1.91 0.8 5 11 40 1.92 <10 <1 0.14 <10 0.59 583 9 0.01 17 1110 4 1.09 <2 2 129 <0.01 <10 <10 17 <10 122CGH-06-120 27.43 30.48 VA06103294 C099362 0.005 0.9 0.34 28 <10 100 <0.5 <2 2.67 1 7 11 47 2.14 <10 <1 0.13 <10 0.82 870 20 0.01 19 1900 7 1.02 <2 3 139 <0.01 <10 <10 37 <10 129CGH-06-120 30.48 33.53 VA06103294 C099363 0.008 1.7 0.53 36 <10 90 <0.5 2 2.53 7.8 8 23 72 2.01 <10 <1 0.15 <10 0.79 564 64 0.01 48 3410 20 0.93 3 3 119 <0.01 <10 10 231 <10 547CGH-06-120 33.53 36.58 VA06103294 C099364 0.014 2.4 0.29 40 <10 120 <0.5 <2 2.46 5.7 6 21 90 1.71 <10 <1 0.13 <10 0.72 732 110 0.01 50 2160 11 0.79 4 2 86 <0.01 <10 10 239 <10 359CGH-06-120 36.58 39.62 VA06103294 C099365 <0.005 0.7 0.15 17 <10 700 <0.5 <2 3.33 0.5 4 14 30 1.5 <10 <1 0.07 <10 1.17 1280 26 0.01 14 680 5 0.27 2 2 110 <0.01 <10 10 35 <10 52CGH-06-120 39.62 42.67 VA06103294 C099366 <0.005 0.7 0.18 24 <10 110 <0.5 <2 3.61 2.4 7 14 37 2.15 <10 <1 0.09 <10 1.44 1110 14 0.01 20 530 7 1.13 2 2 113 <0.01 <10 <10 25 <10 252CGH-06-120 42.67 45.72 VA06103294 C099367 <0.005 0.4 0.16 19 <10 260 <0.5 <2 1.43 1.1 4 12 29 1.45 <10 <1 0.08 <10 0.51 567 1 0.01 12 180 7 0.88 <2 2 44 <0.01 <10 <10 4 <10 141CGH-06-120 45.72 48.77 VA06103294 C099368 0.026 1.5 0.29 39 <10 30 <0.5 2 4.53 3.9 20 6 49 3.07 <10 1 0.13 <10 1.7 2840 3 0.01 14 360 32 1.88 3 3 104 <0.01 <10 <10 11 <10 793CGH-06-120 48.77 51.82 VA06103294 C099369 0.005 0.7 0.13 13 <10 180 <0.5 <2 1.75 <0.5 5 16 35 1.45 <10 <1 0.06 <10 0.6 817 3 0.01 13 140 7 0.59 <2 2 33 <0.01 <10 <10 8 <10 85CGH-06-120 Standard 2 VA06103294 C099370 1.005 0.75 3.2 0.93 15 <10 90 <0.5 <2 1.73 <0.5 30 1555 >10000 11.5 <10 1 0.45 <10 0.81 1110 29 0.04 1290 670 9 3.68 6 5 66 0.01 <10 <10 58 <10 81 1.17CGH-06-120 51.82 54.86 VA06103294 C099371 <0.005 0.4 0.55 11 <10 70 <0.5 <2 0.99 <0.5 9 15 57 2.52 <10 <1 0.11 <10 0.64 513 1 0.01 16 450 7 1.24 2 3 35 <0.01 <10 <10 14 <10 128CGH-06-120 54.86 57.91 VA06103294 C099372 0.005 0.4 0.92 9 <10 360 <0.5 <2 0.79 1.4 9 13 40 2.61 <10 <1 0.1 <10 0.74 443 <1 0.02 16 340 7 0.37 2 4 62 <0.01 <10 <10 24 <10 147CGH-06-120 57.91 60.96 VA06103294 C099373 0.028 1.4 0.41 30 <10 80 <0.5 <2 2.56 3.3 6 17 51 2 <10 <1 0.16 <10 0.82 1080 4 0.01 35 1880 10 0.78 2 3 154 <0.01 <10 10 18 <10 386CGH-06-120 60.96 64.01 VA06103294 C099374 0.012 1.1 0.24 35 <10 70 <0.5 <2 1.65 1.7 5 9 65 2.09 <10 <1 0.1 <10 0.53 677 29 0.01 22 620 7 1.08 2 3 64 <0.01 <10 <10 34 <10 177CGH-06-120 64.01 67.06 VA06103294 C099375 0.010 1.4 0.44 34 <10 400 <0.5 <2 2.13 <0.5 7 10 61 2.57 <10 <1 0.14 <10 0.81 1160 23 0.01 22 1050 10 0.58 <2 4 64 <0.01 <10 <10 72 <10 37CGH-06-120 67.06 70.10 VA06103294 C099376 0.005 0.4 0.35 20 <10 900 <0.5 <2 1.22 <0.5 9 8 48 2.76 <10 <1 0.13 <10 0.57 671 1 0.02 19 690 2 0.29 2 4 58 <0.01 <10 <10 12 <10 25CGH-06-120 79.25 82.30 VA06103294 C099377 <0.005 0.2 0.28 12 <10 1080 <0.5 <2 1.53 <0.5 7 10 28 2.36 <10 <1 0.1 <10 0.66 774 1 0.02 11 320 3 0.26 <2 4 81 <0.01 <10 <10 16 <10 38CGH-06-120 82.30 85.34 VA06103294 C099378 <0.005 0.4 0.6 21 <10 1140 <0.5 <2 1.43 <0.5 11 10 62 3.74 <10 <1 0.15 10 0.76 873 1 0.02 22 1430 <2 0.23 <2 5 140 <0.01 <10 <10 20 <10 64CGH-06-120 85.34 88.39 VA06103294 C099379 <0.005 0.3 0.35 30 <10 1800 0.5 <2 1.9 <0.5 10 7 34 2.87 <10 <1 0.14 10 0.76 1090 <1 0.02 18 420 2 0.13 2 5 125 <0.01 <10 <10 20 <10 30CGH-06-120 97.54 100.58 VA06103294 C099380 <0.005 <0.2 1.19 4 <10 240 <0.5 <2 0.84 <0.5 8 8 73 3.47 <10 <1 0.14 <10 0.96 407 1 0.02 20 330 5 0.52 <2 6 79 <0.01 <10 <10 17 <10 76CGH-06-120 97.54 100.58 VA06103294 C099381 <0.005 <0.2 1.19 5 <10 440 <0.5 <2 0.83 <0.5 9 10 69 3.35 <10 <1 0.14 <10 0.95 409 <1 0.02 17 310 4 0.47 <2 6 82 <0.01 <10 <10 17 <10 78CGH-06-120 100.58 103.63 VA06103294 C099382 <0.005 0.7 0.31 7 <10 50 <0.5 <2 1.11 1.7 8 6 70 1.79 <10 <1 0.13 <10 0.38 316 1 0.01 15 590 10 0.93 2 3 118 <0.01 <10 <10 5 <10 95CGH-06-120 103.63 106.68 VA06103294 C099383 <0.005 0.2 0.22 8 <10 50 <0.5 <2 0.86 <0.5 6 13 64 1.41 <10 <1 0.09 <10 0.33 396 <1 0.01 20 250 11 1.04 <2 3 85 <0.01 <10 <10 5 <10 36CGH-06-120 106.68 109.73 VA06103294 C099384 <0.005 0.3 0.15 24 <10 80 <0.5 <2 2.14 <0.5 18 22 58 1.11 <10 <1 0.06 <10 0.91 2130 1 0.01 27 90 6 0.74 3 3 123 <0.01 <10 <10 7 <10 17CGH-06-120 118.87 121.92 VA06103294 C099385 0.012 3.6 0.3 48 <10 40 <0.5 <2 5.4 6 7 17 91 2.56 <10 1 0.14 <10 2.11 1190 42 0.01 80 1060 14 1.98 12 4 204 <0.01 <10 <10 122 <10 444CGH-06-120 121.92 124.97 VA06103294 C099386 <0.005 0.3 0.22 13 <10 150 <0.5 <2 2.41 <0.5 8 22 48 1.44 <10 <1 0.12 <10 0.92 1030 2 0.01 26 250 4 0.63 2 6 113 <0.01 <10 <10 15 <10 30CGH-06-120 124.97 128.02 VA06103294 C099387 0.010 1.3 0.27 17 <10 50 <0.5 <2 2.07 <0.5 6 12 70 1.89 <10 1 0.12 <10 0.82 788 3 0.01 27 230 10 1.28 5 3 110 <0.01 <10 <10 10 <10 64CGH-06-120 128.02 131.06 VA06103294 C099388 0.018 4.2 0.32 40 <10 30 <0.5 <2 2.15 0.8 9 15 116 2.88 <10 1 0.14 <10 0.85 599 16 0.01 45 600 22 2.33 13 4 105 <0.01 <10 <10 22 <10 137CGH-06-120 131.06 134.11 VA06103294 C099389 0.005 2.4 0.23 27 <10 40 <0.5 <2 2.37 <0.5 8 13 86 2.12 <10 1 0.1 <10 0.88 1100 6 0.01 34 300 11 1.52 6 4 113 <0.01 <10 <10 15 <10 27CGH-06-120 134.11 137.16 VA06103294 C099390 0.008 2.6 0.3 45 <10 30 <0.5 <2 2.59 0.5 7 11 65 2.54 <10 <1 0.13 <10 0.42 609 18 0.01 34 910 15 2.56 8 3 121 <0.01 <10 <10 20 <10 80CGH-06-120 137.16 140.21 VA06103294 C099391 0.007 2.6 0.25 62 <10 30 <0.5 <2 2.81 0.8 6 12 55 1.93 <10 1 0.1 <10 0.92 659 38 0.01 34 1420 21 1.75 8 3 162 <0.01 <10 <10 53 <10 70CGH-06-120 Standard 6 VA06103294 C099392 0.252 0.6 1.12 17 <10 50 <0.5 <2 3.13 <0.5 16 425 3550 6.55 <10 1 0.37 <10 1.2 845 11 0.08 352 1270 13 3.4 10 8 203 <0.01 <10 <10 61 <10 124CGH-06-120 140.21 143.26 VA06103294 C099393 0.005 0.5 0.36 35 <10 60 <0.5 <2 3.34 1.1 7 11 51 2.2 <10 1 0.14 <10 1.06 755 16 0.01 21 1030 7 1.79 6 3 176 <0.01 <10 <10 40 <10 110CGH-06-120 143.26 146.30 VA06103294 C099394 <0.005 1.0 0.39 30 <10 60 <0.5 <2 2.31 2.9 9 15 54 1.99 <10 <1 0.15 <10 0.66 645 27 0.01 29 1530 8 1.42 6 4 147 <0.01 <10 <10 56 <10 235CGH-06-120 146.30 149.35 VA06103294 C099395 <0.005 0.7 0.39 10 <10 50 <0.5 <2 2.28 <0.5 9 14 64 1.98 <10 <1 0.15 <10 0.7 608 2 0.01 21 1650 9 1.43 2 4 183 <0.01 <10 <10 11 <10 41CGH-06-121 100.58 103.63 VA06103293 C097307 <0.005 <0.2 2.65 3 <10 570 1.1 <2 7.44 <0.5 28 147 351 5.39 10 <1 0.27 10 3.55 1105 <1 0.03 68 2020 11 0.05 <2 16 482 0.07 <10 <10 172 <10 66CGH-06-121 103.63 106.68 VA06103293 C097308 <0.005 0.2 2.99 <2 10 150 1.4 <2 6.94 <0.5 29 195 58 5.52 10 1 0.31 10 4.16 1025 <1 0.05 74 2190 12 0.02 <2 17 431 0.08 <10 <10 207 <10 78CGH-06-121 106.68 109.73 VA06103293 C097309 0.005 <0.2 3.41 <2 <10 900 1.2 2 6.05 <0.5 28 192 24 5.68 10 <1 0.19 10 4.37 970 <1 0.03 73 2080 10 0.03 <2 17 302 0.06 <10 <10 193 <10 76CGH-06-121 109.73 112.78 VA06103293 C097310 <0.005 <0.2 2.61 <2 10 80 1.2 <2 7.15 <0.5 26 171 130 5.49 10 1 0.24 10 3.27 1135 1 0.04 71 2000 7 0.02 <2 16 288 0.09 <10 <10 158 <10 67CGH-06-121 112.78 115.82 VA06103293 C097311 0.005 0.3 2.41 241 10 40 1 <2 10.75 <0.5 23 141 340 8 <10 <1 0.23 <10 2.57 1240 4 0.03 59 1640 3 5.04 <2 14 324 0.04 <10 <10 132 <10 75CGH-06-121 115.82 118.87 VA06103293 C097312 0.005 0.2 1.94 102 10 40 1.2 <2 6.94 <0.5 20 93 84 6.03 <10 <1 0.36 <10 1.6 853 3 0.02 57 1860 6 2.93 <2 13 267 0.03 <10 <10 96 <10 41CGH-06-124 91.44 94.49 VA06103293 C097313 0.010 1.0 0.74 19 10 130 0.7 <2 7.84 <0.5 13 12 352 4.37 <10 <1 0.34 <10 2 2590 1 0.04 20 1250 5 0.47 2 13 306 <0.01 <10 <10 41 <10 29CGH-06-124 BLANK VA06103293 C097314 0.006 0.2 1.23 4 10 170 <0.5 <2 4.64 <0.5 9 4 51 3.86 <10 <1 0.3 10 1.07 950 1 0.12 4 1570 <2 0.22 <2 8 170 <0.01 <10 <10 68 <10 47CGH-06-124 94.49 97.09 VA06103293 C097315 0.009 0.5 0.71 15 10 150 0.8 <2 4.52 <0.5 12 2 341 3.26 <10 <1 0.36 <10 1.31 1570 1 0.05 9 1510 10 1.3 <2 9 238 <0.01 <10 <10 18 <10 8CGH-06-126 30.48 33.53 VA06103294 C099443 <0.005 <0.2 1.17 42 <10 80 0.6 <2 5.67 <0.5 18 3 88 4.3 <10 1 0.22 <10 0.66 1205 2 0.02 9 1530 15 3.93 9 10 231 <0.01 10 10 53 <10 85CGH-06-126 33.53 36.58 VA06103294 C099444 <0.005 0.3 1.79 16 <10 50 0.5 <2 5.16 <0.5 19 4 89 5.16 <10 <1 0.19 10 0.97 1280 1 0.02 9 1570 6 3.69 6 11 259 <0.01 <10 <10 90 <10 115CGH-06-126 36.58 39.62 VA06103294 C099445 <0.005 <0.2 1.19 21 <10 40 0.5 <2 7.74 <0.5 19 3 78 5.17 <10 1 0.17 10 0.66 1345 1 0.02 8 1460 6 4.97 12 11 294 <0.01 10 <10 50 <10 75CGH-06-126 60.96 64.01 VA06103294 C099446 <0.005 <0.2 1.57 35 <10 80 0.5 <2 8.57 <0.5 17 3 110 4.47 <10 <1 0.19 10 0.81 1265 1 0.13 10 1410 13 1.95 12 11 276 <0.01 <10 10 44 <10 106CGH-06-126 Standard 2 VA06103294 C099447 0.931 2.9 0.91 12 <10 70 <0.5 2 1.72 <0.5 30 1600 >10000 11.3 <10 <1 0.44 <10 0.81 1060 30 0.04 1270 670 9 3.75 11 5 65 0.01 <10 <10 58 <10 89 1.2CGH-06-126 64.01 67.06 VA06103294 C099448 <0.005 <0.2 1.2 35 <10 140 0.6 <2 5.47 <0.5 16 4 103 4.52 <10 <1 0.18 <10 1.14 1180 3 0.14 7 1290 11 2.2 9 8 248 <0.01 <10 <10 42 <10 77CGH-06-126 67.06 70.10 VA06103294 C099449 0.006 0.2 1.62 27 <10 110 0.6 <2 5.01 <0.5 19 6 94 4.66 <10 1 0.18 10 1.44 1310 1 0.14 9 1460 14 1.37 8 14 215 <0.01 10 <10 74 <10 74CGH-06-126 94.49 97.54 VA06103294 C099450 <0.005 <0.2 1.43 22 <10 120 0.5 <2 5.52 <0.5 18 5 92 5.21 <10 <1 0.15 <10 2.03 1430 1 0.12 10 1390 12 1.89 24 14 209 <0.01 10 10 70 <10 111CGH-06-126 97.54 100.58 VA06103294 C099451 <0.005 0.2 1.65 34 <10 90 0.6 <2 5.14 <0.5 21 5 92 5.13 <10 <1 0.18 <10 1.67 1105 1 0.13 11 1500 23 1.82 27 14 187 <0.01 <10 10 72 <10 158CGH-06-127 15.77 18.29 VA06101373 C101348 1.230 1.25 1.7 0.54 3 <10 100 <0.5 <2 1.9 <0.5 9 6 9930 7.15 <10 <1 0.33 <10 0.74 950 2 0.01 6 980 12 1.38 <2 7 37 <0.01 <10 <10 58 <10 70CGH-06-127 15.77 18.29 VA06101373 C101349 1.205 1.2 1.7 0.54 <2 <10 100 <0.5 3 1.94 0.6 8 6 >10000 7.24 <10 <1 0.33 <10 0.75 966 2 0.01 6 1000 12 1.4 <2 7 38 <0.01 <10 <10 59 <10 71 0.95CGH-06-127 18.29 21.34 VA06101373 C101350 0.816 2.2 0.44 14 <10 180 <0.5 9 3.47 <0.5 7 3 8250 5.2 <10 <1 0.3 <10 0.96 1075 3 0.01 5 860 22 1.63 9 4 63 <0.01 <10 <10 33 <10 52CGH-06-127 21.34 24.38 VA06101373 C101351 0.742 1.3 0.61 17 <10 170 <0.5 2 3.15 <0.5 8 10 6720 5.71 <10 1 0.37 <10 1.05 1240 4 0.01 3 1250 11 1.57 16 7 80 <0.01 <10 <10 42 <10 66CGH-06-127 24.38 27.43 VA06101373 C101352 0.807 2.5 0.57 47 <10 90 <0.5 <2 3.75 0.5 12 9 5970 6.44 <10 <1 0.37 <10 1.17 1770 1 0.02 7 1100 18 2.46 10 9 94 <0.01 <10 <10 38 <10 63CGH-06-127 27.43 30.48 VA06101373 C101353 1.155 1.19 2.1 0.46 28 <10 50 <0.5 <2 2.56 <0.5 10 1 9310 7.29 <10 <1 0.33 <10 0.85 1435 10 0.02 2 1090 13 2.37 4 6 86 <0.01 <10 <10 43 <10 62CGH-06-127 30.48 33.53 VA06101373 C101354 0.945 2.0 0.44 6 <10 40 <0.5 <2 2.82 <0.5 11 11 8020 6.56 <10 1 0.32 <10 1.01 1335 5 0.02 3 790 5 1.84 26 5 96 <0.01 <10 <10 27 <10 81CGH-06-127 33.53 36.58 VA06101373 C101355 0.558 1.5 0.48 6 <10 160 <0.5 <2 4.8 <0.5 11 22 4900 5.62 <10 <1 0.32 <10 1.54 1555 6 0.04 12 1210 9 1.34 3 11 131 <0.01 <10 <10 46 <10 65CGH-06-127 36.58 39.62 VA06101373 C101356 0.701 1.4 0.46 14 <10 50 <0.5 9 3.42 <0.5 10 11 6100 5.23 <10 <1 0.3 <10 0.86 1050 3 0.02 7 2510 9 2.2 <2 5 107 <0.01 <10 <10 51 <10 47CGH-06-127 39.62 42.67 VA06101373 C101357 1.380 1.51 2.3 0.35 6 <10 40 <0.5 <2 3.66 <0.5 8 24 >10000 8 <10 <1 0.29 <10 1.17 1200 10 0.01 2 420 7 2.88 <2 2 100 <0.01 <10 <10 26 <10 64 1.05CGH-06-127 42.67 44.38 VA06101373 C101358 1.170 1.1 4.2 0.33 84 <10 20 <0.5 3 3.17 0.8 6 3 9230 8.55 <10 1 0.27 <10 1.02 1840 3 0.02 <1 630 14 4.19 38 2 91 <0.01 <10 <10 20 <10 97CGH-06-127 44.38 46.32 VA06101373 C101359 1.260 1.32 5.5 0.39 23 <10 30 <0.5 3 2.83 <0.5 9 1 >10000 8.3 <10 2 0.31 <10 0.99 1680 7 0.04 <1 770 10 2.12 57 5 108 <0.01 <10 <10 34 <10 117 0.96CGH-06-127 BLANK VA06101373 C101360 0.011 <0.2 1.04 3 <10 240 0.5 <2 5 <0.5 14 5 104 3.73 <10 <1 0.27 10 1.13 1435 <1 0.11 4 1470 7 0.74 <2 8 192 <0.01 <10 <10 61 <10 88CGH-06-127 46.32 48.29 VA06101373 C101361 0.118 1.5 0.54 11 10 150 0.5 <2 4.42 <0.5 15 <1 2050 5.05 <10 <1 0.37 <10 1.29 1495 26 0.07 3 1540 11 1.44 23 9 150 <0.01 <10 <10 32 <10 124CGH-06-127 48.29 50.27 VA06101373 C101362 0.040 0.5 0.49 10 10 60 0.5 <2 2.56 0.8 14 1 594 3.97 <10 <1 0.32 <10 0.72 990 19 0.09 7 1510 14 2.25 4 6 130 <0.01 <10 <10 20 <10 102CGH-06-127 50.27 52.88 VA06101373 C101363 0.147 0.7 0.48 6 <10 40 <0.5 <2 1.97 <0.5 17 8 2420 3.96 <10 <1 0.32 <10 0.46 722 48 0.06 11 1330 14 3.2 <2 3 81 <0.01 <10 <10 15 <10 52CGH-06-127 52.88 55.53 VA06101373 C101364 0.116 0.5 0.47 10 <10 40 <0.5 <2 2.17 <0.5 19 1 1720 3.81 <10 <1 0.31 <10 0.47 751 47 0.04 12 1220 11 3.21 3 3 70 <0.01 <10 <10 15 <10 32CGH-06-127 55.53 58.63 VA06101373 C101365 0.160 1.7 0.37 40 <10 20 <0.5 <2 3.58 0.9 11 1 355 4.53 <10 1 0.24 <10 0.33 981 8 0.03 2 980 18 5.06 48 1 78 <0.01 <10 <10 3 <10 77CGH-06-127 58.63 60.96 VA06101373 C101366 0.042 <0.2 0.73 4 10 50 0.6 <2 3.4 <0.5 14 5 166 4.1 <10 <1 0.37 <10 0.99 769 1 0.14 1 1540 7 3.11 <2 5 128 <0.01 <10 10 19 <10 68CGH-06-127 60.96 64.01 VA06101373 C101367 0.041 <0.2 0.69 2 10 20 0.5 <2 4.02 <0.5 12 <1 182 4.42 <10 <1 0.34 <10 1.27 724 2 0.14 3 1510 9 3.74 3 5 140 <0.01 <10 <10 19 <10 103CGH-06-127 64.01 67.06 VA06101373 C101368 0.051 <0.2 0.72 5 10 30 0.6 <2 3.61 <0.5 14 <1 158 4.46 <10 <1 0.35 <10 1.1 604 1 0.14 <1 1500 9 3.42 <2 4 114 <0.01 <10 <10 19 <10 87CGH-06-127 67.06 70.10 VA06101373 C101369 0.066 <0.2 0.76 <2 <10 30 0.5 <2 2.99 <0.5 14 5 323 4.36 <10 <1 0.36 <10 0.93 562 3 0.12 <1 1470 13 3.87 <2 4 91 <0.01 <10 <10 18 <10 70CGH-06-127 70.10 73.15 VA06101373 C101370 0.020 <0.2 0.62 <2 <10 40 <0.5 <2 2.57 <0.5 8 <1 111 4.04 <10 <1 0.29 <10 0.77 441 1 0.11 <1 1370 13 4 <2 2 90 <0.01 <10 <10 9 <10 53CGH-06-127 Standard 5 VA06101373 C101371 0.203 0.4 1.8 <2 <10 190 <0.5 <2 1.41 <0.5 20 1120 1630 4.98 <10 <1 0.23 <10 0.88 651 17 0.12 927 700 6 0.98 6 5 78 0.12 <10 <10 68 10 59CGH-06-127 73.15 76.20 VA06101373 C101372 0.032 0.2 0.6 4 <10 40 0.5 <2 3.47 <0.5 13 <1 204 4.5 <10 <1 0.27 <10 1 587 1 0.13 1 1510 13 3.63 3 5 119 <0.01 <10 <10 23 <10 119CGH-06-127 76.20 79.25 VA06101373 C101373 0.032 0.2 0.62 6 <10 60 0.5 <2 3.15 <0.5 11 5 188 4.49 <10 <1 0.28 <10 1.05 680 1 0.12 1 1500 18 3.98 2 4 101 <0.01 <10 <10 18 <10 75CGH-06-127 79.25 82.30 VA06101373 C101374 0.037 <0.2 0.59 <2 <10 50 <0.5 <2 2.64 <0.5 11 1 309 3.97 <10 <1 0.25 <10 0.94 541 7 0.11 <1 1380 9 3.68 5 3 86 <0.01 <10 <10 13 <10 30CGH-06-127 82.30 85.34 VA06101373 C101375 0.021 <0.2 0.63 2 <10 30 <0.5 <2 3.01 <0.5 12 <1 161 3.98 <10 <1 0.28 <10 0.81 564 4 0.11 <1 1380 7 3.67 3 3 93 <0.01 <10 <10 14 <10 48
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-127 85.34 88.39 VA06101373 C101376 0.021 0.2 0.66 7 <10 80 <0.5 <2 3.54 <0.5 13 6 179 4.1 <10 <1 0.3 <10 1.17 747 3 0.12 3 1380 8 3.26 <2 6 97 <0.01 <10 <10 26 <10 70CGH-06-127 88.39 91.44 VA06101373 C101377 0.032 0.6 0.59 8 <10 20 <0.5 <2 2.55 <0.5 10 1 247 4.36 <10 <1 0.3 <10 0.78 627 1 0.09 1 1370 12 4.28 14 3 71 <0.01 <10 <10 10 <10 76CGH-06-127 91.44 94.49 VA06101373 C101378 0.062 0.6 0.6 5 <10 20 <0.5 <2 4.68 <0.5 15 16 680 5.07 <10 <1 0.29 <10 1.5 1040 5 0.1 25 1670 11 3.33 <2 10 131 <0.01 <10 <10 46 10 55CGH-06-127 94.49 97.54 VA06101373 C101379 0.053 1.2 0.65 15 10 20 0.6 <2 3.91 <0.5 14 6 740 4.29 <10 1 0.32 <10 1.1 1060 27 0.14 4 1360 12 3.25 <2 5 123 <0.01 <10 <10 18 <10 101CGH-06-127 97.54 100.58 VA06101373 C101380 0.080 1.0 0.54 49 <10 30 <0.5 <2 4.34 <0.5 11 2 239 4.49 <10 <1 0.3 <10 1.18 1365 3 0.1 3 1290 14 2.81 <2 5 162 <0.01 <10 <10 29 <10 81CGH-06-127 100.58 103.63 VA06101373 C101381 0.185 0.9 0.42 56 <10 50 <0.5 <2 3.86 <0.5 8 <1 225 3.66 <10 <1 0.26 <10 1.04 1470 2 0.09 1 1170 8 1.72 10 4 122 <0.01 <10 <10 24 10 56CGH-06-127 100.58 103.63 VA06101373 C101382 0.120 1.0 0.54 50 <10 50 <0.5 <2 3.62 <0.5 11 3 213 3.75 <10 <1 0.32 <10 1 1370 4 0.1 1 1230 9 1.94 11 5 120 <0.01 <10 <10 27 <10 60CGH-06-127 103.63 106.68 VA06101373 C101383 0.023 0.6 0.56 36 <10 130 <0.5 <2 2.57 <0.5 7 1 147 3.69 <10 1 0.26 10 0.82 1470 1 0.11 2 1250 9 1.05 5 6 101 <0.01 <10 <10 36 <10 48CGH-06-127 106.68 109.73 VA06101373 C101384 0.024 0.6 0.51 22 <10 150 0.5 <2 2.74 <0.5 6 <1 176 3.35 <10 <1 0.3 <10 0.74 1535 2 0.11 <1 1230 6 1.04 6 5 97 <0.01 <10 <10 21 <10 40CGH-06-127 109.73 112.78 VA06101373 C101385 0.100 2.5 0.59 86 <10 30 0.5 <2 4.67 <0.5 14 2 477 5.65 <10 <1 0.34 <10 1.38 2520 3 0.1 3 1540 21 2.96 17 8 133 <0.01 <10 <10 37 <10 143CGH-06-127 112.78 115.82 VA06101373 C101386 0.218 3.2 0.49 93 <10 10 <0.5 <2 3.47 1.1 16 5 1800 6.16 <10 <1 0.27 <10 0.89 2090 7 0.08 18 1350 15 4.66 3 6 102 <0.01 <10 <10 42 <10 210CGH-06-127 115.82 118.87 VA06101373 C101387 0.628 2.7 0.54 124 <10 40 0.5 <2 2.87 0.8 10 <1 1200 3.82 <10 <1 0.33 <10 0.39 1150 17 0.09 3 1220 13 2.83 2 4 116 <0.01 <10 <10 13 <10 157CGH-06-127 118.87 121.92 VA06101373 C101388 0.796 4.7 0.53 133 <10 20 <0.5 <2 2.98 0.7 16 4 3080 5.67 <10 <1 0.33 10 0.65 1515 17 0.09 5 1320 17 4.83 14 4 96 <0.01 <10 <10 17 <10 104CGH-06-127 121.92 124.97 VA06101373 C101389 0.050 0.9 0.55 24 <10 130 <0.5 <2 2.3 <0.5 9 <1 644 3.21 <10 5 0.33 10 0.7 1685 140 0.1 <1 1310 11 1.04 18 5 98 <0.01 <10 <10 28 <10 125CGH-06-127 124.97 128.02 VA06101373 C101390 0.128 2.1 0.6 25 10 190 <0.5 <2 2.81 <0.5 9 <1 3050 3.91 <10 <1 0.31 10 0.69 1825 57 0.11 1 1590 10 1.39 19 7 113 <0.01 <10 <10 33 <10 83CGH-06-127 128.02 131.06 VA06101373 C101391 0.073 1.1 0.53 25 <10 200 <0.5 <2 2.45 <0.5 7 3 843 3.04 <10 <1 0.29 10 0.47 1315 14 0.12 2 1490 8 1.2 11 7 92 <0.01 <10 <10 28 <10 101CGH-06-127 131.06 134.11 VA06101373 C101392 0.049 0.5 0.62 16 10 190 <0.5 2 3.08 <0.5 12 <1 555 3.62 <10 1 0.32 10 0.75 1930 13 0.11 3 1270 7 1.53 6 6 123 <0.01 <10 <10 38 <10 93CGH-06-127 Standard 2 VA06101373 C101393 0.950 3.2 0.98 17 10 110 <0.5 4 1.75 0.6 30 1525 >10000 11.8 <10 2 0.46 <10 0.83 1120 29 0.05 1270 660 10 3.84 7 5 67 0.01 10 <10 57 10 87 1.14CGH-06-127 134.11 137.16 VA06101373 C101394 0.021 0.5 0.59 18 <10 80 <0.5 2 3.84 <0.5 11 1 477 3.43 <10 <1 0.34 10 0.79 2010 11 0.12 4 1200 5 1.81 10 4 153 <0.01 <10 <10 30 <10 89CGH-06-127 137.16 140.21 VA06101373 C101395 0.062 0.8 0.52 97 10 30 <0.5 2 2.75 0.6 12 3 634 3.79 <10 <1 0.31 <10 0.58 1690 6 0.11 5 1080 7 2.56 17 4 92 <0.01 <10 <10 20 <10 108CGH-06-127 140.21 143.25 VA06101373 C101396 0.128 0.6 0.62 63 <10 170 0.5 <2 2.88 0.5 15 <1 539 4.29 <10 <1 0.33 <10 1.09 2090 3 0.12 1 1550 6 1 19 7 148 <0.01 <10 <10 56 10 111CGH-06-127 143.25 146.30 VA06101373 C101397 0.020 0.3 0.59 12 10 290 0.5 <2 4.5 0.5 15 <1 222 4.04 <10 <1 0.34 10 1.05 2310 1 0.12 3 1470 4 0.61 12 8 149 <0.01 <10 <10 48 <10 103CGH-06-127 146.30 149.35 VA06101373 C101398 0.158 1.6 0.73 24 10 90 <0.5 <2 2.42 1.4 19 5 1055 3.35 <10 1 0.31 10 0.57 1540 117 0.12 7 1540 9 1.21 15 8 98 <0.01 <10 <10 45 <10 199CGH-06-127 149.35 152.40 VA06101373 C101399 0.491 4.0 0.5 51 <10 40 <0.5 <2 1.6 2.4 45 6 3550 4.21 <10 1 0.28 10 0.48 1840 292 0.13 18 1550 17 1.92 17 11 92 <0.01 <10 <10 49 <10 335CGH-06-127 152.40 155.45 VA06101373 C101400 0.056 1.3 0.83 51 <10 50 <0.5 <2 2.66 4.5 39 2 725 4.07 <10 1 0.28 10 0.7 1490 22 0.13 12 2060 7 2.24 15 8 100 <0.01 <10 <10 51 <10 582CGH-06-127 155.45 158.50 VA06101373 C101401 0.018 0.5 1.36 17 <10 370 <0.5 <2 4.25 0.8 11 2 219 3.35 <10 <1 0.25 10 1.01 1730 14 0.1 2 1450 6 0.8 6 8 129 <0.01 <10 <10 72 <10 149CGH-06-127 158.50 161.54 VA06101373 C101402 0.053 0.5 1.35 42 <10 80 <0.5 <2 3.97 <0.5 16 <1 375 3.79 <10 <1 0.29 10 1.17 2130 83 0.07 4 1410 6 1.67 6 6 115 <0.01 <10 <10 48 <10 103CGH-06-127 161.54 164.59 VA06101373 C101403 0.026 0.5 0.55 17 <10 130 <0.5 2 3.04 1.1 16 <1 654 2.96 <10 1 0.26 <10 0.91 1490 14 0.1 2 1500 4 1.25 32 6 153 <0.01 <10 <10 42 <10 162CGH-06-127 161.54 164.59 VA06101373 C101404 0.027 0.5 0.57 14 <10 120 <0.5 <2 3.05 1.2 16 3 607 2.99 <10 1 0.27 10 0.92 1490 12 0.11 2 1500 4 1.31 29 6 158 <0.01 <10 <10 42 <10 155CGH-06-127 164.59 167.64 VA06101373 C101405 0.012 0.4 0.72 7 <10 570 <0.5 <2 3.52 0.9 14 1 323 2.93 <10 <1 0.29 10 1.01 1490 60 0.11 3 1440 4 0.6 33 7 141 <0.01 <10 <10 49 <10 134CGH-06-127 167.64 170.69 VA06101373 C101406 0.016 0.7 0.93 9 <10 540 <0.5 <2 3.6 1.9 11 <1 367 3.57 <10 1 0.24 10 1.02 1590 9 0.1 3 1450 2 0.59 26 8 133 <0.01 <10 <10 56 <10 245CGH-06-127 170.69 173.74 VA06101373 C101407 0.020 0.3 0.68 6 <10 150 <0.5 <2 3.01 <0.5 9 3 132 3.3 <10 <1 0.27 <10 0.87 1490 2 0.11 1 1230 3 1.04 8 5 138 <0.01 <10 <10 39 <10 125CGH-06-127 173.74 176.78 VA06103378 C101408 0.053 0.5 0.48 25 <10 50 <0.5 <2 2.55 <0.5 12 2 334 3.3 <10 <1 0.28 <10 0.84 1140 20 0.12 6 1220 5 2.02 22 4 108 <0.01 <10 <10 26 <10 87CGH-06-127 176.78 179.83 VA06103378 C101409 0.047 0.7 0.35 28 <10 40 <0.5 <2 2.47 9.4 14 11 214 2.4 <10 2 0.2 <10 0.74 1145 22 0.06 28 890 5 1.78 <2 4 78 <0.01 <10 <10 22 <10 1250CGH-06-127 179.83 182.88 VA06103378 C101410 0.087 0.9 0.51 14 <10 30 <0.5 <2 3.47 2.3 18 1 384 3.93 <10 1 0.23 <10 1.19 1085 21 0.1 4 1480 4 3.02 <2 5 139 <0.01 <10 <10 43 <10 325CGH-06-127 182.88 185.93 VA06103378 C101411 0.147 1.2 0.53 15 <10 20 <0.5 2 2.94 1.2 19 1 946 4.7 <10 1 0.28 <10 0.96 1000 46 0.11 6 1320 4 4.25 <2 4 148 <0.01 <10 <10 35 <10 188CGH-06-127 185.93 188.98 VA06103378 C101412 0.094 1.1 0.83 43 <10 20 <0.5 <2 2.19 3.8 18 1 691 4.12 <10 1 0.27 <10 0.83 842 102 0.1 6 1120 4 3.63 3 3 115 <0.01 <10 <10 31 <10 513CGH-06-127 188.98 192.02 VA06103378 C101413 0.070 0.8 0.55 34 <10 20 0.5 <2 2.64 0.7 10 1 285 3.9 <10 <1 0.29 <10 0.62 1080 8 0.11 4 1160 3 3.58 4 4 102 <0.01 <10 <10 13 <10 96CGH-06-127 192.02 195.07 VA06103378 C101414 0.084 0.6 0.62 22 <10 30 0.5 <2 3.43 0.7 8 <1 390 3.25 <10 1 0.28 10 0.75 1455 52 0.11 2 1120 3 2.55 <2 4 117 <0.01 <10 <10 15 <10 110CGH-06-127 Standard 6 VA06103378 C101415 0.256 0.5 0.92 13 <10 80 <0.5 <2 2.72 <0.5 16 400 3190 5.7 <10 1 0.32 <10 1.06 726 10 0.06 315 1120 12 3.05 8 7 185 <0.01 <10 <10 53 <10 115CGH-06-127 195.07 198.12 VA06103378 C101416 0.056 0.9 1.02 12 <10 40 <0.5 <2 2.78 1.8 8 1 443 3.72 <10 2 0.24 <10 0.96 1445 49 0.1 3 1150 5 2.91 <2 4 130 <0.01 <10 <10 35 <10 304CGH-06-127 198.12 201.17 VA06103378 C101417 0.194 0.5 1.3 8 <10 40 <0.5 <2 3.19 <0.5 8 1 869 3.1 <10 1 0.22 <10 1.09 856 6 0.09 2 1420 3 2.28 <2 6 125 <0.01 <10 <10 58 <10 82CGH-06-127 201.17 204.22 VA06103378 C101418 0.458 1.4 0.81 51 <10 10 <0.5 <2 2.61 1.1 11 1 1655 4.65 <10 <1 0.24 <10 0.67 831 9 0.08 4 1400 7 4.42 <2 4 125 <0.01 <10 <10 32 <10 188CGH-06-127 204.22 207.26 VA06103378 C101419 0.262 1.2 1.08 66 <10 20 <0.5 <2 1.55 <0.5 16 1 1350 3.64 <10 1 0.23 <10 0.84 543 6 0.09 4 1330 5 2.78 9 3 92 <0.01 <10 <10 44 <10 56CGH-06-127 207.26 210.31 VA06103378 C101420 0.188 0.7 1.31 15 <10 20 <0.5 <2 1.91 <0.5 12 2 1020 4.56 <10 <1 0.24 <10 0.97 595 9 0.09 3 1420 4 3.71 <2 3 82 <0.01 <10 <10 48 <10 62CGH-06-127 210.31 213.36 VA06103378 C101421 0.193 0.7 1.31 14 <10 50 <0.5 <2 4.44 <0.5 9 1 1215 3.51 <10 1 0.26 <10 0.95 1075 5 0.1 1 1340 4 2.1 <2 6 154 <0.01 <10 <10 62 <10 60CGH-06-127 213.36 216.41 VA06103378 C101422 0.622 1.0 1.33 6 <10 40 <0.5 <2 3.08 <0.5 12 2 3100 3.47 <10 1 0.26 10 1 722 6 0.1 2 1260 4 2.31 <2 6 103 <0.01 <10 <10 72 <10 51CGH-06-127 216.41 219.46 VA06103378 C101423 0.332 0.7 1.15 5 <10 150 <0.5 2 3.94 <0.5 8 1 1745 2.8 <10 1 0.26 10 0.99 1025 16 0.09 2 1150 3 1.72 2 4 116 <0.01 <10 <10 53 <10 60CGH-06-127 219.46 222.50 VA06103378 C101424 0.154 1.2 1.6 17 <10 60 <0.5 <2 4.61 1.1 17 59 1245 3.85 10 1 0.22 10 1.42 1230 11 0.09 42 1160 8 1.67 <2 8 150 <0.01 <10 <10 65 <10 220CGH-06-127 222.50 225.55 VA06103378 C101425 0.197 0.7 0.6 17 <10 30 <0.5 <2 2.77 <0.5 14 7 1015 3.43 <10 <1 0.24 10 0.96 1130 21 0.11 9 1310 8 2.05 3 5 149 <0.01 <10 <10 40 <10 97CGH-06-127 222.50 225.55 VA06103378 C101426 0.202 0.7 0.61 18 <10 30 <0.5 <2 2.73 <0.5 14 7 1010 3.43 <10 <1 0.24 10 0.96 1110 21 0.11 10 1300 7 2.07 3 5 146 <0.01 <10 <10 41 <10 96CGH-06-127 225.55 228.60 VA06103378 C101427 0.163 0.7 0.6 17 10 40 <0.5 <2 1.49 <0.5 16 1 1115 3.22 <10 <1 0.23 10 0.79 686 54 0.11 2 1220 6 2.37 4 3 94 <0.01 <10 <10 32 <10 51CGH-06-127 228.60 231.65 VA06103378 C101428 0.067 1.0 1.01 54 10 20 <0.5 <2 2.77 <0.5 15 4 632 4.46 <10 1 0.27 10 1.15 1420 40 0.1 4 1370 8 3.21 5 5 124 <0.01 <10 <10 48 <10 108CGH-06-127 231.65 234.70 VA06103378 C101429 0.042 0.5 1.3 22 10 160 0.5 <2 4.08 <0.5 12 17 498 4.42 <10 <1 0.28 10 1.61 1310 8 0.14 16 1610 8 1.71 5 13 164 <0.01 <10 <10 87 <10 95CGH-06-127 234.70 237.74 VA06103378 C101430 0.050 0.5 0.57 18 10 60 <0.5 <2 4.09 <0.5 10 3 564 3.71 <10 1 0.31 10 1.17 1325 14 0.14 8 1470 7 2.21 5 10 182 <0.01 <10 <10 53 <10 75CGH-06-127 237.74 240.79 VA06103378 C101431 0.075 0.9 0.43 30 10 50 <0.5 <2 3.12 0.5 10 4 430 3.77 <10 <1 0.27 <10 0.96 1790 8 0.09 8 1120 8 2.8 10 4 100 <0.01 <10 <10 20 <10 97CGH-06-127 240.79 243.84 VA06103378 C101432 0.408 2.1 0.52 51 10 60 <0.5 <2 3.26 <0.5 9 <1 1530 4.84 <10 <1 0.33 <10 0.94 1600 5 0.08 1 1390 9 3.86 6 5 82 <0.01 <10 <10 17 <10 49CGH-06-127 243.84 246.89 VA06103378 C101433 0.782 3.7 0.4 42 <10 70 <0.5 <2 3.14 0.6 7 1 3440 3.43 <10 <1 0.28 <10 0.95 1725 7 0.09 2 1400 5 2.46 19 4 85 <0.01 <10 <10 11 <10 79CGH-06-127 246.89 249.94 VA06103378 C101434 0.359 1.2 0.49 10 10 70 <0.5 <2 3.06 <0.5 15 1 2240 4.11 <10 <1 0.28 <10 0.87 1270 5 0.09 1 1230 7 2.84 7 5 97 <0.01 <10 <10 24 <10 67CGH-06-127 249.94 252.98 VA06103378 C101435 0.603 2.1 0.43 14 <10 50 <0.5 <2 2.61 0.8 17 1 3870 4.8 <10 <1 0.24 <10 0.89 1175 7 0.09 1 1140 11 3.63 5 4 94 <0.01 <10 <10 31 <10 132CGH-06-127 252.98 256.03 VA06103378 C101436 1.385 1.49 3.5 0.41 10 10 40 <0.5 9 2.69 <0.5 12 1 8060 4.81 <10 <1 0.24 <10 0.84 1225 10 0.08 2 930 7 3.74 6 3 84 <0.01 <10 <10 28 <10 117CGH-06-127 BLANK VA06103378 C101437 0.015 0.6 1.22 18 <10 70 <0.5 <2 4.34 2.9 8 64 165 2.8 <10 <1 0.17 10 0.74 1785 17 0.05 50 3410 28 1.17 7 5 119 <0.01 <10 <10 151 <10 436CGH-06-127 256.03 259.08 VA06103378 C101438 0.104 1.6 0.44 44 <10 20 <0.5 <2 2.44 2.2 7 <1 933 3.95 <10 <1 0.25 <10 0.42 977 10 0.09 3 1130 16 3.59 4 3 177 <0.01 <10 <10 17 <10 302CGH-06-127 259.08 262.13 VA06103378 C101439 0.123 1.7 0.39 27 10 20 <0.5 <2 3.52 <0.5 10 <1 1415 3.51 <10 <1 0.26 <10 0.62 1575 11 0.08 3 1030 5 2.7 2 3 184 <0.01 <10 <10 10 <10 56CGH-06-127 262.13 265.18 VA06103378 C101440 0.133 1.6 0.61 16 <10 50 <0.5 <2 2.59 <0.5 14 <1 737 3.54 <10 <1 0.3 10 0.59 948 12 0.11 3 1390 8 2.24 2 4 118 <0.01 <10 <10 31 <10 60CGH-06-127 265.18 268.22 VA06103378 C101441 0.130 1.4 0.49 10 10 60 <0.5 <2 3.79 <0.5 10 <1 1165 3.59 <10 <1 0.3 <10 0.88 1360 20 0.12 2 1240 9 2.56 2 4 159 <0.01 <10 <10 23 <10 89CGH-06-127 268.22 271.27 VA06103378 C101442 0.108 1.1 0.74 15 <10 50 <0.5 <2 3.65 0.9 16 1 1150 3.67 <10 <1 0.28 <10 1.13 1300 9 0.12 3 1540 8 2.49 4 5 154 <0.01 <10 <10 32 <10 151CGH-06-127 271.27 274.32 VA06103378 C101443 0.187 0.6 1.33 8 10 140 <0.5 <2 4.02 <0.5 18 1 1200 3.02 <10 <1 0.21 10 1.38 825 31 0.12 1 2020 4 2.1 3 7 125 <0.01 <10 <10 76 <10 55CGH-06-127 274.32 277.37 VA06103378 C101444 0.096 0.8 0.71 12 <10 90 <0.5 <2 4.73 <0.5 19 <1 855 3.88 <10 <1 0.26 <10 1.22 937 20 0.12 2 2000 6 2.24 7 7 196 <0.01 <10 <10 54 <10 48CGH-06-127 277.37 280.42 VA06103378 C101445 0.031 0.3 1.96 7 10 140 <0.5 <2 4.37 <0.5 14 <1 513 4.76 10 <1 0.26 10 1.55 987 9 0.13 1 2060 5 2.11 <2 9 152 0.01 <10 <10 107 <10 81CGH-06-127 280.42 283.46 VA06103378 C101446 0.032 <0.2 1.91 7 10 50 0.5 <2 5.06 <0.5 15 <1 478 4.58 <10 <1 0.28 10 1.37 954 8 0.14 1 2180 5 2.32 <2 8 194 0.01 <10 <10 84 <10 62CGH-06-127 283.46 286.51 VA06103378 C101447 0.120 0.8 1.92 13 <10 40 <0.5 <2 3.46 1.1 20 <1 992 6.23 10 <1 0.28 10 1.6 869 13 0.13 2 2150 38 5.37 <2 8 132 <0.01 <10 <10 93 <10 151CGH-06-127 Standard 5 VA06103378 C101448 0.115 0.4 1.74 10 <10 180 <0.5 <2 1.34 <0.5 23 1065 1550 4.62 <10 1 0.24 10 0.85 603 17 0.13 857 670 6 0.94 2 5 78 0.11 <10 <10 65 <10 56CGH-06-127 286.51 289.56 VA06103378 C101449 0.066 0.4 2.3 5 10 110 <0.5 <2 3.43 <0.5 17 3 685 5.01 10 <1 0.26 10 1.92 918 6 0.13 3 2220 5 2.45 2 10 118 0.01 <10 <10 118 <10 67CGH-06-127 289.56 292.61 VA06103378 C101450 0.079 0.6 2.33 8 10 140 <0.5 <2 3.24 <0.5 17 2 738 4.87 10 <1 0.24 10 1.84 932 7 0.14 2 2150 25 2.21 2 10 204 0.01 <10 <10 103 <10 79CGH-06-127 292.61 295.66 VA06103986 B520719 0.078 1.4 2.35 8 <10 100 <0.5 <2 3.56 7.9 18 3 673 5.66 10 1 0.31 10 1.68 1150 7 0.13 3 2000 8 2.51 6 10 134 0.01 <10 <10 125 <10 872CGH-06-127 295.66 298.70 VA06103986 B520720 0.097 0.6 2.65 4 10 30 <0.5 <2 3.2 <0.5 20 3 864 6.11 10 <1 0.31 <10 1.97 784 8 0.13 3 1940 2 3.63 <2 13 171 0.02 <10 <10 140 <10 71CGH-06-127 298.70 301.75 VA06103986 B520721 0.11 0.7 2.69 3 10 80 <0.5 <2 2.93 <0.5 23 3 1060 5.68 10 <1 0.3 <10 2.13 771 8 0.15 3 2070 <2 3.17 <2 14 244 0.02 <10 <10 143 <10 77CGH-06-127 301.75 304.80 VA06103986 B520722 0.098 0.7 2.27 3 10 70 <0.5 <2 3.28 <0.5 19 2 1090 5.59 10 <1 0.34 <10 1.58 793 4 0.11 2 1910 2 3.28 <2 10 130 0.01 <10 <10 111 <10 64CGH-06-130 29.00 30.48 VA06103985 C097478 0.084 1.3 0.76 92 <10 130 <0.5 <2 3.53 <0.5 20 5 2130 5.78 <10 <1 0.47 <10 1.25 1360 18 0.02 8 1490 10 3.55 3 5 93 <0.01 <10 <10 47 <10 70CGH-06-130 Standard 5 VA06103985 C097479 0.131 0.4 1.68 6 <10 180 <0.5 <2 1.29 <0.5 21 1045 1590 4.61 <10 <1 0.23 <10 0.84 597 17 0.13 844 680 8 0.97 3 5 79 0.11 <10 <10 65 <10 54CGH-06-130 30.48 33.53 VA06103985 C097480 0.053 0.9 0.66 113 <10 80 <0.5 <2 2.93 <0.5 17 2 1495 4.27 <10 <1 0.41 10 0.85 884 19 0.02 4 1560 4 3.52 12 3 70 <0.01 <10 <10 20 <10 49CGH-06-130 33.53 36.58 VA06103985 C097481 0.082 1 0.74 205 <10 80 <0.5 <2 3.37 <0.5 20 <1 2350 6.01 <10 <1 0.46 <10 0.98 1040 28 0.02 3 1720 11 4.24 7 6 89 <0.01 <10 <10 39 <10 77CGH-06-130 36.58 39.62 VA06103985 C097482 0.08 0.6 0.76 169 <10 140 <0.5 <2 2.96 <0.5 16 <1 1960 5.03 <10 <1 0.46 10 0.8 994 16 0.03 2 1860 9 2.93 3 4 100 <0.01 <10 <10 28 <10 65CGH-06-130 39.62 42.67 VA06103985 C097483 0.078 0.7 0.71 21 <10 110 <0.5 <2 3.28 <0.5 15 <1 1925 5.17 <10 <1 0.47 <10 0.91 993 15 0.03 3 1580 7 3.56 <2 5 81 <0.01 <10 <10 32 <10 54
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-130 42.67 45.72 VA06103985 C097484 0.137 0.9 0.6 25 <10 90 <0.5 <2 3.19 <0.5 14 1 2240 4.76 <10 1 0.4 <10 0.75 886 22 0.03 2 1280 12 3.54 2 4 92 <0.01 <10 <10 23 <10 55CGH-06-130 45.72 48.77 VA06103985 C097485 0.06 0.7 0.6 24 <10 100 <0.5 <2 3.88 0.5 16 <1 1275 5.29 <10 <1 0.4 10 1.06 1020 23 0.04 1 1390 9 3.79 <2 3 105 <0.01 <10 <10 23 <10 148CGH-06-130 48.77 51.82 VA06103985 C097486 0.073 0.9 0.59 38 <10 70 <0.5 <2 2.65 <0.5 11 <1 1210 5.06 <10 1 0.4 10 0.52 843 12 0.04 2 1350 6 4.35 2 2 87 <0.01 <10 <10 14 <10 58CGH-06-130 51.82 54.88 VA06103985 C097487 0.062 0.6 0.64 36 <10 80 <0.5 <2 2.69 <0.5 14 <1 1370 5.03 <10 <1 0.42 <10 0.78 996 10 0.04 3 1220 6 3.77 5 2 66 <0.01 <10 <10 17 <10 50CGH-06-130 54.88 57.91 VA06103985 C097488 0.055 0.7 0.6 49 <10 120 <0.5 <2 2.92 <0.5 13 <1 1335 4.76 <10 <1 0.39 <10 0.63 985 10 0.05 4 1320 10 4.02 3 2 75 <0.01 <10 10 14 <10 51CGH-06-130 57.91 60.96 VA06103985 C097489 0.051 0.6 0.62 115 <10 80 <0.5 <2 3.28 <0.5 17 <1 1235 5.41 <10 <1 0.4 <10 0.95 1105 11 0.05 3 1210 7 4.37 5 2 78 <0.01 <10 <10 15 <10 58CGH-06-130 57.91 60.96 VA06103985 C097490 0.051 0.5 0.62 117 <10 60 <0.5 <2 3.16 <0.5 17 <1 1315 4.93 <10 <1 0.4 <10 0.92 1080 12 0.05 3 1250 9 3.91 7 2 75 <0.01 10 <10 15 <10 58CGH-06-130 60.96 64.01 VA06103985 C097491 0.043 0.6 0.68 40 <10 140 <0.5 <2 3.46 <0.5 15 <1 1195 4.85 <10 <1 0.47 <10 1.04 1390 8 0.05 2 1580 6 2.2 4 5 87 <0.01 <10 <10 30 <10 61CGH-06-130 64.01 67.08 VA06103985 C097492 0.22 1.5 0.66 149 <10 130 <0.5 <2 3.12 <0.5 16 <1 885 5.02 <10 1 0.45 <10 0.89 1590 9 0.06 3 1640 18 3.45 5 5 89 <0.01 <10 <10 28 <10 47CGH-06-130 67.08 70.10 VA06103985 C097493 0.059 0.8 0.58 54 <10 150 <0.5 <2 3.89 <0.5 18 <1 1005 5.13 <10 <1 0.39 <10 1.16 1625 16 0.05 2 1250 10 3.09 6 4 86 <0.01 <10 <10 22 <10 52CGH-06-130 70.10 73.15 VA06103985 C097494 0.052 0.6 0.65 55 10 100 <0.5 <2 2.81 <0.5 16 <1 739 3.61 <10 1 0.46 <10 0.74 1120 30 0.05 2 1200 6 1.97 6 3 70 <0.01 <10 <10 18 <10 52CGH-06-130 73.15 76.20 VA06103985 C097495 0.134 1.9 0.69 61 10 50 <0.5 <2 3.94 <0.5 30 1 1350 6.42 <10 <1 0.43 <10 1.22 1850 15 0.05 1 1250 14 5.1 17 3 82 <0.01 <10 <10 22 <10 60CGH-06-130 76.20 79.25 VA06103985 C097496 0.092 0.8 0.74 17 10 100 <0.5 <2 3.61 0.7 24 <1 1500 6.3 <10 <1 0.47 <10 1.32 1190 13 0.07 <1 1590 5 3.19 27 6 92 <0.01 <10 <10 45 <10 105CGH-06-130 79.25 82.30 VA06103985 C097497 0.048 0.6 0.81 13 10 290 0.5 2 2.79 <0.5 16 <1 829 5.46 <10 1 0.51 <10 1.05 1440 39 0.09 2 1730 5 1.17 5 7 108 <0.01 <10 <10 45 <10 136CGH-06-130 82.30 85.34 VA06103985 C097498 0.15 1.7 0.73 55 10 60 0.5 <2 3.16 <0.5 20 <1 1350 5.9 <10 <1 0.46 <10 1.09 1580 13 0.08 <1 1510 17 3.09 20 6 97 <0.01 <10 <10 36 <10 116CGH-06-130 85.34 88.39 VA06103985 C097499 0.342 7.9 0.62 82 10 40 <0.5 13 3.16 4.6 14 <1 6280 5.36 <10 4 0.37 <10 0.97 1440 167 0.07 <1 1090 12 3.55 769 4 90 <0.01 <10 <10 22 <10 324CGH-06-130 88.39 91.44 VA06103985 C097500 0.273 3.9 0.67 23 10 40 <0.5 <2 3.22 1.6 16 1 5100 5.4 <10 1 0.39 <10 1.03 1210 29 0.07 1 1090 9 3.87 173 3 96 <0.01 <10 <10 24 <10 134CGH-06-130 Standard 2 VA06103985 C097501 0.95 2.9 0.91 15 <10 80 <0.5 17 1.56 <0.5 27 1520 >10000 11.1 <10 <1 0.43 <10 0.75 1050 29 0.03 1260 620 10 3.58 6 5 61 0.01 <10 <10 54 <10 91 1.21CGH-06-130 91.44 94.49 VA06103985 C097502 0.292 1.6 0.64 19 10 60 <0.5 <2 3.18 0.5 15 2 4650 5.11 <10 1 0.4 <10 0.95 2160 24 0.06 3 1180 12 3.15 12 3 85 <0.01 <10 <10 23 <10 72CGH-06-130 94.49 97.54 VA06103985 C097503 0.479 1.3 0.59 9 10 110 <0.5 8 2.55 <0.5 19 <1 5830 6.3 <10 1 0.37 <10 0.78 1460 23 0.06 2 1040 4 3.34 8 3 82 <0.01 <10 <10 29 <10 75CGH-06-130 97.54 100.58 VA06103985 C097504 0.525 1.1 0.67 14 10 50 <0.5 7 2.37 <0.5 16 1 6020 5.95 <10 1 0.42 <10 0.8 908 25 0.07 2 1100 6 3.6 10 3 78 <0.01 <10 <10 29 <10 70CGH-06-130 100.58 103.63 VA06103985 C097505 0.461 1.6 0.63 27 10 70 <0.5 7 2.46 0.6 14 1 6900 5.31 <10 1 0.41 <10 0.71 1290 28 0.06 4 1020 19 3.97 7 3 70 <0.01 <10 <10 25 <10 81CGH-06-130 103.63 106.68 VA06103985 C097506 0.796 1.9 0.62 20 10 60 <0.5 4 2.42 <0.5 16 2 8000 6.81 <10 1 0.4 <10 0.89 1390 15 0.06 <1 930 10 3.3 18 4 77 <0.01 <10 <10 34 <10 74CGH-06-130 106.68 109.73 VA06103985 C097507 0.554 1.1 0.61 15 10 60 <0.5 <2 2.72 <0.5 14 1 5350 6.18 <10 1 0.37 <10 0.96 1180 21 0.08 5 1110 7 1.92 18 4 87 <0.01 <10 <10 35 <10 82CGH-06-130 109.73 112.78 VA06103985 C097508 0.169 1 0.74 34 10 40 0.5 <2 4.29 0.5 14 <1 2120 6.36 <10 1 0.47 <10 1.35 2040 12 0.1 1 1410 5 1.7 17 7 133 <0.01 <10 <10 40 <10 103CGH-06-130 112.78 115.82 VA06103985 C097509 0.137 0.9 0.63 28 10 50 0.5 <2 3.98 <0.5 11 <1 2030 5.89 <10 <1 0.4 <10 1.29 1960 7 0.09 1 1340 7 1.63 13 10 132 <0.01 <10 <10 42 <10 117CGH-06-130 115.82 118.87 VA06103985 C097510 0.239 1.5 0.64 51 10 20 <0.5 <2 3.93 0.6 15 1 3140 5.76 <10 1 0.41 <10 1.14 1580 9 0.08 <1 1340 11 3.19 25 7 119 <0.01 <10 <10 34 <10 96CGH-06-130 118.87 121.92 VA06103985 C097511 0.113 1 0.73 31 10 60 0.5 2 3.68 <0.5 14 <1 1630 5.1 <10 <1 0.44 <10 1.16 1430 12 0.1 <1 1570 10 1.78 32 9 124 <0.01 <10 <10 38 <10 74CGH-06-130 118.87 121.92 VA06103985 C097512 0.129 1.1 0.65 34 10 80 0.5 <2 3.65 <0.5 14 <1 1680 4.97 <10 <1 0.42 <10 1.14 1400 16 0.1 <1 1560 6 1.7 33 8 121 <0.01 <10 <10 36 <10 73CGH-06-130 121.92 124.97 VA06103985 C097513 0.426 1.4 0.61 34 10 40 <0.5 <2 3.27 0.5 17 <1 5000 5.97 <10 1 0.37 <10 0.98 1020 23 0.08 1 1230 5 2.91 66 7 106 <0.01 <10 <10 35 <10 74CGH-06-130 124.97 128.02 VA06103985 C097514 0.149 0.6 0.74 29 10 180 0.5 <2 3.04 <0.5 13 <1 2430 4.44 <10 <1 0.45 <10 0.94 981 20 0.12 1 1300 5 2.01 5 6 108 <0.01 <10 <10 25 <10 49CGH-06-130 128.02 131.06 VA06103985 C097515 0.174 0.6 0.68 46 10 80 <0.5 <2 3.43 <0.5 14 1 3090 4.84 <10 <1 0.4 <10 0.97 1100 23 0.11 1 1260 7 2.64 4 6 122 <0.01 <10 <10 23 <10 56CGH-06-130 131.06 134.11 VA06103985 C097516 0.333 1.2 0.68 21 10 30 <0.5 <2 2.68 <0.5 21 <1 5480 8.36 <10 <1 0.4 <10 0.91 1080 25 0.08 <1 1120 8 5.35 12 4 87 <0.01 <10 <10 37 <10 79CGH-06-130 134.11 137.16 VA06103985 C097517 0.123 0.7 0.7 25 10 70 <0.5 <2 4.92 <0.5 18 2 1880 5.7 <10 1 0.42 <10 1.52 1420 16 0.11 4 1270 6 2.84 7 8 125 <0.01 <10 <10 33 <10 83CGH-06-130 137.16 140.21 VA06103985 C097518 0.044 0.5 0.77 9 10 60 0.5 <2 3.46 <0.5 13 <1 661 4.21 <10 <1 0.47 <10 0.97 757 7 0.13 1 1230 7 2.54 6 4 111 <0.01 <10 <10 23 <10 55CGH-06-130 140.21 143.26 VA06103985 C097519 0.048 0.4 0.77 19 10 30 0.6 <2 3.38 <0.5 12 <1 843 3.68 <10 <1 0.45 <10 0.96 740 11 0.12 <1 1180 6 2.19 4 4 130 <0.01 <10 <10 21 <10 59CGH-06-130 143.26 146.30 VA06103985 C097520 0.036 0.3 0.72 15 10 60 0.5 <2 2.89 <0.5 9 1 625 3.71 <10 <1 0.46 <10 0.83 590 10 0.12 <1 1290 2 1.7 10 5 141 <0.01 <10 <10 26 <10 57CGH-06-130 146.30 149.35 VA06107460 C097521 0.153 0.6 0.98 46 10 20 0.5 <2 2.6 <0.5 18 1 3100 5.57 <10 <1 0.55 <10 0.73 512 19 0.09 2 1330 7 4.9 5 4 87 <0.01 <10 <10 26 <10 39CGH-06-130 149.35 152.40 VA06107460 C097522 0.273 0.7 0.81 6 10 20 <0.5 <2 2.68 <0.5 15 1 3800 6.32 <10 <1 0.48 <10 0.77 475 16 0.08 3 1230 12 5.33 6 4 84 <0.01 <10 <10 27 <10 54CGH-06-130 Standard 6 VA06107460 C097523 0.262 0.7 1.12 13 <10 70 <0.5 2 2.91 <0.5 16 402 3460 6.3 <10 1 0.38 10 1.15 780 11 0.06 322 1200 13 3.22 9 8 203 <0.01 <10 <10 60 <10 119CGH-06-130 152.40 155.45 VA06107460 C097524 0.506 1.3 0.73 16 10 30 <0.5 <2 2.88 <0.5 17 2 5360 6.38 <10 <1 0.43 <10 0.85 807 14 0.08 1 1080 6 4.24 11 4 89 <0.01 <10 <10 31 <10 67CGH-06-130 155.45 158.50 VA06107460 C097525 0.278 1 0.78 8 10 40 0.5 <2 3.9 <0.5 22 9 5000 5.24 <10 <1 0.47 <10 1.11 826 27 0.11 9 1230 6 3.55 8 13 114 <0.01 <10 <10 40 <10 54CGH-06-130 158.50 161.54 VA06107460 C097526 0.049 0.3 0.77 5 10 150 0.5 <2 3.38 <0.5 21 1 1045 3.93 <10 <1 0.47 <10 0.88 558 7 0.13 1 1300 5 2.39 7 5 111 <0.01 <10 <10 22 <10 60CGH-06-130 161.54 164.59 VA06107460 C097527 0.127 0.8 0.8 19 10 20 0.5 <2 3.47 <0.5 19 2 2500 5.46 <10 <1 0.46 <10 0.92 656 17 0.11 3 1150 7 4.49 5 5 123 <0.01 <10 <10 21 <10 80CGH-06-130 164.59 167.64 VA06107460 C097528 0.291 1 0.71 8 10 30 <0.5 <2 3.14 <0.5 13 1 4840 5.68 <10 1 0.44 <10 0.8 749 14 0.08 4 1100 6 4.18 4 3 81 <0.01 <10 <10 24 <10 36CGH-06-130 167.64 170.69 VA06107460 C097529 0.087 0.7 0.8 5 10 110 <0.5 2 3.97 <0.5 15 1 2060 4.78 <10 <1 0.5 10 0.82 732 79 0.09 2 1230 8 3.59 3 3 108 <0.01 <10 <10 21 <10 58CGH-06-130 170.69 173.74 VA06107460 C097530 0.102 0.8 0.85 11 10 40 0.5 <2 3.37 <0.5 13 1 2290 4.86 <10 <1 0.51 10 0.88 705 15 0.11 1 1330 6 3.18 7 4 112 <0.01 <10 <10 22 <10 64CGH-06-130 173.74 176.78 VA06107460 C097531 0.09 0.8 0.82 20 10 100 0.5 <2 3.65 <0.5 13 1 2560 4.42 <10 <1 0.49 10 1.03 991 21 0.11 1 1280 7 2.88 8 4 111 <0.01 <10 <10 25 <10 89CGH-06-130 176.78 179.83 VA06107460 C097532 0.125 0.8 0.83 11 10 50 0.5 <2 2.87 <0.5 15 <1 2680 6.13 <10 <1 0.49 10 0.86 900 37 0.1 1 1360 8 3.71 5 5 92 <0.01 <10 <10 27 <10 114CGH-06-130 179.83 182.88 VA06107460 C097533 0.182 0.7 0.75 18 10 80 0.5 <2 2.56 <0.5 14 1 3600 5.3 <10 <1 0.46 <10 0.79 878 13 0.1 2 1250 6 2.85 12 5 83 <0.01 <10 <10 33 <10 44CGH-06-130 179.83 182.88 VA06107460 C097534 0.184 0.7 0.76 19 10 70 0.5 <2 2.55 <0.5 13 1 3600 5.18 <10 <1 0.46 <10 0.79 863 12 0.1 3 1210 6 2.78 12 5 83 <0.01 <10 <10 32 <10 41CGH-06-130 182.88 185.93 VA06107460 C097535 0.138 1 0.28 10 <10 90 <0.5 <2 3.33 <0.5 13 1 2830 5.68 <10 <1 0.2 <10 0.98 740 17 0.08 2 1170 9 3.49 13 4 84 <0.01 <10 <10 24 <10 55CGH-06-130 185.93 188.98 VA06107460 C097536 0.156 1 0.63 10 <10 50 <0.5 <2 3.95 <0.5 10 1 4260 6.4 <10 <1 0.39 <10 1.13 948 12 0.08 1 1110 11 2.67 20 6 101 <0.01 <10 <10 42 <10 85CGH-06-130 188.98 192.02 VA06107460 C097537 0.087 0.7 0.85 12 10 270 0.5 <2 3.42 <0.5 11 11 2480 5.74 <10 <1 0.48 <10 1.14 693 10 0.13 5 1370 6 1.08 75 14 118 <0.01 <10 <10 63 <10 122CGH-06-130 192.02 195.07 VA06107460 C097538 0.107 1.2 0.81 18 10 90 0.5 <2 3.59 <0.5 18 3 3680 6.62 <10 <1 0.48 <10 1.15 917 13 0.12 6 1360 7 2.44 48 8 99 <0.01 <10 <10 42 <10 111CGH-06-130 195.07 198.12 VA06107460 C097539 0.111 1.1 0.82 27 10 90 <0.5 2 3.73 <0.5 13 1 2630 5.52 <10 <1 0.48 <10 1.04 976 14 0.11 2 1270 9 2.22 41 6 100 <0.01 <10 <10 33 <10 103CGH-06-130 198.12 201.17 VA06107460 C097540 0.128 0.9 0.78 23 <10 50 <0.5 <2 2.48 <0.5 13 <1 2490 6.14 <10 1 0.48 <10 0.65 991 23 0.08 1 1460 8 3.28 19 3 73 <0.01 <10 <10 27 <10 60CGH-06-130 201.17 204.22 VA06107460 C097541 0.386 2.5 0.66 27 10 30 0.5 <2 2.12 0.6 11 3 5240 5.08 <10 <1 0.38 <10 0.68 1030 6 0.1 2 1170 15 2.53 38 5 92 <0.01 <10 <10 25 <10 100CGH-06-130 204.22 207.26 VA06107460 C097542 0.566 2.1 0.57 13 <10 90 <0.5 <2 1.93 0.5 11 6 >10000 6.82 <10 <1 0.33 <10 0.88 1410 29 0.08 5 910 13 2.37 9 6 68 <0.01 <10 <10 35 <10 228 1.05CGH-06-130 207.26 210.31 VA06107460 C097543 0.28 1.8 0.68 61 10 90 0.5 <2 2.28 <0.5 13 3 2990 5.88 <10 <1 0.41 <10 0.79 1180 6 0.09 6 1170 22 3.53 14 4 92 <0.01 <10 <10 24 <10 140CGH-06-130 210.31 213.36 VA06107460 C097544 0.311 1.2 0.71 21 <10 90 0.5 <2 1.85 <0.5 10 3 5710 6.37 <10 <1 0.41 <10 0.96 1440 5 0.1 5 1200 11 1.56 38 6 90 <0.01 <10 <10 41 <10 177CGH-06-130 BLANK VA06107460 C097545 0.02 0.7 2.27 17 <10 30 <0.5 <2 5.61 1.6 16 43 295 5.62 10 1 0.2 10 1.54 3090 3 0.08 37 1520 11 2.22 5 9 137 <0.01 <10 <10 114 <10 364CGH-06-130 213.36 216.41 VA06107460 C097546 0.474 1.5 0.5 29 10 140 <0.5 2 1.79 <0.5 11 7 7570 5.8 <10 <1 0.31 <10 0.78 1310 6 0.07 5 880 13 1.8 21 4 61 <0.01 <10 <10 33 <10 154CGH-06-130 216.41 219.46 VA06107460 C097547 0.401 1.5 0.72 25 10 150 0.6 4 2.45 0.5 12 1 6500 7.65 <10 1 0.46 <10 1.24 1790 9 0.14 4 1660 11 1.45 61 8 121 <0.01 <10 <10 47 <10 263CGH-06-130 219.46 222.50 VA06107460 C097548 0.57 2 0.7 26 10 80 0.5 12 2.59 <0.5 14 3 8780 9.64 <10 1 0.43 <10 1.54 2200 6 0.1 5 1380 10 1.86 82 7 95 <0.01 <10 <10 59 <10 274CGH-06-130 222.50 225.55 VA06107460 C097549 0.686 2.4 0.75 76 10 30 0.5 11 2.61 <0.5 19 3 7920 8.55 <10 1 0.46 <10 1.27 2110 5 0.11 9 1800 21 3.64 44 7 92 <0.01 <10 <10 48 <10 180CGH-06-130 225.55 228.60 VA06107460 C097550 0.522 2.8 0.68 60 10 20 0.5 3 2.02 <0.5 19 3 6530 7.27 <10 1 0.42 <10 0.86 1340 11 0.1 10 1370 36 4.05 27 6 75 <0.01 <10 <10 35 <10 146CGH-06-130 228.60 231.65 VA06107460 C097551 0.404 1.6 0.66 33 10 60 0.5 <2 1.68 <0.5 14 3 5450 7.63 <10 1 0.43 <10 1.07 1730 6 0.11 7 1750 19 2.71 26 8 76 <0.01 <10 <10 41 <10 224CGH-06-130 231.65 234.70 VA06107460 C097552 0.35 2 0.7 27 10 80 0.6 <2 1.77 <0.5 17 5 5340 7.72 <10 1 0.45 <10 0.96 1590 4 0.13 11 1760 21 2.93 24 9 88 <0.01 <10 <10 44 <10 163CGH-06-130 234.70 237.74 VA06107460 C097553 0.441 1.4 0.64 29 10 30 <0.5 <2 2.78 <0.5 19 3 4800 8.24 <10 1 0.38 <10 1.26 1400 9 0.11 15 1360 20 5.08 15 7 116 <0.01 <10 <10 27 <10 169CGH-06-130 237.74 240.79 VA06107460 C097554 0.378 1.2 0.72 16 <10 70 <0.5 <2 1.73 <0.5 17 3 4920 7.62 <10 <1 0.38 <10 1.16 1220 7 0.12 10 1200 10 3.79 27 8 95 <0.01 <10 <10 43 <10 123CGH-06-130 240.79 243.84 VA06107460 C097555 0.442 1.2 0.7 19 <10 100 <0.5 <2 1.8 <0.5 18 6 5320 7.96 <10 <1 0.39 <10 1.16 1180 4 0.1 12 1300 6 3.42 25 9 91 <0.01 <10 <10 42 <10 105CGH-06-130 Standard 5 VA06107460 C097556 0.15 0.4 1.81 6 <10 180 <0.5 <2 1.39 <0.5 23 1090 1665 4.98 10 <1 0.24 10 0.87 641 18 0.15 866 710 5 1.01 2 5 85 0.12 <10 <10 69 <10 58CGH-06-130 243.84 246.89 VA06107460 C097557 0.385 1.5 1.19 19 10 110 0.5 <2 2.21 <0.5 15 7 5930 7.29 <10 1 0.59 10 1.07 1450 8 0.13 11 1490 13 2.64 26 9 98 <0.01 <10 <10 48 <10 165CGH-06-130 246.89 249.94 VA06107460 C097558 0.318 1.9 0.7 74 <10 50 0.5 <2 2.06 <0.5 15 2 4090 6 <10 1 0.42 <10 0.83 1240 6 0.12 6 1400 15 3.29 28 5 96 <0.01 <10 <10 25 <10 119CGH-06-130 249.94 252.98 VA06107460 C097559 0.298 0.9 0.74 57 <10 40 <0.5 <2 1.35 0.7 12 1 2080 5.52 <10 1 0.41 <10 0.61 587 15 0.13 3 1360 12 4.09 17 3 107 <0.01 <10 <10 20 <10 175CGH-06-130 252.98 256.03 VA06107460 C097560 0.181 0.9 1.13 22 10 60 0.5 <2 2.61 0.7 15 2 2180 4.97 <10 <1 0.51 <10 0.79 675 9 0.15 4 1760 11 3.36 14 7 154 <0.01 <10 <10 48 <10 93CGH-06-130 256.03 259.08 VA06107460 C097561 0.127 0.5 1.81 30 <10 140 0.6 <2 3.63 0.7 15 6 380 4.16 <10 <1 0.45 10 1.05 696 7 0.13 10 1770 30 1.64 3 8 168 <0.01 <10 <10 71 <10 91CGH-06-130 259.08 262.13 VA06107460 C097562 0.222 2 1.01 85 <10 40 <0.5 <2 4.57 48.9 8 1 214 3.81 <10 1 0.44 10 1.16 957 7 0.11 2 1400 1320 1.87 4 6 161 <0.01 <10 <10 45 <10 1510CGH-06-130 262.13 265.18 VA06107460 C097563 0.056 1.8 1.12 10 <10 70 <0.5 2 3.53 1 12 1 834 3.02 <10 <1 0.42 10 0.9 481 29 0.12 3 1300 9 1.93 <2 4 142 <0.01 <10 <10 30 <10 71CGH-06-130 265.18 268.22 VA06107460 C097564 0.162 0.7 1.12 64 <10 150 0.5 <2 4.72 7 11 1 555 3.31 <10 1 0.45 10 1.03 777 10 0.13 2 1490 143 1.89 4 5 180 <0.01 <10 <10 35 <10 226CGH-06-130 268.22 271.27 VA06107460 C097565 0.082 1.3 1.5 22 <10 120 <0.5 <2 3.71 14 11 1 1665 3.26 <10 1 0.44 10 0.87 417 12 0.12 2 1380 149 2.28 4 4 148 <0.01 <10 <10 46 <10 467CGH-06-130 271.27 274.32 VA06107460 C097566 0.044 0.7 1.9 2 <10 100 0.6 <2 4.13 <0.5 17 1 1170 3.28 10 1 0.45 10 1.04 405 8 0.14 1 1380 8 1.5 <2 5 170 <0.01 <10 <10 51 <10 44CGH-06-130 271.27 274.32 VA06107460 C097567 0.038 0.6 1.93 6 <10 120 0.6 <2 4.54 <0.5 16 2 1035 3.26 10 <1 0.45 10 1.08 419 14 0.15 2 1420 6 1.44 <2 5 188 <0.01 <10 <10 53 <10 46CGH-06-130 274.32 277.37 VA06107460 C097568 0.036 0.3 2.11 <2 <10 300 0.5 <2 3.83 <0.5 9 2 710 3 10 <1 0.48 10 1.27 421 3 0.16 1 1570 2 0.88 <2 6 186 <0.01 <10 <10 61 <10 38
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-130 277.37 280.42 VA06107460 C097569 0.038 0.6 1.6 5 <10 80 0.5 <2 4.28 <0.5 13 2 895 2.97 <10 <1 0.48 10 0.91 443 5 0.13 2 1370 2 1.83 <2 4 177 <0.01 <10 <10 40 <10 30CGH-06-130 280.42 283.46 VA06107460 C097570 0.036 0.5 1.72 3 <10 270 <0.5 <2 3.53 <0.5 8 1 708 2.98 10 <1 0.41 10 1.02 326 7 0.12 3 1350 4 0.84 <2 5 155 <0.01 <10 <10 52 <10 31CGH-06-131 36.58 39.62 VA06103986 B520756 0.07 0.4 0.61 39 <10 20 <0.5 <2 2.78 <0.5 17 1 126 4.88 <10 <1 0.32 <10 1.02 1240 24 0.02 <1 1320 2 4.71 3 4 74 <0.01 <10 <10 23 <10 29CGH-06-131 39.62 42.67 VA06103986 B520757 0.07 0.4 0.53 34 <10 20 <0.5 2 2.79 <0.5 16 1 119 4.75 <10 <1 0.28 <10 1.03 1250 22 0.01 1 1310 4 4.61 3 4 72 <0.01 <10 <10 21 <10 29CGH-06-131 42.67 45.72 VA06103986 B520758 0.138 1.1 0.52 53 <10 20 <0.5 <2 2.12 1.1 10 2 460 4.26 <10 <1 0.29 <10 0.69 1180 15 0.01 2 1080 8 4.39 12 3 53 <0.01 <10 <10 11 <10 132CGH-06-131 45.72 48.77 VA06103986 B520759 0.113 1.2 0.64 60 <10 10 <0.5 <2 1.5 0.6 13 2 284 5.71 <10 <1 0.34 <10 0.35 800 10 0.01 2 1100 8 6 8 3 66 <0.01 <10 <10 15 <10 29CGH-06-131 48.77 51.82 VA06103986 B520760 0.069 1.8 0.61 28 <10 40 <0.5 <2 2.61 0.5 9 2 242 3.15 <10 <1 0.35 10 0.65 1370 2 0.01 2 1020 4 2.69 7 4 65 <0.01 <10 <10 14 <10 45CGH-06-131 48.77 51.82 VA06103986 B520761 0.057 1.3 0.56 25 10 80 <0.5 <2 2.59 0.5 8 2 235 2.94 <10 <1 0.33 10 0.63 1350 1 0.01 3 1010 5 2.43 5 4 59 <0.01 <10 <10 13 <10 46CGH-06-131 51.82 54.86 VA06103986 B520762 0.085 0.4 0.67 15 10 70 <0.5 <2 3.44 0.5 9 1 177 3.33 <10 1 0.37 10 0.59 999 2 0.02 <1 1060 5 3.1 5 3 106 <0.01 <10 <10 23 <10 74CGH-06-131 54.86 57.91 VA06103986 B520763 0.141 0.7 0.68 23 <10 40 <0.5 <2 3.26 <0.5 10 1 758 4.1 <10 <1 0.37 10 0.58 1040 3 0.02 1 1010 8 4.06 3 3 90 <0.01 <10 <10 21 <10 58CGH-06-131 57.91 60.96 VA06103986 B520764 0.097 0.6 0.55 42 <10 50 <0.5 <2 2.13 <0.5 10 3 204 3.62 <10 <1 0.31 10 0.34 603 5 0.02 3 1150 9 3.7 3 3 71 <0.01 <10 <10 17 <10 41CGH-06-131 60.96 64.01 VA06103986 B520765 0.17 0.6 0.64 81 <10 40 <0.5 2 3.27 <0.5 10 2 170 4.25 <10 <1 0.34 10 0.63 1035 2 0.02 3 1120 10 4.23 <2 3 105 <0.01 <10 <10 24 <10 67CGH-06-131 64.01 67.06 VA06103986 B520766 0.073 0.7 0.57 22 <10 50 <0.5 <2 3.8 <0.5 10 2 267 4 <10 <1 0.31 10 0.64 1145 1 0.02 2 1220 9 3.94 <2 4 126 <0.01 <10 <10 32 <10 83CGH-06-131 67.06 70.10 VA06103986 B520767 0.049 0.5 0.89 21 <10 50 <0.5 <2 3.21 <0.5 9 2 112 4.55 <10 <1 0.49 10 0.69 1510 2 0.02 2 1180 5 4.73 2 3 68 <0.01 <10 <10 15 40 68CGH-06-131 70.10 73.15 VA06103986 B520768 0.084 0.8 0.56 54 <10 30 <0.5 <2 3.56 <0.5 15 2 410 6.53 <10 <1 0.31 <10 0.56 1220 12 0.02 4 1390 8 6.97 3 3 104 <0.01 <10 <10 17 <10 38CGH-06-131 73.15 76.20 VA06103986 B520769 0.063 0.6 0.67 11 <10 40 <0.5 <2 3.99 <0.5 13 2 631 4.55 <10 <1 0.28 <10 0.95 990 7 0.04 1 1690 8 4 2 7 155 <0.01 <10 <10 43 <10 91CGH-06-131 76.20 79.25 VA06103986 B520770 0.054 0.7 0.63 7 <10 50 <0.5 <2 4.33 <0.5 16 1 564 4.98 <10 <1 0.26 10 1.13 936 86 0.04 3 2140 6 4.37 5 7 197 <0.01 <10 <10 45 <10 40CGH-06-131 79.25 82.30 VA06103986 B520771 0.053 0.7 0.74 15 <10 30 <0.5 <2 3.13 <0.5 10 1 195 4.55 <10 <1 0.36 <10 0.6 895 8 0.03 3 1080 7 4.42 <2 3 118 <0.01 <10 <10 17 <10 35CGH-06-131 Standard 6 VA06103986 B520772 0.246 0.7 0.96 13 <10 70 <0.5 <2 2.95 0.6 16 409 3390 6.2 <10 1 0.32 <10 1.16 782 10 0.06 335 1220 15 3.27 9 8 200 <0.01 <10 <10 56 <10 123CGH-06-131 82.30 85.34 VA06103986 B520773 0.038 0.9 0.57 17 <10 40 <0.5 <2 3.22 <0.5 10 3 503 3.52 <10 <1 0.27 <10 0.84 1050 17 0.04 3 1110 6 2.71 5 4 148 <0.01 <10 <10 25 <10 62CGH-06-131 85.34 88.39 VA06103986 B520774 0.023 0.4 0.65 5 <10 150 <0.5 <2 2.89 <0.5 7 3 264 2.68 <10 <1 0.3 <10 0.74 925 20 0.05 2 1080 5 1.7 3 5 134 <0.01 <10 <10 32 <10 48CGH-06-131 88.39 91.44 VA06103986 B520775 0.027 0.5 0.72 19 <10 90 <0.5 <2 3.97 <0.5 9 2 448 3.29 <10 <1 0.32 10 1.32 1350 19 0.06 3 1220 6 1.69 <2 5 264 <0.01 <10 <10 45 <10 68CGH-06-131 91.44 94.49 VA06103986 B520776 0.087 0.9 0.92 36 <10 30 <0.5 <2 4.17 <0.5 17 1 879 5.36 <10 <1 0.36 <10 1.21 1625 3 0.06 3 1880 5 2.76 <2 9 242 <0.01 <10 <10 80 <10 123CGH-06-131 94.49 97.54 VA06103986 B520777 0.088 1.1 1.26 <2 <10 120 <0.5 <2 4.29 0.5 23 1 1045 5.65 <10 <1 0.28 10 1.73 1405 26 0.11 3 2210 4 2.18 <2 13 232 0.01 <10 <10 113 <10 110CGH-06-131 97.54 100.58 VA06107255 B520778 0.129 1.3 1.91 4 10 40 <0.5 <2 3.84 <0.5 23 2 1355 5.31 10 <1 0.32 <10 1.61 1450 12 0.18 3 1790 4 2.48 <2 13 207 <0.01 <10 <10 123 <10 126CGH-06-131 100.58 103.63 VA06107255 B520779 0.271 1.5 0.92 59 10 20 <0.5 2 3.73 <0.5 18 1 1870 5.39 <10 1 0.39 <10 1.23 1165 13 0.06 3 1860 6 4.43 <2 9 152 <0.01 <10 <10 76 <10 70CGH-06-131 103.63 106.68 VA06107255 B520780 0.202 1.1 1.14 10 10 50 <0.5 <2 4.09 <0.5 19 <1 1525 5.16 <10 <1 0.4 <10 1.53 1095 2 0.07 4 2090 6 3.26 2 11 173 <0.01 <10 <10 93 <10 119CGH-06-131 106.68 109.73 VA06107255 B520781 0.067 0.4 0.91 5 10 210 <0.5 <2 4.9 <0.5 17 2 617 4.93 <10 <1 0.31 10 1.97 1260 10 0.07 3 1930 5 1.66 <2 13 172 <0.01 <10 <10 108 <10 62CGH-06-131 109.73 112.78 VA06107255 B520782 0.076 0.5 1 4 10 80 <0.5 <2 4.29 <0.5 17 1 804 5.16 <10 <1 0.37 10 1.51 1155 4 0.08 2 2020 4 2.72 2 12 137 <0.01 <10 <10 99 <10 73CGH-06-131 109.73 112.78 VA06107255 B520783 0.063 0.5 1.05 3 10 80 <0.5 <2 4.44 <0.5 18 <1 758 4.99 <10 <1 0.38 10 1.52 1150 2 0.08 2 2010 3 2.51 <2 12 135 <0.01 <10 <10 99 <10 69CGH-06-131 112.78 115.82 VA06107255 B520784 0.059 0.5 0.98 3 10 110 <0.5 <2 4.24 0.5 19 <1 605 4.99 <10 <1 0.36 10 1.05 1330 46 0.08 3 1880 4 2.63 <2 11 156 <0.01 <10 <10 95 <10 162CGH-06-131 115.82 118.87 VA06107255 B520785 0.057 0.3 1 <2 10 60 <0.5 <2 4.54 <0.5 16 <1 445 4.65 <10 <1 0.36 10 1.55 1035 15 0.09 2 1850 2 1.59 <2 13 156 <0.01 <10 10 109 <10 59CGH-06-131 118.87 121.92 VA06107255 B520786 0.049 0.3 1 4 10 50 <0.5 2 4.21 <0.5 15 <1 448 4.39 <10 <1 0.44 10 1.58 1230 3 0.09 2 1740 5 2.2 2 11 189 <0.01 <10 <10 77 <10 48CGH-06-131 121.92 124.97 VA06107255 B520787 0.08 0.5 0.89 10 10 60 <0.5 2 4.26 <0.5 18 <1 653 4.92 <10 <1 0.37 <10 1.5 1265 6 0.08 2 1820 6 3.37 3 9 189 <0.01 <10 <10 67 <10 52CGH-06-131 124.97 128.02 VA06107255 B520788 0.135 0.9 0.76 96 10 30 <0.5 <2 3.99 <0.5 21 <1 542 5.83 <10 <1 0.37 <10 1.23 1145 3 0.07 4 1740 3 5.18 3 7 150 <0.01 <10 <10 43 <10 34CGH-06-131 128.02 131.06 VA06107255 B520789 0.063 0.5 0.87 5 10 90 <0.5 <2 4.63 <0.5 17 1 642 4.45 <10 <1 0.35 <10 1.42 1245 13 0.08 3 1710 5 2.98 2 9 192 <0.01 <10 <10 61 <10 112CGH-06-131 131.06 134.11 VA06107255 B520790 0.049 0.5 0.79 16 10 20 <0.5 <2 4.5 <0.5 12 <1 320 5.14 <10 <1 0.35 <10 1.34 1745 1 0.07 3 1240 6 4.08 <2 6 126 <0.01 <10 <10 34 <10 53CGH-06-131 134.11 137.16 VA06107255 B520791 0.126 0.3 1.02 4 10 50 <0.5 <2 4.08 <0.5 18 <1 416 5.58 <10 <1 0.32 <10 1.37 690 4 0.09 2 2000 5 5.19 <2 9 154 <0.01 <10 <10 93 <10 53CGH-06-131 137.16 140.21 VA06107255 B520792 0.08 0.4 1.02 7 10 10 <0.5 <2 4.52 <0.5 15 <1 223 5.41 <10 <1 0.38 <10 1.41 777 10 0.1 4 1780 5 5.65 3 9 179 <0.01 <10 <10 65 <10 65CGH-06-131 140.21 143.26 VA06107255 B520793 0.099 0.6 0.92 39 10 20 <0.5 <2 4.1 <0.5 20 <1 247 5.49 <10 <1 0.35 <10 1.14 898 9 0.1 4 1940 11 4.65 <2 9 161 <0.01 <10 <10 66 <10 43CGH-06-131 BLANK VA06107255 B520794 0.013 0.8 1.32 24 <10 100 <0.5 <2 4.44 1.8 7 49 145 2.64 <10 <1 0.23 10 0.73 1700 13 0.06 41 2290 30 0.96 6 5 127 <0.01 <10 <10 157 <10 338CGH-06-131 143.26 146.30 VA06107255 B520795 0.06 0.6 1.09 15 10 30 <0.5 <2 5.05 <0.5 18 <1 277 6.11 <10 <1 0.31 <10 1.36 1440 6 0.09 4 1720 8 4.44 <2 14 162 <0.01 <10 <10 101 <10 68CGH-06-131 146.30 149.35 VA06107255 B520796 0.078 0.4 1.09 3 10 50 <0.5 <2 3.99 <0.5 21 <1 267 6.1 <10 <1 0.34 <10 1.35 940 1 0.1 5 1900 8 4.89 2 13 166 <0.01 <10 <10 112 <10 90CGH-06-131 149.35 152.40 VA06107255 B520797 0.057 0.3 0.91 9 10 100 <0.5 <2 4.66 <0.5 17 <1 313 4.99 <10 <1 0.32 <10 1.63 880 1 0.1 3 1840 6 3.6 <2 12 197 <0.01 <10 <10 81 <10 44CGH-06-131 152.40 155.45 VA06107255 B520798 0.137 0.6 0.66 15 10 80 <0.5 <2 3.32 <0.5 14 <1 750 4.39 <10 <1 0.3 <10 1.18 762 10 0.08 4 1660 6 3.3 3 8 132 <0.01 <10 <10 39 <10 52CGH-06-131 155.45 158.50 VA06107255 B520799 0.162 0.7 0.4 21 10 80 <0.5 <2 2.16 <0.5 12 1 1015 3.28 <10 <1 0.23 <10 0.76 1040 21 0.05 12 730 3 2.25 <2 4 81 <0.01 <10 <10 15 <10 40CGH-06-131 158.50 161.54 VA06107255 B520800 0.203 0.7 0.27 13 <10 40 <0.5 <2 2.07 <0.5 8 6 932 3.01 <10 <1 0.15 <10 0.83 1020 19 0.02 9 270 3 1.49 4 4 63 <0.01 <10 <10 22 <10 97CGH-06-131 161.54 164.59 VA06107255 B520801 0.271 0.7 0.56 23 10 30 <0.5 2 2.65 <0.5 15 1 1680 4.34 <10 <1 0.32 <10 0.98 1185 18 0.06 8 1280 5 2.3 <2 6 112 <0.01 <10 <10 35 <10 37CGH-06-131 164.59 167.64 VA06107255 B520802 0.208 1 0.53 16 10 60 <0.5 2 2.84 <0.5 15 <1 1325 4.47 <10 <1 0.31 <10 0.97 1420 24 0.06 9 1510 5 2.87 3 6 102 <0.01 <10 <10 30 <10 63CGH-06-131 167.64 170.69 VA06107255 B520803 0.043 0.5 0.62 12 10 40 0.5 <2 3.71 <0.5 12 1 349 4.48 <10 <1 0.31 <10 1.23 1430 9 0.07 5 1570 4 2.64 2 7 136 <0.01 <10 <10 39 <10 104CGH-06-131 170.69 173.74 VA06107255 B520804 0.048 0.7 0.5 8 10 50 <0.5 <2 3.21 <0.5 9 <1 552 4.45 <10 <1 0.25 10 1.15 1690 2 0.05 4 1150 4 2.69 <2 4 106 <0.01 <10 <10 27 <10 93CGH-06-131 Standard 5 VA06107255 B520805 0.139 0.4 1.72 3 <10 170 <0.5 <2 1.27 <0.5 21 1040 1585 4.54 <10 <1 0.22 <10 0.82 605 15 0.13 850 670 5 0.97 4 5 77 0.11 <10 <10 63 <10 55CGH-06-131 173.74 176.78 VA06107255 B520806 0.084 0.5 0.54 15 10 40 0.5 <2 2.35 <0.5 14 <1 192 5.4 <10 <1 0.29 <10 1.19 1360 3 0.06 7 1450 14 3.08 2 6 103 <0.01 <10 <10 33 <10 120CGH-06-131 176.78 179.83 VA06107255 B520807 0.073 0.6 0.58 20 10 20 <0.5 <2 1.82 <0.5 15 <1 222 5.42 <10 <1 0.3 <10 0.89 1030 9 0.05 13 1650 4 4.08 3 6 102 <0.01 <10 10 30 <10 66CGH-06-131 179.83 182.88 VA06107255 B520808 0.234 0.8 0.45 12 10 20 <0.5 <2 2.68 <0.5 21 1 853 5.64 <10 <1 0.21 <10 1.01 1180 7 0.03 33 1730 6 4.12 3 4 125 <0.01 <10 <10 21 <10 43CGH-06-131 182.88 185.93 VA06107255 B520809 0.041 0.6 0.4 10 10 30 <0.5 <2 2.41 <0.5 19 1 349 4.93 <10 <1 0.2 <10 0.98 1280 14 0.03 21 980 8 3.1 <2 5 115 <0.01 <10 <10 31 <10 57CGH-06-131 185.93 188.98 VA06107255 B520810 0.01 0.4 0.5 13 10 350 <0.5 <2 2.81 <0.5 12 3 231 3.77 <10 <1 0.22 <10 1.26 1445 24 0.04 20 1450 5 0.95 <2 4 93 <0.01 <10 10 42 <10 94CGH-06-131 188.98 191.08 VA06107255 B520811 0.021 0.3 0.51 11 10 60 <0.5 <2 3.15 <0.5 20 3 167 4.76 <10 <1 0.2 10 1.42 1505 11 0.05 21 1130 3 1.48 <2 5 77 <0.01 <10 <10 28 <10 89CGH-06-131 191.08 193.11 VA06107255 B520812 0.352 0.7 0.78 23 10 30 0.7 <2 3.85 <0.5 28 3 297 7.35 <10 <1 0.24 10 1.74 2120 4 0.05 34 3500 6 3.11 <2 9 155 <0.01 <10 <10 53 <10 136CGH-06-131 193.11 195.07 VA06107255 B520813 0.061 0.9 0.47 35 10 30 0.5 <2 3.46 <0.5 13 3 164 4.09 <10 <1 0.22 <10 1.2 1540 2 0.04 15 980 10 2.46 <2 7 106 <0.01 <10 <10 32 <10 109CGH-06-131 195.07 198.12 VA06107255 B520814 0.045 0.8 0.41 27 10 20 <0.5 <2 2.86 <0.5 15 1 198 3.76 <10 <1 0.21 <10 0.96 1370 7 0.04 14 930 8 2.88 <2 5 88 <0.01 <10 <10 17 <10 63CGH-06-132 30.48 33.53 VA06107255 B520815 0.043 0.7 1.31 5 <10 330 <0.5 <2 3.14 <0.5 7 17 913 2.91 <10 1 0.14 <10 0.95 1680 19 0.01 19 1020 3 0.81 2 7 68 <0.01 <10 <10 78 <10 120CGH-06-132 30.48 33.53 VA06107255 B520816 0.044 0.7 1.29 3 <10 350 <0.5 <2 2.99 <0.5 8 16 943 2.83 <10 <1 0.13 <10 0.94 1635 22 0.01 20 1060 3 0.82 <2 6 64 <0.01 <10 <10 73 <10 119CGH-06-132 33.53 36.58 VA06107255 B520817 0.03 0.7 1.55 <2 <10 210 <0.5 <2 3.05 <0.5 7 1 383 3.39 <10 <1 0.22 10 1.08 1630 3 0.02 3 1110 4 1.18 <2 4 84 <0.01 <10 <10 46 <10 118CGH-06-132 36.58 39.62 VA06107255 B520818 0.043 0.5 1.44 7 <10 120 <0.5 <2 3.53 <0.5 9 <1 230 3.86 <10 <1 0.25 10 1 1285 6 0.01 2 1080 4 2.3 <2 3 93 <0.01 <10 <10 40 <10 82CGH-06-132 39.62 42.67 VA06107255 B520819 0.067 0.9 1.15 6 <10 40 <0.5 <2 3.13 <0.5 11 6 409 4.18 <10 <1 0.23 <10 0.82 951 16 0.01 12 1260 3 3.67 <2 3 75 <0.01 <10 <10 37 <10 49CGH-06-132 42.67 45.72 VA06107255 B520820 0.073 0.9 1.52 <2 <10 20 <0.5 <2 2.83 <0.5 23 15 766 4.92 <10 <1 0.19 <10 1.27 1105 21 0.02 24 1380 4 3.8 <2 5 83 <0.01 <10 <10 86 <10 68CGH-06-132 45.72 48.77 VA06107255 B520821 0.136 2 2.2 <2 <10 30 <0.5 <2 3.39 <0.5 27 1 1755 5.7 10 <1 0.23 10 1.77 1510 2 0.04 28 1990 5 3.18 <2 8 146 0.01 <10 <10 102 <10 91CGH-06-132 48.77 51.82 VA06107255 B520822 0.093 2.2 2.07 6 <10 20 <0.5 <2 4.07 <0.5 37 <1 1920 6.42 10 <1 0.24 10 1.79 1545 10 0.03 14 1940 5 4.83 3 7 169 <0.01 <10 <10 88 <10 99CGH-06-132 51.82 54.86 VA06107255 B520823 0.1 1 1.29 4 <10 50 <0.5 <2 4.15 <0.5 15 1 1015 4.18 <10 <1 0.24 10 1.52 1430 29 0.02 5 1510 6 2.44 2 5 213 <0.01 <10 <10 57 <10 72CGH-06-132 54.86 57.91 VA06107255 B520824 0.025 0.4 1.47 <2 <10 110 <0.5 <2 2.93 <0.5 11 <1 228 3.61 <10 <1 0.24 10 1.24 1120 5 0.04 1 1230 2 1.86 <2 4 171 <0.01 <10 <10 43 <10 63CGH-06-132 57.91 60.96 VA06107255 B520825 0.029 1 1.41 4 <10 70 <0.5 <2 4.27 <0.5 10 1 345 4.63 <10 <1 0.19 10 1.17 1190 28 0.03 4 1040 5 3.57 2 4 171 <0.01 <10 <10 39 <10 118CGH-06-132 60.96 64.01 VA06107255 B520826 0.04 0.7 0.64 5 <10 40 <0.5 <2 4.4 2.6 8 8 496 2.83 <10 <1 0.09 <10 0.72 902 30 0.01 5 430 4 2.32 <2 4 153 <0.01 <10 <10 37 <10 228CGH-06-132 Standard 2 VA06107255 B520827 0.857 3.1 0.9 14 10 60 <0.5 <2 1.61 <0.5 26 1530 >10000 10.9 <10 1 0.41 <10 0.77 1030 28 0.03 1230 650 13 3.6 8 5 62 0.01 <10 <10 52 <10 88 1.19CGH-06-132 64.01 67.06 VA06107255 B520828 0.09 0.8 1.11 3 <10 160 <0.5 <2 4.36 <0.5 16 2 1070 5.01 <10 <1 0.2 10 0.87 1465 12 0.05 5 1770 3 1.65 <2 9 246 <0.01 <10 <10 110 <10 99CGH-06-132 67.06 70.10 VA06107255 B520829 0.043 0.4 1.3 <2 <10 190 <0.5 <2 3.39 1.5 10 1 349 3.61 <10 <1 0.24 10 0.95 1145 4 0.06 3 1170 3 1.76 <2 4 207 <0.01 <10 <10 40 <10 156CGH-06-132 70.10 73.15 VA06107255 B520830 0.048 0.6 1.71 5 <10 130 <0.5 <2 3.53 <0.5 11 <1 422 3.74 10 <1 0.23 10 1.17 1335 3 0.06 2 1140 3 1.56 2 4 205 <0.01 <10 <10 41 <10 83CGH-06-132 73.15 76.20 VA06107255 B520831 0.082 0.9 1.37 7 <10 90 <0.5 <2 3.4 <0.5 10 <1 691 3.81 <10 <1 0.22 10 0.83 1030 4 0.05 2 1150 2 2.44 2 4 161 <0.01 <10 <10 40 <10 52CGH-06-132 76.20 79.25 VA06107255 B520832 0.049 0.7 1.64 8 <10 70 <0.5 <2 4.31 <0.5 10 <1 264 3.89 <10 1 0.27 10 1 1680 4 0.05 2 1160 7 1.84 <2 3 230 <0.01 <10 <10 42 <10 123CGH-06-132 91.44 94.49 VA06107255 B520833 0.112 1 1.48 29 10 110 0.6 <2 5 <0.5 12 <1 343 3.78 <10 <1 0.3 10 1.21 2130 20 0.08 2 1310 10 1.59 <2 5 314 <0.01 <10 10 43 <10 81CGH-06-132 94.49 97.54 VA06107255 B520834 0.025 0.5 2.04 11 <10 620 0.5 <2 5.22 <0.5 15 <1 123 4.38 10 <1 0.28 10 1.42 2170 1 0.08 4 1920 5 0.38 <2 10 306 <0.01 <10 <10 79 <10 157CGH-06-132 109.73 112.78 VA06107255 B520835 0.325 3.8 0.46 111 <10 30 <0.5 <2 4.73 0.8 13 <1 758 4.09 <10 <1 0.29 <10 1.17 2410 13 0.06 2 1400 8 2.79 18 4 181 <0.01 <10 <10 13 <10 95CGH-06-132 112.78 115.82 VA06107255 B520836 0.131 1.1 1.14 43 <10 60 <0.5 <2 4.49 1.5 14 <1 436 4.4 <10 <1 0.34 10 1.3 1995 5 0.07 3 1680 5 2.5 <2 5 180 <0.01 <10 <10 49 <10 269CGH-06-132 115.82 118.87 VA06107255 B520837 0.077 0.9 1.69 11 <10 120 <0.5 <2 4.81 <0.5 15 <1 502 4.28 <10 <1 0.31 10 1.24 1540 8 0.08 2 1650 4 1.82 <2 5 222 <0.01 <10 <10 58 <10 106CGH-06-132 115.82 118.87 VA06107255 B520838 0.076 0.9 1.79 10 <10 110 <0.5 <2 4.61 <0.5 17 <1 512 4.46 <10 <1 0.3 10 1.3 1520 10 0.08 3 1750 4 1.85 <2 6 217 <0.01 <10 <10 62 <10 107
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-132 118.87 121.92 VA06107255 B520839 0.086 0.4 1.62 <2 <10 380 <0.5 <2 3.77 <0.5 10 <1 419 3.8 10 <1 0.23 10 1.22 1090 9 0.08 1 1440 2 0.71 <2 7 173 <0.01 <10 <10 87 <10 73CGH-06-132 121.92 124.97 VA06107255 B520840 0.061 0.5 1.59 <2 <10 270 <0.5 <2 4.1 <0.5 11 <1 431 3.83 10 <1 0.2 10 1.21 1060 12 0.07 3 1430 4 0.89 <2 6 185 <0.01 <10 <10 80 <10 71CGH-06-132 124.97 128.02 VA06107255 B520841 0.013 0.2 2.14 6 <10 900 <0.5 <2 3.86 <0.5 14 3 106 3.92 10 <1 0.22 10 1.65 1630 3 0.07 8 1390 <2 0.15 2 7 176 0.01 <10 <10 94 <10 147CGH-06-132 128.02 131.06 VA06107255 B520842 0.027 0.3 1.91 5 <10 770 <0.5 <2 5.07 <0.5 11 <1 393 3.6 10 <1 0.25 10 1.33 1720 7 0.09 2 1420 5 0.38 <2 7 273 <0.01 <10 <10 73 <10 102CGH-06-133 42.67 45.72 VA06107255 B520843 0.151 1 0.42 23 <10 50 <0.5 <2 4.39 <0.5 9 <1 293 3.16 <10 <1 0.29 10 0.44 2210 1 0.01 1 1110 5 1.98 3 3 102 <0.01 <10 <10 19 <10 53CGH-06-133 45.72 48.77 VA06107255 B520844 0.17 1.3 0.41 21 <10 120 <0.5 <2 3.29 <0.5 9 <1 1700 3.46 <10 1 0.28 <10 0.77 1630 1 0.01 1 970 4 1.72 10 3 94 <0.01 <10 <10 25 <10 65CGH-06-133 48.77 51.82 VA06107255 B520845 0.23 2.4 0.44 16 <10 40 <0.5 <2 3.37 <0.5 12 <1 3620 4.48 <10 <1 0.32 <10 0.64 1665 1 0.01 1 1040 4 2.69 3 3 96 <0.01 <10 <10 31 <10 57CGH-06-133 51.82 54.86 VA06107255 B520846 0.014 1.6 0.55 7 <10 310 <0.5 <2 4.36 <0.5 10 <1 147 3.67 <10 <1 0.32 10 0.56 1750 <1 0.03 2 1580 5 1.06 2 5 152 <0.01 <10 <10 41 <10 103CGH-06-133 54.86 57.91 VA06107255 B520847 0.208 2 0.46 49 <10 40 <0.5 2 3.78 <0.5 10 <1 1720 3.92 <10 <1 0.31 <10 0.84 2110 4 0.03 2 1040 8 2.21 4 4 99 <0.01 <10 <10 17 <10 44CGH-06-133 57.91 60.96 VA06107255 B520848 0.339 1.9 0.56 11 <10 320 <0.5 <2 3.05 1.2 8 <1 3270 3.67 <10 <1 0.28 <10 0.64 1245 3 0.04 2 980 2 0.76 32 4 135 <0.01 <10 <10 35 <10 129CGH-06-133 Standard 6 VA06107255 B520849 0.268 0.6 1.05 18 <10 50 <0.5 <2 2.89 <0.5 14 407 3370 6.15 <10 1 0.34 <10 1.14 778 10 0.05 333 1190 11 3.26 11 8 193 <0.01 <10 <10 55 <10 129CGH-06-133 60.96 64.01 VA06107255 B520850 0.438 1.3 0.8 2 <10 570 <0.5 <2 3.17 <0.5 8 <1 2800 4.23 <10 1 0.26 <10 0.76 1105 <1 0.04 3 1080 4 0.6 <2 4 146 <0.01 <10 <10 52 <10 123CGH-06-133 64.01 67.06 VA06107255 B520851 0.174 0.8 1.36 <2 <10 370 <0.5 <2 3 <0.5 8 1 1355 3.71 <10 <1 0.29 10 1.02 1060 <1 0.06 3 1170 4 0.57 <2 5 128 0.01 <10 <10 63 <10 97CGH-06-133 67.06 70.10 VA06107255 B520852 0.287 1.4 1.26 18 <10 250 <0.5 <2 2.97 <0.5 9 <1 1915 3.46 <10 <1 0.29 10 0.81 1000 <1 0.08 2 1130 5 0.95 <2 4 153 <0.01 <10 <10 44 <10 93CGH-06-133 70.10 73.15 VA06107255 B520853 0.199 1.5 1.16 13 10 470 <0.5 <2 3.19 0.7 7 <1 1450 3.2 <10 <1 0.3 10 0.77 1170 <1 0.07 <1 1020 5 0.54 <2 4 160 <0.01 <10 <10 48 <10 146CGH-06-133 73.15 76.20 VA06107255 B520854 0.144 2 1.73 21 <10 430 0.5 <2 4.85 <0.5 16 53 1290 4.08 <10 <1 0.32 10 1.35 1760 <1 0.08 49 1000 7 0.74 3 9 191 <0.01 <10 <10 49 <10 190CGH-06-133 76.20 78.21 VA06107255 B520855 0.258 2.4 0.73 7 10 380 0.5 <2 4.43 <0.5 7 <1 2010 3.22 <10 <1 0.34 10 0.84 1960 <1 0.08 2 1420 9 0.73 7 5 185 <0.01 <10 <10 41 <10 77CGH-06-133 78.21 80.46 VA06107255 B520856 0.228 1.5 0.5 3 <10 500 <0.5 2 4.83 0.5 6 4 1800 2.29 <10 <1 0.18 <10 1.01 2120 <1 0.04 3 800 4 0.54 12 5 140 <0.01 <10 <10 42 <10 65CGH-06-133 80.46 82.30 VA06107255 B520857 0.461 2.8 0.94 4 10 130 <0.5 7 9.37 2.7 35 6 5800 7.39 10 <1 0.13 <10 3.2 3190 1 0.03 14 240 7 1.57 3 4 231 0.01 <10 <10 65 <10 374CGH-06-133 82.30 85.34 VA06107255 B520858 0.097 3.6 0.54 8 10 410 <0.5 <2 2.97 <0.5 6 5 1540 1.93 <10 <1 0.26 <10 0.85 1920 1 0.05 6 1060 4 0.69 16 5 119 <0.01 <10 <10 34 <10 68CGH-06-133 85.34 88.39 VA06107255 B520859 0.181 3.7 0.47 35 <10 130 <0.5 2 2.19 0.7 7 1 1730 2.55 <10 <1 0.27 <10 0.6 1570 2 0.07 2 1110 4 1.27 49 4 141 <0.01 <10 <10 26 <10 67CGH-06-133 85.34 88.39 VA06107255 B520860 0.139 3.5 0.46 33 <10 170 <0.5 <2 2.24 0.5 6 1 1650 2.54 <10 <1 0.27 <10 0.63 1580 2 0.07 2 1120 6 1.19 47 4 142 <0.01 <10 <10 26 <10 67CGH-06-133 88.39 91.44 VA06107255 B520861 0.229 3.1 0.54 53 <10 70 <0.5 <2 3.58 <0.5 8 2 1750 2.91 <10 <1 0.29 <10 0.52 1880 1 0.06 5 1110 5 1.74 <2 3 146 <0.01 <10 <10 23 <10 58CGH-06-133 91.44 94.49 VA06107255 B520862 0.193 3.1 0.84 54 <10 100 <0.5 <2 3.95 <0.5 10 1 1290 2.92 <10 <1 0.29 10 0.84 2280 1 0.08 1 1070 4 1.51 <2 3 177 <0.01 <10 <10 29 <10 62CGH-06-133 94.49 97.54 VA06107255 B520863 0.22 2.8 1.19 11 10 410 <0.5 <2 3.96 <0.5 6 <1 1540 2.96 <10 <1 0.28 10 1.01 1910 33 0.08 <1 1160 2 0.68 2 5 178 <0.01 <10 <10 54 <10 83CGH-06-133 97.54 100.58 VA06107255 B520864 0.33 1.4 1.21 <2 <10 320 <0.5 2 3.11 <0.5 9 1 1850 3.42 <10 <1 0.27 10 0.99 1050 7 0.09 1 1110 2 0.84 2 4 174 <0.01 <10 <10 63 <10 65CGH-06-133 100.58 103.63 VA06107255 B520865 0.129 1.7 1.32 25 <10 70 0.5 <2 6.1 <0.5 8 <1 949 3.27 <10 1 0.28 10 0.88 2140 11 0.07 <1 1040 6 1.8 <2 3 267 <0.01 <10 <10 33 <10 80CGH-06-133 103.63 106.68 VA06107255 B520866 0.2 4.5 1.37 37 <10 50 <0.5 <2 4.5 0.8 10 <1 1480 3.13 <10 1 0.28 10 0.93 2400 12 0.06 <1 1100 3 1.93 4 3 200 <0.01 <10 <10 36 <10 102CGH-06-134 16.67 18.29 VA06107460 C097571 0.029 1 0.82 8 <10 100 <0.5 <2 4.08 <0.5 9 2 184 4.27 <10 <1 0.43 <10 1.11 1900 1 0.03 5 1280 3 2.68 4 5 70 <0.01 <10 <10 24 <10 51CGH-06-134 18.29 21.34 VA06107460 C097572 0.146 0.6 0.72 41 <10 110 <0.5 <2 2.63 <0.5 9 2 121 3.36 <10 <1 0.43 <10 0.69 1330 2 0.03 4 1330 4 2.25 2 6 54 <0.01 <10 <10 22 <10 37CGH-06-134 21.34 24.38 VA06107460 C097573 0.163 1.2 0.75 61 <10 20 <0.5 2 2.53 <0.5 13 2 155 4.45 <10 1 0.44 <10 0.71 1350 2 0.03 4 1280 5 3.46 9 5 58 <0.01 <10 <10 22 <10 28CGH-06-134 24.38 27.43 VA06107460 C097574 0.139 0.7 0.94 36 <10 40 <0.5 <2 4.48 <0.5 11 1 1210 4.79 <10 1 0.51 <10 1.18 1760 1 0.05 3 1370 5 2.25 5 7 119 <0.01 <10 <10 42 <10 61CGH-06-134 27.43 30.48 VA06107460 C097575 0.228 1.2 0.93 6 <10 60 <0.5 <2 3.63 0.5 15 1 4230 5.85 <10 2 0.44 <10 1.29 1060 16 0.06 2 1530 4 1.77 21 7 190 <0.01 <10 <10 72 <10 92CGH-06-134 30.48 33.53 VA06107460 C097576 0.196 0.8 1 4 <10 150 <0.5 <2 3.81 1.2 14 3 3130 4.92 <10 <1 0.44 <10 1.26 777 7 0.08 4 1440 3 1.43 9 6 212 <0.01 <10 <10 68 <10 184CGH-06-134 33.53 36.58 VA06107460 C097577 0.206 1.1 0.94 6 <10 140 <0.5 2 4.08 0.5 10 14 2650 4.85 <10 <1 0.47 10 1.14 1080 11 0.1 11 1340 8 1.3 15 7 153 <0.01 <10 <10 52 <10 98CGH-06-134 Standard 2 VA06107460 C097578 0.916 3.2 0.92 17 <10 80 <0.5 <2 1.69 <0.5 30 1560 >10000 11.65 <10 1 0.44 <10 0.79 1060 29 0.03 1230 670 8 3.57 6 5 66 0.01 <10 <10 58 <10 78 1.19CGH-06-134 36.58 39.62 VA06107460 C097579 0.093 0.5 0.94 8 <10 190 0.5 <2 3.62 <0.5 9 5 1235 3.72 <10 1 0.49 <10 0.98 941 6 0.12 5 1350 6 1.66 2 6 160 <0.01 <10 <10 38 <10 68CGH-06-134 39.62 42.67 VA06107460 C097580 0.061 0.6 0.94 14 <10 30 0.6 <2 2.91 <0.5 14 1 289 4.1 <10 1 0.5 <10 0.82 797 9 0.12 2 1310 7 3.15 <2 5 121 <0.01 <10 <10 21 <10 62CGH-06-134 42.67 45.72 VA06107460 C097581 0.036 0.3 0.78 8 10 20 <0.5 <2 2.57 <0.5 12 1 153 4.08 <10 1 0.45 <10 0.61 698 3 0.08 3 1170 6 3.63 <2 4 91 <0.01 <10 <10 18 <10 38CGH-06-134 45.72 48.77 VA06107460 C097582 0.029 0.5 0.78 7 10 20 <0.5 <2 3.7 <0.5 10 1 122 3.85 <10 1 0.42 <10 0.79 781 4 0.08 <1 1130 7 3.35 <2 3 108 <0.01 <10 <10 22 <10 109CGH-06-134 48.77 51.82 VA06107460 C097583 0.068 0.9 0.85 8 10 20 <0.5 <2 3.63 <0.5 15 1 99 4.1 <10 <1 0.45 <10 0.99 1100 <1 0.09 2 1260 8 2.81 <2 4 99 <0.01 <10 <10 38 <10 110CGH-06-134 51.82 54.86 VA06107460 C097584 0.023 0.4 0.79 12 10 40 <0.5 <2 3.46 <0.5 7 1 138 3.27 <10 <1 0.39 <10 0.97 977 <1 0.11 2 1330 5 1.75 4 5 92 <0.01 <10 <10 37 <10 68CGH-06-134 54.86 57.91 VA06107460 C097585 0.18 0.9 0.8 76 10 40 <0.5 <2 2.64 <0.5 7 1 247 3.36 <10 1 0.45 <10 0.64 996 <1 0.1 2 1130 6 1.73 8 4 91 <0.01 <10 <10 26 <10 67CGH-06-134 57.91 60.96 VA06107460 C097586 0.146 4.3 0.74 58 10 20 <0.5 <2 2.69 0.5 16 4 1790 4.94 <10 2 0.43 <10 0.66 1770 5 0.08 15 1090 12 3.63 10 6 88 <0.01 <10 <10 33 <10 126CGH-06-134 60.96 64.01 VA06107460 C097587 0.134 0.9 1.18 15 10 160 0.5 <2 3.56 <0.5 14 1 1700 4.58 <10 2 0.5 <10 0.64 1710 3 0.12 3 1790 5 1.15 2 8 130 <0.01 <10 <10 64 <10 63CGH-06-134 64.01 67.06 VA06107460 C097588 0.201 3 0.96 32 10 30 <0.5 <2 2.74 <0.5 17 1 2790 5.17 <10 2 0.48 <10 0.85 1970 4 0.12 4 1970 8 3.19 10 7 112 <0.01 <10 <10 54 <10 87CGH-06-134 64.01 67.06 VA06107460 C097589 0.185 3.2 1.13 30 10 20 <0.5 <2 2.93 <0.5 18 1 2770 5.46 <10 2 0.54 <10 0.93 2110 4 0.12 4 1990 9 3.38 9 7 118 <0.01 <10 <10 60 <10 91CGH-06-134 67.06 70.10 VA06107460 C097590 0.216 2.5 0.84 83 10 10 <0.5 <2 3.21 <0.5 32 8 5950 6.14 <10 3 0.45 <10 0.76 2490 31 0.1 28 1760 11 4.21 19 7 78 <0.01 <10 <10 49 <10 106CGH-06-134 70.10 73.15 VA06107460 C097591 0.049 0.7 1.03 17 10 40 <0.5 <2 2.68 <0.5 20 1 1820 4.24 <10 3 0.6 <10 0.66 2070 135 0.1 5 1230 6 1.59 33 5 75 <0.01 <10 <10 35 <10 104CGH-06-134 73.15 76.20 VA06107460 C097592 0.074 0.5 0.8 51 10 50 <0.5 <2 4.23 <0.5 11 1 974 4.98 <10 2 0.51 <10 0.69 2170 71 0.09 4 1680 7 2.38 34 5 105 <0.01 <10 <10 39 <10 81CGH-06-134 76.20 79.25 VA06107460 C097593 0.077 1 1.27 20 10 60 <0.5 <2 4.36 <0.5 13 1 1140 9.07 10 4 0.43 <10 1.31 2340 14 0.1 7 1770 6 1.41 21 8 125 0.01 <10 <10 200 <10 128CGH-06-134 79.25 82.30 VA06107460 C097594 0.067 0.8 0.98 30 10 30 <0.5 <2 5.16 <0.5 27 1 1470 5.17 <10 3 0.47 <10 1.29 1830 48 0.1 3 1690 7 2.01 26 8 158 <0.01 <10 <10 70 <10 115CGH-06-134 82.30 85.34 VA06107460 C097595 0.1 1.5 0.85 21 10 60 <0.5 <2 5.73 <0.5 20 4 1460 4.34 <10 2 0.48 <10 1.15 2250 79 0.11 5 1110 8 1.54 30 8 145 <0.01 <10 <10 51 <10 115CGH-06-134 85.34 88.39 VA06107460 C097596 0.058 0.8 0.98 37 10 60 <0.5 <2 3.03 <0.5 29 6 1220 4.91 <10 2 0.44 <10 0.61 2090 33 0.11 20 1200 9 1.78 17 9 91 <0.01 <10 <10 72 <10 97CGH-06-134 88.39 91.44 VA06107460 C097597 0.049 0.6 0.95 28 10 40 <0.5 <2 1.98 <0.5 20 2 1080 3.94 <10 1 0.51 <10 0.41 1740 18 0.11 7 1160 8 2.09 9 6 69 <0.01 <10 <10 36 <10 63CGH-06-134 91.44 94.49 VA06107460 C097598 0.081 0.7 0.8 22 10 50 <0.5 <2 5.93 <0.5 24 2 1360 4.11 <10 1 0.45 <10 1.23 2800 22 0.09 8 980 4 1.58 23 6 108 <0.01 <10 <10 27 <10 82CGH-06-134 94.49 97.54 VA06107460 C097599 0.065 0.6 0.93 27 10 30 <0.5 <2 3.6 <0.5 18 1 1110 4.34 <10 1 0.44 <10 0.41 1800 48 0.1 4 1300 6 2.31 16 6 93 <0.01 <10 <10 36 <10 58CGH-06-134 Standard 6 VA06107460 C097600 0.232 0.6 1.02 13 <10 60 <0.5 <2 2.92 <0.5 16 419 3410 6.12 <10 2 0.37 <10 1.08 777 9 0.05 330 1150 13 3.06 7 7 182 <0.01 <10 <10 60 <10 124CGH-06-134 97.54 100.58 VA06107460 C097601 0.055 1 0.76 29 10 20 <0.5 <2 4.83 <0.5 26 4 819 4.7 <10 1 0.46 <10 1.16 2570 17 0.08 12 820 9 2.51 10 7 85 <0.01 <10 <10 26 <10 65CGH-06-134 100.58 103.63 VA06107460 C097602 0.04 0.5 0.78 42 10 70 <0.5 <2 2.22 <0.5 21 4 645 3.87 <10 1 0.43 <10 0.51 1770 26 0.09 11 1000 8 1.79 5 6 64 <0.01 <10 <10 34 <10 42CGH-06-134 103.63 106.68 VA06107460 C097603 0.058 1.1 0.88 33 10 30 <0.5 <2 2.33 1 32 8 1100 3.81 <10 2 0.49 <10 0.59 1930 31 0.1 19 930 8 1.93 16 6 73 <0.01 <10 <10 38 <10 264CGH-06-134 106.68 109.73 VA06107460 C097604 0.135 3.1 0.77 59 10 20 <0.5 <2 1.46 1.4 33 8 3670 5.41 <10 1 0.37 <10 0.39 1600 214 0.08 21 850 16 3.54 8 6 56 <0.01 <10 <10 42 <10 292CGH-06-134 109.73 112.78 VA06107460 C097605 0.119 3.3 0.84 35 10 10 <0.5 <2 4.39 3.7 39 7 2920 6.5 <10 2 0.42 <10 0.81 2510 391 0.09 20 890 16 4.64 13 6 95 <0.01 <10 <10 37 <10 521CGH-06-134 112.78 115.82 VA06107460 C097606 0.085 2.3 0.83 23 10 20 <0.5 <2 5.39 <0.5 30 1 2010 4.21 <10 1 0.47 <10 0.68 1880 574 0.09 4 1130 10 2.43 20 5 167 <0.01 <10 <10 28 <10 90CGH-06-134 115.82 118.87 VA06107467 C097607 0.052 0.7 1.08 27 10 40 <0.5 <2 3.09 <0.5 24 2 997 3.68 <10 <1 0.6 <10 0.75 1980 210 0.1 4 1350 4 2.08 29 6 114 <0.01 <10 10 28 <10 87CGH-06-134 118.87 121.92 VA06107467 C097608 0.031 1 1.19 21 10 50 <0.5 <2 2.95 0.6 37 3 1150 3.68 <10 <1 0.6 <10 0.86 1925 42 0.12 8 1260 8 2.1 42 8 87 <0.01 <10 <10 31 <10 141CGH-06-134 121.92 124.97 VA06107467 C097609 0.046 3.3 0.91 19 10 40 <0.5 <2 2.96 0.9 27 13 1250 3.55 <10 <1 0.44 10 0.8 1635 85 0.08 26 800 6 2.28 63 6 80 <0.01 <10 <10 31 <10 95CGH-06-134 124.97 126.80 VA06107467 C097610 0.031 1.2 1.12 9 10 120 0.5 <2 3.09 0.9 28 11 1085 4.31 <10 <1 0.41 <10 0.67 1740 22 0.12 33 1110 7 2.71 14 10 101 <0.01 <10 <10 46 <10 120CGH-06-134 124.97 126.80 VA06107467 C097611 0.029 1.5 1.12 12 10 100 0.5 <2 3.28 1.3 31 11 1375 4.55 <10 1 0.43 10 0.72 1860 28 0.13 33 1330 10 2.9 17 10 105 <0.01 <10 <10 47 <10 151CGH-06-134 126.80 129.69 VA06107467 C097612 0.034 7.9 0.58 24 <10 50 <0.5 <2 2.15 3 11 43 832 2.21 <10 3 0.29 <10 0.45 1250 232 0.04 46 730 4 1.41 24 4 53 <0.01 <10 <10 245 <10 436CGH-06-134 129.69 132.60 VA06107467 C097613 0.045 1.7 1.14 20 10 30 0.5 <2 3.85 1.5 26 2 781 4.67 <10 <1 0.55 <10 0.93 2260 38 0.09 24 1770 8 2.81 12 7 116 <0.01 <10 <10 48 <10 242CGH-06-134 132.60 134.70 VA06107467 C097614 0.029 0.8 1 15 10 40 <0.5 2 3.79 10.6 18 3 324 4.06 <10 1 0.46 <10 1.04 2000 9 0.07 6 1330 6 2.18 19 7 135 <0.01 <10 10 46 <10 812CGH-06-134 134.70 137.16 VA06107467 C097615 0.049 0.5 0.69 11 <10 170 <0.5 <2 2.21 0.9 10 24 172 2.39 <10 <1 0.32 <10 0.64 1125 5 0.04 27 450 5 1.52 10 4 67 <0.01 <10 <10 29 <10 110CGH-06-134 137.16 140.21 VA06107467 C097616 0.028 0.5 0.89 3 10 50 <0.5 <2 2.72 1.4 13 12 218 2.89 <10 1 0.37 <10 0.9 1280 10 0.07 15 400 5 1.57 10 4 98 <0.01 <10 <10 24 <10 199CGH-06-134 140.21 143.26 VA06107467 C097617 0.04 0.4 1.96 5 10 40 <0.5 <2 3.05 1.8 16 7 250 4.54 10 <1 0.35 10 1.11 824 2 0.1 7 1390 4 2.31 5 8 114 <0.01 <10 <10 78 <10 129CGH-06-134 143.26 146.10 VA06107467 C097618 0.057 0.5 1.48 5 10 30 <0.5 <2 4.04 4 20 7 331 4.26 <10 1 0.36 10 1.12 1435 15 0.09 14 1670 7 2.35 7 6 150 <0.01 <10 <10 65 <10 458CGH-06-134 146.10 148.95 VA06107467 C097619 0.032 0.4 0.62 6 <10 50 <0.5 <2 2.45 2.8 12 19 216 2.18 <10 <1 0.27 <10 0.58 979 22 0.04 18 1220 2 1.46 4 3 99 <0.01 <10 <10 39 <10 385CGH-06-134 148.95 150.75 VA06107467 C097620 0.108 0.8 1.42 17 10 30 0.5 <2 4.37 4.7 36 3 551 6.3 <10 <1 0.42 10 1.21 2310 8 0.09 31 1590 8 4.27 4 8 143 <0.01 <10 <10 97 <10 740CGH-06-134 150.75 152.86 VA06107467 C097621 0.024 0.4 0.98 2 <10 40 <0.5 <2 3.61 0.6 14 30 236 2.95 <10 1 0.24 10 0.84 1080 92 0.05 51 2420 4 1.68 4 5 116 0.01 <10 10 334 <10 108CGH-06-134 BLANK VA06107467 C097622 0.012 0.3 2.05 2 <10 520 <0.5 <2 6.37 4.1 7 123 15 2.75 <10 <1 0.28 10 1.68 2960 90 0.04 196 1000 4 0.19 4 7 191 0.01 <10 10 766 <10 632CGH-06-134 152.86 155.45 VA06107467 C097623 0.026 0.3 1.31 9 10 80 0.5 <2 3.06 0.7 15 4 201 3.86 <10 <1 0.46 <10 0.54 1170 5 0.12 17 1780 6 2.56 4 8 118 <0.01 <10 <10 65 <10 110CGH-06-134 155.45 158.50 VA06107467 C097624 0.063 0.6 0.67 40 <10 30 <0.5 <2 3.69 2.3 12 8 229 3.32 <10 <1 0.34 <10 0.66 1940 5 0.08 12 1090 8 1.87 35 4 94 <0.01 <10 <10 28 <10 229CGH-06-134 158.50 161.54 VA06107467 C097625 0.028 0.2 0.49 8 <10 200 <0.5 <2 3.31 0.6 5 26 104 1.63 <10 <1 0.21 10 0.51 1410 3 0.03 18 230 3 0.52 10 3 117 <0.01 <10 <10 24 <10 52CGH-06-134 161.54 164.59 VA06107467 C097626 0.024 0.2 0.76 17 <10 180 <0.5 <2 4.03 <0.5 9 14 100 2.79 <10 <1 0.35 <10 0.65 1420 2 0.08 12 870 6 0.9 9 4 115 <0.01 <10 <10 29 <10 88CGH-06-134 164.59 167.64 VA06107467 C097627 0.063 0.5 0.9 32 10 50 <0.5 2 3.96 0.5 22 1 352 3.57 <10 <1 0.37 10 0.79 1440 1 0.12 2 1410 6 2.2 5 5 109 <0.01 <10 <10 37 <10 92
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-134 167.64 170.69 VA06107467 C097628 0.053 0.6 0.81 13 10 50 <0.5 <2 4.28 0.7 21 1 421 3.65 <10 <1 0.39 <10 0.62 1445 2 0.11 4 1430 5 2.42 16 5 111 <0.01 <10 <10 35 <10 68CGH-06-134 170.69 173.74 VA06107467 C097629 0.028 0.3 1.2 8 10 130 <0.5 <2 5.51 <0.5 12 1 230 3.72 <10 <1 0.42 <10 1.01 1395 1 0.12 <1 1630 5 1.54 3 7 152 <0.01 <10 <10 44 <10 80CGH-06-134 173.74 176.78 VA06107467 C097630 0.099 0.7 1.03 55 10 70 0.5 <2 4.95 2.1 17 <1 211 3.56 <10 <1 0.5 <10 0.76 1260 3 0.11 2 1680 8 2.01 2 6 164 <0.01 <10 <10 25 <10 270CGH-06-134 176.78 179.83 VA06107467 C097631 0.043 0.4 1 49 10 190 0.6 <2 4.75 0.7 11 <1 80 3.45 <10 <1 0.55 <10 0.92 1405 2 0.11 <1 1640 6 1.41 <2 8 149 <0.01 <10 <10 27 <10 115CGH-06-134 179.83 182.88 VA06107467 C097632 0.127 1.7 0.76 36 <10 30 0.5 <2 4.24 6.4 21 <1 68 5.45 <10 1 0.44 <10 0.95 1465 4 0.09 2 1540 22 4.59 2 6 125 <0.01 <10 <10 24 <10 762CGH-06-134 Standard 5 VA06107467 C097633 0.113 0.5 1.66 8 <10 170 <0.5 <2 1.32 <0.5 22 1035 1535 4.47 <10 <1 0.22 <10 0.8 591 16 0.11 866 650 6 0.97 3 5 73 0.11 <10 <10 64 <10 55CGH-06-134 182.88 185.93 VA06107467 C097634 0.028 0.8 0.98 2 10 50 <0.5 <2 6.17 5.4 13 1 176 4.6 <10 <1 0.46 <10 1.34 2610 5 0.11 4 1550 32 2.56 2 7 157 <0.01 <10 10 35 <10 705CGH-06-134 185.93 188.98 VA06107467 C097635 0.015 0.3 1.76 2 <10 100 <0.5 <2 5.02 1.7 13 1 172 4.77 <10 <1 0.39 10 1.34 2680 1 0.1 2 1640 16 1.58 4 8 165 <0.01 <10 <10 72 <10 319CGH-06-134 188.98 192.02 VA06107467 C097636 0.016 0.3 2.69 4 10 240 <0.5 <2 5.07 1.6 12 1 208 5.03 <10 <1 0.37 10 1.62 2880 3 0.1 2 1730 11 0.93 3 9 144 <0.01 <10 <10 96 <10 389CGH-06-134 192.02 195.07 VA06107467 C097637 0.012 0.2 1.98 3 <10 460 <0.5 <2 5.8 2.5 12 1 118 5.11 10 <1 0.39 10 1.56 3490 1 0.1 4 2120 6 0.48 2 11 173 <0.01 <10 <10 107 <10 542CGH-06-134 195.07 198.12 VA06107467 C097638 0.031 0.3 1.58 23 <10 280 <0.5 <2 5.51 1.3 11 1 118 4.11 <10 <1 0.47 10 1.36 1925 1 0.13 2 1790 9 0.89 4 10 180 <0.01 <10 <10 86 <10 226CGH-06-134 198.12 201.17 VA06107467 C097639 0.119 0.4 1.71 5 10 40 <0.5 <2 4.56 1 13 1 103 4.5 <10 <1 0.38 <10 1.35 1560 14 0.11 2 1420 8 2.51 2 9 153 <0.01 <10 <10 72 <10 198CGH-06-134 201.17 204.22 VA06107467 C097640 0.07 0.5 1.95 2 10 200 0.5 <2 4.52 0.5 9 2 143 4.31 <10 <1 0.43 <10 0.95 1075 1 0.12 3 1420 8 1.2 3 9 157 <0.01 <10 <10 71 <10 125CGH-06-134 204.22 207.26 VA06107467 C097641 0.052 0.3 1.91 2 10 150 <0.5 <2 3.74 0.9 16 2 124 4.69 <10 <1 0.28 <10 1.17 962 1 0.13 4 1430 7 2.32 <2 10 114 <0.01 <10 <10 92 <10 153CGH-06-134 207.26 210.31 VA06107467 C097642 0.023 <0.2 2.25 <2 10 220 <0.5 <2 4.13 <0.5 11 3 70 4.59 10 <1 0.33 10 1.12 848 1 0.18 <1 1410 3 1.25 <2 10 139 0.01 <10 <10 107 <10 66CGH-06-134 210.31 213.36 VA06107467 C097643 0.027 0.2 1.89 5 10 150 <0.5 <2 3.92 <0.5 12 2 87 4.49 10 <1 0.3 10 1.13 848 1 0.14 4 1410 3 0.82 2 10 122 <0.01 <10 <10 98 <10 59CGH-06-134 210.31 213.36 VA06107467 C097644 0.029 <0.2 2.04 5 <10 140 <0.5 <2 3.71 <0.5 12 2 85 4.5 10 <1 0.35 10 1.11 821 1 0.15 2 1380 3 0.85 2 10 114 <0.01 <10 <10 99 <10 60CGH-06-134 213.36 216.41 VA06107467 C097645 0.043 0.2 1.31 24 <10 90 <0.5 <2 4.94 <0.5 14 1 128 3.84 <10 <1 0.34 <10 1.02 1115 1 0.11 3 1320 2 1.75 <2 8 178 <0.01 <10 10 60 <10 50CGH-06-134 216.41 219.46 VA06107467 C097646 0.033 0.2 1.94 6 10 70 <0.5 <2 4.84 0.5 9 1 108 4.07 10 <1 0.39 <10 1.13 1225 3 0.1 3 1250 4 1.74 2 6 146 <0.01 <10 <10 57 <10 101CGH-06-134 219.46 222.50 VA06107467 C097647 0.025 0.3 1.68 9 10 80 <0.5 <2 4.54 1.2 11 1 114 3.91 <10 <1 0.35 <10 1.12 1465 4 0.1 2 1320 3 1.62 5 6 152 <0.01 <10 <10 53 <10 163CGH-06-134 222.50 225.55 VA06107467 C097648 0.031 0.4 1.69 2 10 50 <0.5 <2 3.97 0.8 12 2 133 4.03 <10 <1 0.42 <10 1.11 1300 2 0.1 3 1280 5 2.25 3 6 124 <0.01 <10 <10 59 <10 153CGH-06-134 225.55 228.60 VA06107467 C097649 0.088 0.3 1.62 7 <10 30 <0.5 <2 3.37 <0.5 13 1 230 4.78 <10 <1 0.29 <10 1.05 995 2 0.08 2 1210 3 2.49 2 6 107 <0.01 <10 <10 61 <10 77CGH-06-134 228.60 231.65 VA06107467 C097650 0.055 0.4 1.97 25 10 60 <0.5 2 3.86 <0.5 11 2 203 4.64 <10 <1 0.44 <10 1.03 1350 2 0.1 23 1260 6 2.59 <2 6 118 <0.01 <10 <10 55 <10 87CGH-06-134 231.65 234.70 VA06107467 C097651 0.079 0.6 1.82 54 <10 30 <0.5 <2 2.65 <0.5 15 <1 305 5.71 <10 <1 0.4 <10 1.05 794 4 0.1 3 1290 8 4.36 4 5 99 <0.01 <10 <10 53 <10 58CGH-06-134 234.70 237.74 VA06107467 C097652 0.052 0.4 1.99 5 10 130 <0.5 <2 3.06 <0.5 12 1 269 4.04 10 <1 0.42 10 1.18 825 10 0.12 1 1410 6 2.54 2 6 103 <0.01 <10 <10 60 <10 71CGH-06-134 237.74 240.79 VA06107467 C097653 0.077 0.4 1.87 2 <10 80 <0.5 <2 3.01 <0.5 16 <1 335 4.39 10 <1 0.43 <10 1.17 616 6 0.11 <1 1360 8 3.31 4 5 102 <0.01 <10 <10 55 <10 58CGH-06-134 240.79 243.84 VA06107467 C097654 0.052 0.4 1.61 2 10 70 <0.5 <2 3 1.5 13 2 306 3.92 <10 <1 0.47 <10 1.08 784 6 0.11 4 1370 5 2.57 4 6 108 <0.01 <10 <10 55 <10 187CGH-06-134 Standard 2 VA06107467 C097655 0.888 3 0.85 14 <10 70 <0.5 <2 1.66 <0.5 28 1505 >10000 10.7 <10 1 0.41 <10 0.77 1020 29 0.03 1250 640 8 3.62 4 5 62 0.01 <10 <10 54 10 84 1.18CGH-06-134 243.84 246.89 VA06107467 C097656 0.086 1 0.83 35 10 30 <0.5 <2 3.87 1.4 16 1 360 4.26 <10 1 0.49 <10 1.03 1445 18 0.07 1 1470 3 3.21 2 4 117 <0.01 <10 <10 33 <10 180CGH-06-134 246.89 249.94 VA06107467 C097657 0.064 1 1.1 11 10 40 <0.5 2 3.93 0.5 17 2 445 4.37 <10 <1 0.54 <10 1.08 1355 14 0.08 4 1420 4 3.03 4 5 133 <0.01 <10 <10 46 <10 97CGH-06-134 249.94 252.85 VA06107467 C097658 0.122 1.4 0.76 69 10 30 <0.5 <2 2.67 1 15 7 357 4.03 <10 <1 0.42 <10 0.7 920 32 0.06 17 1170 21 3.36 2 4 89 <0.01 <10 <10 23 <10 122CGH-06-134 252.85 254.30 VA06107467 C097659 0.012 0.5 3.08 11 10 660 0.6 <2 5.3 0.9 26 144 104 5.8 10 2 0.27 10 3.47 1620 2 0.11 112 1200 10 0.56 4 16 186 0.01 <10 <10 127 <10 213CGH-06-134 254.30 256.03 VA06107467 C097660 0.072 1.9 0.75 23 10 30 <0.5 <2 4.11 3.7 18 1 432 4.16 <10 <1 0.43 <10 1.22 1655 22 0.05 3 1210 11 3.65 7 4 93 <0.01 <10 <10 20 <10 487CGH-06-134 256.03 259.08 VA06107467 C097661 0.073 1.5 0.92 23 10 20 <0.5 <2 3.19 0.5 30 4 365 4.88 <10 <1 0.5 <10 0.91 1310 69 0.06 2 1270 7 4.8 2 4 86 <0.01 <10 <10 23 <10 72CGH-06-134 259.08 262.13 VA06107467 C097662 0.084 1.8 0.74 35 <10 10 <0.5 <2 3.5 7.4 49 1 450 6.69 <10 1 0.41 <10 0.86 1285 91 0.06 1 1300 30 6.97 4 4 99 <0.01 <10 <10 23 <10 998CGH-06-134 262.13 264.75 VA06107467 C097663 0.093 2.5 0.88 29 10 10 <0.5 <2 3.46 0.9 91 4 1135 8.64 <10 <1 0.51 <10 1 1105 52 0.05 7 1260 22 9.03 18 3 96 <0.01 <10 <10 27 <10 68CGH-06-134 264.75 267.34 VA06107467 C097664 <0.005 0.6 1.64 14 10 1230 0.5 <2 6.4 <0.5 26 101 69 4.59 10 <1 0.28 10 2.93 1755 2 0.11 105 1130 18 0.32 3 15 211 <0.01 <10 <10 94 <10 179CGH-06-134 267.34 269.00 VA06107467 C097665 0.086 1.7 1.16 50 <10 20 <0.5 <2 3.72 16.8 43 22 706 5.58 <10 <1 0.47 <10 1.31 1050 70 0.07 28 1360 149 4.34 12 6 124 <0.01 <10 <10 46 <10 1295CGH-06-134 267.34 269.00 VA06107467 C097666 0.089 2 1.08 49 <10 20 <0.5 <2 3.75 17.2 40 22 698 5.5 <10 <1 0.43 10 1.33 1060 72 0.07 24 1380 144 4.23 10 6 125 <0.01 <10 <10 45 <10 1325CGH-06-134 269.00 271.27 VA06107467 C097667 0.133 1.1 0.87 26 <10 10 <0.5 <2 4.07 0.6 42 2 1350 6.87 <10 <1 0.46 <10 0.61 1010 30 0.06 4 1410 13 7.03 <2 4 146 <0.01 <10 <10 31 <10 69CGH-06-134 271.27 274.32 VA06107467 C097668 0.073 0.9 0.83 26 <10 10 <0.5 <2 3.39 0.9 26 3 532 5.21 <10 <1 0.4 <10 0.8 892 105 0.08 2 1460 14 5.04 3 4 128 <0.01 <10 <10 31 <10 86CGH-06-134 274.32 277.37 VA06107467 C097669 0.05 0.5 0.99 17 <10 30 <0.5 <2 4.95 <0.5 18 1 492 4.56 <10 <1 0.41 <10 1.2 1015 46 0.1 3 1690 9 3.12 3 6 130 <0.01 <10 <10 49 <10 67CGH-06-134 277.37 280.42 VA06107467 C097670 0.069 0.6 0.93 12 10 20 <0.5 <2 5.16 0.6 17 1 666 4.1 <10 <1 0.46 <10 1.03 1085 106 0.1 1 1590 7 3.28 3 6 189 <0.01 <10 <10 31 <10 63CGH-06-134 280.42 283.46 VA06107467 C097671 0.164 0.8 0.82 82 <10 10 <0.5 <2 4.05 <0.5 22 1 508 5.62 <10 <1 0.45 <10 0.49 987 138 0.07 6 1430 9 6.01 <2 3 180 <0.01 <10 <10 21 <10 37CGH-06-134 283.46 286.51 VA06107467 C097672 0.146 0.9 0.95 25 <10 20 <0.5 <2 3.08 0.7 13 2 447 4.3 <10 <1 0.38 <10 0.59 817 25 0.07 1 1350 6 4.16 2 4 149 <0.01 <10 <10 34 <10 67CGH-06-134 286.51 289.56 VA06107467 C097673 0.113 0.4 1.57 11 <10 20 <0.5 <2 3.66 <0.5 17 2 186 4.42 <10 <1 0.34 <10 1.19 1005 10 0.09 1 1350 7 3.35 2 4 140 <0.01 <10 <10 49 <10 87CGH-06-135 35.42 37.83 VA06107255 B520867 0.154 0.3 0.48 76 <10 10 <0.5 <2 2.02 <0.5 16 <1 160 6.02 <10 <1 0.26 <10 0.72 409 3 0.01 <1 1350 5 6.48 <2 5 100 <0.01 <10 <10 28 <10 26CGH-06-135 37.83 39.62 VA06107255 B520868 0.073 0.4 0.52 24 <10 20 <0.5 <2 3.66 <0.5 17 <1 206 5.1 <10 <1 0.27 <10 1.22 704 3 0.02 1 1760 4 4.63 <2 11 126 <0.01 <10 <10 77 <10 50CGH-06-135 39.62 42.67 VA06107255 B520869 0.053 0.2 0.49 9 <10 20 <0.5 <2 4.6 <0.5 20 <1 193 5.42 <10 <1 0.25 <10 1.58 873 69 0.02 2 1730 4 4.54 <2 11 130 <0.01 <10 <10 86 <10 50CGH-06-135 42.67 45.72 VA06107255 B520870 0.184 0.4 0.46 59 10 20 <0.5 <2 3.75 <0.5 18 <1 187 4.81 <10 <1 0.25 <10 1.18 1010 4 0.02 <1 1480 5 4.68 4 10 146 <0.01 <10 10 42 <10 36CGH-06-135 BLANK VA06107255 B520871 0.008 0.2 0.97 5 <10 920 <0.5 <2 8.76 0.9 7 11 61 2.04 <10 1 0.13 10 0.71 2540 54 0.06 62 460 6 0.26 2 7 210 <0.01 <10 <10 79 <10 192CGH-06-135 45.72 48.77 VA06107255 B520872 0.064 0.2 0.52 10 10 10 <0.5 2 2.67 <0.5 11 <1 95 5.82 <10 <1 0.23 <10 0.93 442 1 0.03 <1 1350 5 6.63 2 2 97 <0.01 <10 10 13 <10 19CGH-06-135 48.77 51.82 VA06107255 B520873 0.052 0.2 0.63 17 10 20 <0.5 <2 2.89 <0.5 10 <1 119 4.91 <10 <1 0.25 10 0.98 466 1 0.03 <1 1360 4 5.54 <2 3 143 <0.01 <10 <10 24 <10 27CGH-06-135 51.82 54.86 VA06107255 B520874 0.041 <0.2 0.54 20 10 20 <0.5 <2 2.53 <0.5 8 <1 72 4.77 <10 <1 0.23 10 0.95 466 1 0.02 1 1210 7 5.3 2 3 114 <0.01 <10 <10 19 <10 35CGH-06-135 54.86 57.91 VA06107255 B520875 0.058 0.6 0.53 58 10 10 <0.5 <2 2.49 2.9 15 <1 167 4.68 <10 <1 0.26 <10 0.9 424 1 0.02 3 1520 27 5.05 2 6 126 <0.01 <10 <10 29 <10 322CGH-06-135 57.91 60.96 VA06107255 B520876 0.072 <0.2 0.66 14 10 20 <0.5 <2 3.37 <0.5 21 <1 212 5.65 <10 <1 0.23 <10 1.73 535 2 0.03 <1 1940 2 5.34 <2 10 205 <0.01 <10 <10 69 <10 35CGH-06-135 60.96 64.01 VA06107255 B520877 0.051 <0.2 0.64 15 10 20 <0.5 2 3.42 <0.5 18 <1 123 5.79 <10 <1 0.25 <10 1.63 621 11 0.03 4 1970 5 5.84 <2 7 155 <0.01 <10 <10 52 <10 29CGH-06-135 64.01 67.06 VA06107255 B520878 0.081 0.6 0.64 33 10 40 0.6 <2 2.35 19.7 30 8 556 5.3 <10 1 0.28 10 1.08 805 11 0.02 47 2020 5 2.89 4 8 114 <0.01 <10 <10 30 <10 1820CGH-06-135 67.06 70.10 VA06107255 B520879 0.076 0.3 0.33 13 <10 30 <0.5 <2 1.85 <0.5 14 4 372 3.64 <10 <1 0.19 <10 0.69 682 19 0.01 23 850 4 3.05 3 4 74 <0.01 <10 <10 28 <10 48CGH-06-135 70.10 73.15 VA06107255 B520880 0.076 0.2 0.44 7 10 30 <0.5 <2 2.04 <0.5 20 2 352 4.28 <10 1 0.22 <10 0.89 612 22 0.02 37 880 5 3.19 <2 6 102 <0.01 <10 <10 29 <10 42CGH-06-135 73.15 76.20 VA06107255 B520881 0.059 0.3 0.36 10 10 30 <0.5 <2 1.08 <0.5 17 <1 186 3.96 <10 <1 0.18 <10 0.55 401 6 0.02 25 470 2 2.89 <2 4 65 <0.01 <10 <10 16 <10 30CGH-06-135 Standard 5 VA06107255 B520882 0.126 0.4 1.7 6 <10 190 <0.5 2 1.34 <0.5 23 1090 1590 4.6 <10 <1 0.23 <10 0.85 624 17 0.12 889 690 6 0.99 <2 5 75 0.11 <10 10 65 <10 57CGH-06-135 76.20 79.25 VA06107255 B520883 0.04 0.4 0.39 24 10 40 <0.5 <2 2.42 <0.5 15 3 272 3.27 <10 <1 0.18 <10 0.84 713 8 0.02 21 990 6 2.1 <2 5 98 <0.01 <10 <10 35 <10 32CGH-06-135 79.25 82.30 VA06107255 B520884 0.035 0.2 0.47 12 10 60 <0.5 <2 2.97 <0.5 12 <1 200 3.21 <10 <1 0.23 <10 0.93 727 11 0.03 11 910 4 2.38 2 4 95 <0.01 <10 <10 17 <10 27CGH-06-135 82.30 85.34 VA06107255 B520885 0.158 0.7 0.35 58 <10 20 <0.5 <2 2.36 <0.5 23 6 538 4.34 <10 <1 0.2 <10 0.75 824 56 0.02 25 790 3 4.3 3 3 65 <0.01 <10 10 15 <10 51CGH-06-135 85.34 88.39 VA06107255 B520886 0.081 0.4 0.32 12 <10 40 <0.5 <2 3.24 <0.5 24 9 469 4.29 <10 <1 0.17 <10 1.2 1100 24 0.02 36 530 3 3.85 2 5 65 <0.01 <10 <10 20 <10 46CGH-06-135 88.39 91.44 VA06107255 B520887 0.462 0.8 0.41 9 <10 20 <0.5 <2 1.66 6.7 23 19 148 3.44 <10 <1 0.21 <10 0.4 535 29 0.01 56 2850 <2 3.64 2 4 53 <0.01 <10 <10 19 <10 710CGH-06-135 103.63 106.68 VA06107255 B520888 0.024 0.3 0.26 9 <10 30 <0.5 <2 1 0.5 12 4 101 3.35 <10 <1 0.15 <10 0.28 510 17 0.01 27 560 3 3.48 <2 2 25 <0.01 <10 <10 12 <10 12CGH-06-135 124.97 128.02 VA06107255 B520889 0.04 1.1 0.48 37 10 70 0.7 <2 5.3 <0.5 15 <1 144 3.48 <10 <1 0.25 <10 1.16 2150 10 0.03 15 1820 11 1.85 4 8 95 <0.01 <10 <10 26 <10 54CGH-06-135 128.02 131.06 VA06107255 B520890 0.043 1.1 0.43 31 10 80 0.6 <2 3.43 0.9 14 <1 127 3.62 <10 <1 0.23 <10 0.94 1830 5 0.03 7 1070 15 2.33 2 5 110 <0.01 <10 10 22 <10 129CGH-06-135 131.06 134.11 VA06107255 B520891 0.014 0.7 0.38 37 10 220 <0.5 <2 3.07 3 9 1 122 2.75 <10 <1 0.19 <10 0.99 1680 7 0.02 12 1160 31 1.2 <2 5 111 <0.01 <10 <10 28 <10 366CGH-06-135 134.11 137.16 VA06107255 B520892 0.204 3.8 0.34 29 10 60 <0.5 <2 1.93 0.9 11 3 99 2.98 <10 <1 0.17 <10 0.6 1210 39 0.01 32 1070 13 2.77 <2 4 67 <0.01 <10 10 33 <10 128CGH-06-135 134.11 137.16 VA06107255 B520893 0.164 3.4 0.45 25 10 70 <0.5 <2 2.04 1.1 8 5 76 2.84 <10 <1 0.22 <10 0.61 1240 37 0.01 28 1430 10 2.53 <2 4 71 <0.01 <10 10 41 <10 131CGH-06-135 137.16 140.21 VA06107255 B520894 0.05 1.9 0.38 65 10 100 <0.5 <2 2.24 6 10 6 252 2.35 <10 <1 0.18 <10 0.49 1020 33 0.01 42 1150 23 2.01 2 4 67 <0.01 <10 <10 43 <10 681CGH-06-135 140.21 143.26 VA06107255 B520895 0.295 6 0.39 81 <10 60 <0.5 2 2.97 28.8 6 5 1160 3.74 <10 1 0.19 <10 0.89 2330 55 0.01 43 2620 50 2.96 5 4 83 <0.01 <10 10 103 <10 2990CGH-06-135 143.26 146.30 VA06107255 B520896 0.037 0.7 0.29 33 <10 190 <0.5 <2 0.62 11 5 2 99 1.85 <10 <1 0.17 <10 0.34 632 <1 0.01 14 490 33 1.09 <2 3 38 <0.01 <10 <10 18 <10 1120CGH-06-135 146.30 149.35 VA06107255 B520897 0.057 2.3 0.21 38 <10 90 <0.5 <2 0.74 4.1 5 4 141 1.84 <10 <1 0.12 <10 0.29 448 4 0.01 14 420 12 1.45 <2 2 32 <0.01 <10 <10 13 <10 477CGH-06-135 149.35 152.40 VA06107255 B520898 0.105 3.9 0.28 57 <10 80 <0.5 <2 0.41 7.3 9 1 154 2.71 <10 <1 0.16 <10 0.23 366 1 0.01 20 370 21 2.42 <2 3 27 <0.01 <10 <10 7 <10 857CGH-06-136 13.41 15.24 VA06107467 C097674 0.06 0.4 0.95 11 <10 240 <0.5 <2 3.42 <0.5 9 2 378 3.4 <10 <1 0.36 10 0.94 1335 1 0.04 <1 1190 <2 1.29 2 4 112 <0.01 <10 <10 49 <10 80CGH-06-136 15.24 18.29 VA06107467 C097675 0.141 0.8 0.95 6 <10 70 <0.5 <2 2.68 0.8 10 2 924 3.5 <10 <1 0.3 10 0.84 1050 3 0.05 2 970 5 2.52 4 3 83 <0.01 <10 <10 38 <10 154CGH-06-136 18.29 21.34 VA06107467 C097676 0.265 2.7 0.92 18 10 40 <0.5 2 3.19 0.5 13 2 2520 3.81 <10 <1 0.43 10 0.96 1500 11 0.03 1 1160 5 2.58 3 4 108 <0.01 <10 <10 42 <10 93CGH-06-136 Standard 6 VA06107467 C097677 0.267 0.7 1.04 15 <10 50 <0.5 <2 3.13 0.6 17 417 3320 6.24 <10 1 0.33 <10 1.15 800 11 0.05 354 1220 16 3.34 10 8 189 <0.01 <10 <10 57 <10 133CGH-06-136 21.34 24.38 VA06107467 C097678 0.078 1.3 1 6 10 20 <0.5 <2 3.61 1 13 2 1220 5.19 <10 <1 0.41 10 1.12 1675 11 0.04 2 1130 5 4.22 <2 4 158 <0.01 <10 10 43 <10 210CGH-06-136 24.38 27.43 VA06107467 C097679 0.061 1 0.88 6 10 40 <0.5 <2 3.97 1.1 13 2 820 3.85 <10 <1 0.43 <10 1.04 1445 6 0.03 2 1120 19 2.75 6 3 165 <0.01 <10 <10 37 <10 146CGH-06-136 27.43 30.48 VA06107467 C097680 0.207 1.4 0.88 30 10 20 <0.5 <2 3.43 <0.5 12 2 1745 4.14 <10 <1 0.47 <10 0.65 1705 48 0.03 4 990 7 3.01 4 3 118 <0.01 <10 <10 22 <10 66
Drill From To Assay Sample Au Au Check Au Ag Al As B Ba Be Bi Ca Cd Co Cr Cu Fe Ga Hg K La Mg Mn Mo Na Ni P Pb S Sb Sc Sr Ti Tl U V W Zn Cu CuHole Job Number ppm ppm ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm % ppm ppm % ppm % ppm ppm % ppm ppm ppm % ppm ppm ppm % ppm ppm ppm ppm ppm % %
CGH-06-136 30.48 33.53 VA06107467 C097681 0.244 3.6 1 30 10 40 <0.5 <2 3.23 2.7 11 1 1955 4.26 <10 <1 0.47 <10 0.65 1535 6 0.05 2 1240 13 2.34 9 4 144 <0.01 <10 <10 31 <10 276CGH-06-136 33.53 36.58 VA06107467 C097682 0.349 3.2 0.69 28 10 20 <0.5 <2 2.94 1.5 12 1 2230 3.63 <10 <1 0.39 <10 0.65 1540 10 0.03 3 1070 8 2.85 7 4 119 <0.01 <10 <10 21 <10 199CGH-06-136 36.58 39.62 VA06107467 C097683 0.23 2.1 0.95 27 10 30 <0.5 <2 2.85 0.5 14 1 2340 3.7 <10 <1 0.51 <10 0.67 1760 4 0.04 5 1100 6 1.98 6 4 133 <0.01 <10 <10 23 <10 33CGH-06-136 39.62 42.67 VA06107467 C097684 0.1 1.6 0.93 12 10 60 0.5 <2 3.44 <0.5 10 <1 1215 3.91 <10 1 0.4 <10 0.72 1285 8 0.05 1 1260 2 1.59 5 5 179 <0.01 <10 <10 33 <10 66CGH-06-136 42.67 45.72 VA06107467 C097685 0.111 2.1 0.91 16 10 20 <0.5 <2 3.36 0.5 14 1 1710 4.32 <10 <1 0.48 <10 0.67 1410 6 0.04 2 1210 4 3.47 7 4 133 <0.01 <10 <10 26 <10 54CGH-06-136 45.72 48.77 VA06107467 C097686 0.103 1.5 0.89 17 10 80 <0.5 <2 3.42 <0.5 12 1 1270 3.61 <10 <1 0.44 <10 0.66 1450 2 0.05 2 1340 5 2.22 4 5 145 <0.01 <10 <10 35 <10 67CGH-06-136 48.77 51.82 VA06107467 C097687 0.086 1.1 1.06 16 10 50 <0.5 <2 4.09 <0.5 13 1 1300 3.44 <10 <1 0.51 <10 0.88 1520 7 0.06 1 1350 3 1.95 8 6 178 <0.01 <10 <10 38 <10 51CGH-06-136 48.77 51.82 VA06107467 C097688 0.086 1.2 0.96 17 10 60 <0.5 <2 3.98 <0.5 13 <1 1245 3.37 <10 <1 0.48 <10 0.86 1480 9 0.06 4 1330 4 1.89 8 6 174 <0.01 <10 <10 37 <10 44CGH-06-136 51.82 54.86 VA06107467 C097689 0.188 1.7 0.75 42 10 20 <0.5 <2 3.63 <0.5 15 1 1395 4.15 <10 <1 0.45 <10 0.78 1695 15 0.04 3 1210 5 3.41 5 4 124 <0.01 <10 <10 26 <10 36CGH-06-136 54.86 57.91 VA06107467 C097690 0.114 1.8 0.82 48 10 30 <0.5 <2 3.49 <0.5 16 1 1565 4.33 <10 <1 0.41 <10 0.91 1695 9 0.05 1 1320 4 3.09 6 5 121 <0.01 <10 <10 33 <10 49CGH-06-136 57.91 60.96 VA06107467 C097691 0.1 2.1 0.94 12 <10 20 <0.5 <2 3.29 <0.5 19 <1 2030 6 <10 <1 0.45 <10 0.94 1435 15 0.05 4 1260 4 5.4 <2 4 142 <0.01 <10 <10 42 <10 81CGH-06-136 60.96 64.01 VA06107467 C097692 0.087 1.6 0.96 11 10 20 <0.5 2 3.35 <0.5 16 1 1605 4.88 <10 <1 0.4 <10 1.03 1265 9 0.07 <1 1330 4 3.81 6 6 153 <0.01 <10 <10 47 <10 49CGH-06-136 64.01 67.06 VA06107467 C097693 0.118 1.5 0.9 31 10 20 <0.5 <2 3.01 <0.5 17 1 1690 4.62 <10 <1 0.42 <10 0.76 1090 200 0.05 3 1360 6 3.96 6 5 141 <0.01 <10 <10 38 <10 39CGH-06-136 67.06 70.10 VA06107467 C097694 0.15 1.8 0.83 38 <10 10 <0.5 <2 2.32 <0.5 13 1 1020 5.79 <10 <1 0.37 <10 0.85 770 24 0.05 5 1120 7 5.6 4 4 115 <0.01 <10 <10 32 <10 57CGH-06-136 70.10 73.15 VA06107467 C097695 0.142 1.6 1.23 25 10 40 <0.5 <2 2.42 <0.5 17 1 1640 4.92 <10 <1 0.49 <10 0.87 723 10 0.08 6 1650 5 3.75 5 6 165 <0.01 <10 <10 53 <10 41CGH-06-136 73.15 76.20 VA06107467 C097696 0.125 1.8 0.77 26 10 20 <0.5 <2 2.99 <0.5 17 1 1795 4.77 <10 <1 0.42 <10 0.89 1060 75 0.05 3 1490 6 4.24 3 4 156 <0.01 <10 <10 39 <10 47CGH-06-136 76.20 79.25 VA06107467 C097697 0.304 1.7 0.95 28 10 20 <0.5 <2 3.56 <0.5 22 <1 2500 6.51 <10 <1 0.44 <10 1.1 1445 31 0.08 <1 2000 5 4.77 6 8 181 <0.01 <10 <10 60 <10 82CGH-06-136 79.25 82.30 VA06107467 C097698 0.093 0.7 1.12 28 10 70 <0.5 <2 3.55 <0.5 14 1 850 4.3 <10 <1 0.46 <10 1.06 1290 22 0.09 4 2020 5 1.82 4 11 207 <0.01 <10 <10 63 <10 62CGH-06-136 BLANK VA06107467 C097699 0.009 0.2 1.7 6 <10 360 <0.5 <2 8.43 1.6 5 85 28 2.55 <10 1 0.2 10 1.79 2990 77 0.04 180 1330 6 0.13 4 6 280 0.01 <10 10 718 <10 265CGH-06-136 82.30 85.34 VA06107467 C097700 0.122 1.2 0.81 36 10 40 <0.5 <2 3.75 <0.5 16 <1 914 5.16 <10 <1 0.39 <10 1.02 1605 19 0.07 2 1990 4 2.8 6 9 175 <0.01 <10 <10 50 <10 60CGH-06-136 85.34 88.39 VA06107467 C097701 0.085 1.2 0.92 14 10 120 <0.5 <2 3.43 <0.5 10 3 767 2.91 <10 <1 0.45 <10 0.86 1485 9 0.05 5 1660 6 1.91 8 6 122 <0.01 <10 <10 48 <10 62CGH-06-136 88.39 91.44 VA06107467 C097702 0.108 2 0.62 25 <10 20 <0.5 <2 3.7 0.5 9 1 1325 3.63 <10 <1 0.35 <10 0.8 2060 26 0.03 4 1060 4 2.73 10 4 138 <0.01 <10 <10 21 <10 42CGH-06-136 91.44 94.49 VA06107467 C097703 0.111 1.5 0.73 14 <10 10 <0.5 <2 3.6 1.4 9 <1 995 4.9 <10 <1 0.39 <10 0.7 2080 11 0.04 2 860 5 4.08 8 3 127 <0.01 <10 <10 20 <10 181CGH-06-136 94.49 97.54 VA06107467 C097704 0.159 1.7 0.7 9 10 20 <0.5 2 1.85 <0.5 10 1 1745 3.57 <10 <1 0.32 <10 0.4 965 13 0.05 3 970 4 3.18 3 3 110 <0.01 <10 <10 17 <10 33CGH-06-136 97.54 100.58 VA06107467 C097705 0.203 1.7 1.09 20 10 20 <0.5 <2 2.39 <0.5 13 1 1775 4.46 <10 1 0.38 <10 0.49 1025 7 0.07 8 1160 4 3.95 5 4 118 <0.01 <10 <10 35 <10 56CGH-06-136 100.58 103.63 VA06107467 C097706 0.114 2.1 0.71 16 <10 20 <0.5 <2 2.42 13.7 15 2 1105 4.81 <10 <1 0.34 <10 0.64 1245 16 0.03 14 910 4 4.5 2 3 81 <0.01 <10 <10 33 <10 1750CGH-06-136 103.63 106.68 VA06107467 C097707 0.087 1.1 0.63 4 <10 30 <0.5 <2 1.88 1.9 10 8 1165 2.54 <10 <1 0.25 <10 0.4 879 28 0.02 16 1210 2 2.08 3 4 83 <0.01 <10 <10 47 <10 237CGH-06-136 106.68 109.73 VA06107467 C097708 0.089 1.1 0.64 12 10 30 <0.5 <2 3.44 10.6 12 3 705 3.4 <10 1 0.27 <10 0.75 1540 10 0.04 12 1890 3 2.71 3 6 137 <0.01 <10 <10 43 <10 973CGH-06-136 109.73 112.78 VA06107467 C097709 0.084 1 0.55 11 10 30 <0.5 <2 2.64 1 11 8 814 3.29 <10 <1 0.25 <10 0.81 1125 18 0.03 21 870 4 2.72 3 5 87 <0.01 <10 <10 61 <10 95CGH-06-136 Standard 5 VA06107467 C097710 0.127 0.5 1.65 7 <10 170 <0.5 <2 1.31 <0.5 21 1035 1515 4.47 <10 1 0.22 <10 0.81 601 16 0.11 865 650 6 0.96 3 5 74 0.11 <10 <10 63 <10 54CGH-06-136 112.78 115.82 VA06107467 C097711 0.081 1.2 0.76 3 10 30 0.5 <2 3.46 <0.5 18 14 546 4.31 <10 <1 0.32 <10 1.24 1015 9 0.05 26 1450 <2 3.24 4 11 188 <0.01 <10 10 75 <10 51CGH-06-136 115.82 118.87 VA06107467 C097712 0.262 1.8 0.66 7 10 20 <0.5 2 3.68 <0.5 15 10 1740 4.54 <10 <1 0.27 <10 1.45 925 31 0.03 27 860 5 4.02 3 6 219 <0.01 <10 <10 71 <10 40CGH-06-136 118.87 121.92 VA06107467 C097713 0.066 0.8 0.54 5 10 30 <0.5 <2 2.88 <0.5 11 7 521 3.58 <10 <1 0.21 <10 1.08 769 10 0.03 21 850 4 3.04 3 5 115 <0.01 <10 <10 62 <10 43CGH-06-136 121.92 124.97 VA06107467 C097714 0.076 0.8 0.71 7 10 30 <0.5 <2 2.78 <0.5 10 4 627 3.61 <10 <1 0.35 <10 0.94 780 10 0.03 13 980 3 3.21 3 3 85 <0.01 <10 <10 42 <10 30CGH-06-136 124.97 128.02 VA06107467 C097715 0.1 0.9 0.86 3 10 30 0.5 <2 3.06 <0.5 12 1 769 4.04 <10 <1 0.38 <10 0.97 850 14 0.05 6 1120 3 3.46 2 3 109 <0.01 <10 <10 31 <10 41CGH-06-136 128.02 131.06 VA06107467 C097716 0.162 1.9 0.82 9 10 20 <0.5 <2 4.1 <0.5 12 10 1010 5.01 <10 <1 0.34 <10 1.37 1455 8 0.04 20 1230 2 4.1 3 7 150 <0.01 <10 <10 47 <10 68CGH-06-137 15.24 18.29 VA06107255 B520899 0.026 0.2 1.07 3 <10 500 <0.5 <2 5.44 <0.5 8 2 339 1.84 <10 <1 0.29 10 0.61 1470 1 0.03 2 1020 3 0.5 <2 5 120 <0.01 <10 <10 37 <10 31CGH-06-137 24.38 27.43 VA06107255 B520900 0.056 0.4 1.85 4 <10 480 <0.5 <2 4.17 <0.5 15 6 439 4.65 10 <1 0.36 10 1.38 1700 2 0.04 6 1470 3 0.7 <2 9 179 0.07 <10 <10 138 <10 81CGH-06-137 27.43 30.48 VA06107255 B520901 0.055 0.5 1.64 20 <10 110 <0.5 <2 3.83 <0.5 12 1 590 3.56 <10 <1 0.31 10 1.16 2360 5 0.03 <1 1250 2 1.4 4 5 145 0.01 <10 <10 53 <10 54CGH-06-137 30.48 33.53 VA06107255 B520902 0.086 0.3 2.41 20 <10 380 <0.5 <2 4.59 <0.5 19 14 272 5.6 10 <1 0.45 10 1.89 2310 <1 0.04 13 1710 2 0.51 <2 12 161 0.11 <10 <10 159 <10 111CGH-06-137 45.72 48.77 VA06107255 B520903 0.019 0.4 1.84 6 <10 280 <0.5 <2 5.69 <0.5 14 12 130 3.95 10 <1 0.27 10 0.95 1720 2 0.02 10 1090 3 0.98 <2 7 163 <0.01 <10 <10 83 <10 67CGH-06-137 Standard 2 VA06107255 B520904 0.976 3 0.87 15 10 60 <0.5 5 1.59 <0.5 28 1490 >10000 10.55 <10 1 0.43 <10 0.77 1020 29 0.03 1210 640 11 3.56 6 5 61 0.01 <10 <10 55 <10 87 1.16CGH-06-137 48.77 51.82 VA06107255 B520905 0.023 0.2 1.85 8 <10 260 <0.5 <2 3.89 0.7 11 1 166 3.38 <10 <1 0.3 10 0.98 1430 1 0.02 3 1140 7 0.77 2 5 146 <0.01 <10 <10 47 <10 109CGH-06-137 64.01 67.06 VA06107255 B520906 0.027 0.4 1.38 13 <10 280 <0.5 <2 5.29 <0.5 12 9 143 3.74 <10 <1 0.29 10 0.84 2540 <1 0.01 9 920 9 1.08 <2 6 137 <0.01 <10 <10 42 <10 77CGH-06-137 67.06 70.10 VA06107255 B520907 0.039 0.9 0.93 30 <10 140 <0.5 2 6.97 1.4 12 4 243 3.18 <10 <1 0.24 10 0.55 3110 1 0.01 9 790 9 1.75 <2 5 161 <0.01 <10 <10 26 <10 147CGH-06-137 85.34 88.39 VA06107255 B520908 0.008 0.2 1.21 9 <10 40 <0.5 <2 3.54 <0.5 9 28 167 3.37 10 1 0.08 10 1.27 823 6 0.06 18 1010 3 0.53 4 10 112 0.15 <10 <10 148 <10 40CGH-06-137 97.54 100.58 VA06107255 B520909 0.006 <0.2 1.28 5 <10 40 <0.5 <2 3.66 0.6 7 20 60 2.86 10 <1 0.09 10 1.11 736 <1 0.06 11 1040 5 0.3 2 9 73 0.12 <10 <10 106 <10 57CGH-06-137 118.87 121.92 VA06107255 B520910 0.007 0.5 1.36 29 <10 50 <0.5 <2 3.65 2.8 8 15 164 3.13 10 <1 0.1 10 1.13 1090 2 0.06 10 970 11 0.48 <2 7 108 0.11 <10 <10 83 <10 329CGH-06-137 140.21 143.26 VA06107255 B520911 0.009 0.3 1.98 9 <10 920 <0.5 <2 6.92 <0.5 7 23 68 3.47 10 <1 0.13 10 1.45 1380 <1 0.05 8 1030 5 0.3 2 10 168 <0.01 <10 <10 96 <10 75CGH-06-137 143.26 146.30 VA06107255 B520912 0.024 1.7 2.08 211 <10 370 0.5 <2 6.67 <0.5 8 19 54 3.72 10 <1 0.1 10 1.62 1210 <1 0.04 12 970 5 0.3 3 10 152 <0.01 <10 <10 95 <10 57CGH-06-137 146.30 149.35 VA06107255 B520913 0.008 <0.2 1.89 8 <10 240 <0.5 <2 7.61 0.5 6 23 33 3.36 10 <1 0.11 10 1.3 1230 <1 0.04 10 1030 7 0.19 4 9 125 <0.01 <10 <10 95 <10 73CGH-06-137 164.59 167.64 VA06107255 B520914 0.014 <0.2 1.85 11 <10 570 <0.5 <2 6.56 <0.5 10 20 105 3.78 10 <1 0.08 10 1.52 1090 1 0.06 11 1140 3 0.37 3 11 153 0.04 <10 <10 121 <10 39CGH-06-137 164.59 167.64 VA06107255 B520915 0.01 0.2 1.84 4 <10 650 <0.5 <2 6.67 <0.5 11 21 105 3.77 10 <1 0.08 10 1.51 1100 1 0.05 11 1140 3 0.38 2 11 156 0.04 <10 <10 121 <10 40CGH-06-137 176.78 179.83 VA06107255 B520916 0.008 <0.2 2.12 4 <10 60 0.5 <2 4.45 <0.5 11 24 21 4.54 10 <1 0.08 10 1.98 840 1 0.05 11 1780 6 0.15 <2 16 105 0.09 <10 <10 193 <10 48CGH-06-138 24.38 27.43 VA06107255 B519801 0.058 0.4 0.85 8 10 20 0.5 <2 3.43 <0.5 17 <1 230 5.13 <10 <1 0.24 <10 1.91 955 1 0.02 3 2040 4 3.09 5 10 136 <0.01 <10 <10 81 <10 48CGH-06-138 27.43 30.48 VA06107255 B519802 0.072 0.3 0.95 17 10 30 0.6 <2 3.53 <0.5 18 <1 241 4.83 <10 <1 0.32 <10 1.38 658 <1 0.02 6 2310 5 4.33 <2 10 134 <0.01 <10 <10 65 <10 30CGH-06-138 30.48 33.53 VA06107255 B519803 0.04 1.1 0.39 38 <10 20 <0.5 <2 1.11 <0.5 10 4 328 2.73 <10 <1 0.19 <10 0.4 456 24 0.01 22 860 2 2.68 4 3 46 <0.01 <10 <10 26 <10 40CGH-06-138 33.53 36.58 VA06107255 B519804 0.035 0.3 0.36 20 <10 40 <0.5 <2 0.79 <0.5 7 15 120 1.76 <10 <1 0.17 <10 0.27 250 61 0.01 46 1050 4 1.6 <2 2 37 <0.01 <10 <10 129 <10 15CGH-06-138 48.77 51.82 VA06107255 B519805 0.087 0.3 0.68 43 10 20 <0.5 <2 1.57 <0.5 18 15 204 3.64 <10 <1 0.34 <10 0.48 492 28 0.01 44 1910 3 3.81 2 7 88 <0.01 <10 <10 43 <10 18CGH-06-138 51.82 54.86 VA06107255 B519806 0.107 0.4 0.73 76 10 20 <0.5 <2 2.84 <0.5 19 25 218 4.49 <10 <1 0.36 <10 1.04 846 3 0.01 39 1400 3 4.24 <2 10 100 <0.01 <10 <10 45 <10 27CGH-06-138 70.10 73.15 VA06107255 B519807 0.04 0.4 0.45 20 <10 30 <0.5 <2 0.51 <0.5 11 6 105 2.56 <10 <1 0.24 <10 0.21 292 10 0.01 19 300 2 2.62 <2 2 53 <0.01 <10 <10 7 <10 17CGH-06-138 73.15 76.20 VA06107255 B519808 0.225 1.5 0.96 89 10 20 0.6 <2 4.64 <0.5 54 216 420 7.96 <10 <1 0.33 <10 3.13 1655 11 0.02 295 1960 7 7.67 10 27 150 <0.01 <10 <10 72 <10 49CGH-06-138 76.20 79.25 VA06107255 B519809 0.187 2.1 0.66 100 10 20 0.5 <2 9.05 <0.5 48 169 761 7.45 <10 <1 0.3 <10 4.09 2600 2 0.02 239 1900 7 6.46 8 27 187 <0.01 <10 <10 63 <10 71CGH-06-138 BLANK VA06107255 B519810 0.011 0.5 1.03 2 <10 1110 <0.5 <2 7.16 1.7 9 14 131 2.01 <10 2 0.2 10 0.7 2160 51 0.06 61 520 7 0.29 3 6 221 <0.01 <10 10 91 <10 315CGH-06-138 79.25 82.30 VA06107255 B519811 0.068 0.4 0.56 53 <10 30 <0.5 <2 1.24 <0.5 15 8 347 2.72 <10 <1 0.27 <10 0.43 693 22 0.01 25 630 3 2.62 3 4 37 <0.01 <10 <10 9 <10 13CGH-06-138 94.49 97.54 VA06107255 B519812 0.056 0.6 0.38 15 <10 30 <0.5 <2 1.18 <0.5 12 4 238 2.43 <10 <1 0.2 <10 0.3 643 37 0.01 13 400 <2 2.32 2 2 38 <0.01 <10 <10 7 <10 11CGH-06-138 97.54 100.58 VA06107255 B519813 0.091 0.4 0.36 12 <10 20 <0.5 <2 1.1 <0.5 16 8 608 2.99 <10 1 0.19 <10 0.32 663 85 0.01 21 680 3 2.9 <2 3 38 <0.01 <10 <10 8 <10 8CGH-06-138 100.58 103.63 VA06107255 B519814 0.074 0.4 0.56 8 10 30 <0.5 <2 2.55 <0.5 10 3 460 3.03 <10 <1 0.29 <10 0.95 1070 30 0.02 13 750 2 2.59 <2 4 68 <0.01 <10 <10 18 <10 20CGH-06-138 103.63 106.68 VA06107255 B519815 0.079 0.7 0.61 28 10 40 <0.5 <2 2.57 <0.5 10 2 430 3.17 <10 <1 0.32 <10 0.52 798 32 0.02 13 870 4 2.42 <2 3 97 <0.01 <10 <10 17 <10 38CGH-06-138 106.68 109.73 VA06107255 B519816 0.079 0.4 0.6 5 10 40 <0.5 <2 3.39 <0.5 12 <1 439 3.4 <10 <1 0.32 <10 0.66 770 31 0.05 4 1210 4 2.64 <2 3 131 <0.01 <10 <10 19 <10 22CGH-06-138 109.73 112.78 VA06107255 B519817 0.126 0.4 0.66 25 10 70 <0.5 <2 2.1 <0.5 8 2 588 2.99 <10 <1 0.32 10 0.6 550 23 0.06 4 1130 4 1.54 <2 3 106 <0.01 <10 <10 22 <10 21CGH-06-138 112.78 115.82 VA06107255 B519818 0.101 0.6 0.75 17 10 20 <0.5 <2 2.05 <0.5 12 1 621 4.06 <10 <1 0.36 <10 0.79 484 37 0.06 3 1090 5 3.1 <2 2 82 <0.01 <10 <10 23 <10 64CGH-06-138 115.82 118.87 VA06107255 B519819 0.134 0.9 0.66 29 10 80 <0.5 <2 2.7 <0.5 8 3 664 2.86 <10 <1 0.37 10 0.54 664 27 0.06 3 1230 6 1.69 <2 3 105 <0.01 <10 <10 21 <10 27CGH-06-138 118.87 121.92 VA06107255 B519820 0.115 1 0.75 38 10 40 <0.5 <2 2.48 <0.5 15 3 791 3.28 <10 <1 0.42 10 0.44 639 32 0.05 3 1190 4 2.78 <2 3 91 <0.01 <10 <10 14 <10 19CGH-06-138 Standard 5 VA06107255 B519821 0.15 0.4 1.77 2 <10 180 <0.5 <2 1.3 <0.5 21 1070 1645 4.61 <10 <1 0.23 <10 0.83 614 16 0.13 864 670 7 0.99 4 5 80 0.12 <10 <10 65 <10 57CGH-06-138 121.92 124.97 VA06107255 B519822 0.087 0.6 0.72 40 10 70 <0.5 <2 2.07 <0.5 12 3 416 2.84 <10 <1 0.39 10 0.63 668 17 0.07 6 1250 3 1.88 3 3 93 <0.01 <10 <10 17 <10 19CGH-06-138 124.97 128.02 VA06107255 B519823 0.284 1.9 0.65 30 10 30 <0.5 <2 2.28 <0.5 22 4 1620 2.86 <10 <1 0.35 <10 0.44 543 55 0.05 15 910 2 2.21 2 3 106 <0.01 <10 <10 19 <10 15CGH-06-138 128.02 131.06 VA06107255 B519824 0.129 0.6 0.74 35 10 100 <0.5 <2 2.45 <0.5 15 4 1035 3.14 <10 <1 0.35 10 0.77 609 10 0.08 5 1250 3 2.13 2 3 102 <0.01 <10 <10 28 <10 30CGH-06-138 131.06 134.11 VA06107255 B519825 0.173 0.6 0.69 9 10 150 <0.5 <2 1.77 <0.5 16 12 869 2.38 <10 <1 0.33 <10 0.65 488 57 0.05 26 1020 2 1.52 2 2 60 <0.01 <10 <10 25 <10 27CGH-06-138 134.11 137.16 VA06107255 B519826 0.109 0.7 0.59 15 10 180 <0.5 <2 1.75 <0.5 21 11 1065 2.51 <10 <1 0.29 <10 0.6 553 74 0.04 29 870 4 1.65 2 4 62 <0.01 <10 <10 32 <10 34CGH-06-138 137.16 140.21 VA06107255 B519827 0.133 0.9 0.71 19 10 80 <0.5 <2 2.42 <0.5 26 24 1090 2.1 <10 <1 0.32 10 0.74 601 81 0.03 48 3760 <2 1.73 5 3 94 <0.01 <10 <10 24 <10 18CGH-06-138 140.21 143.26 VA06107255 B519828 0.077 0.4 0.44 13 <10 40 <0.5 <2 1.35 <0.5 20 17 552 1.99 <10 <1 0.23 <10 0.49 670 64 0.02 39 390 2 1.66 2 3 58 <0.01 <10 <10 17 <10 15CGH-06-138 143.26 146.30 VA06107255 B519829 0.138 0.6 0.78 18 10 50 <0.5 <2 2.65 <0.5 20 7 741 2.98 <10 <1 0.34 10 0.84 680 46 0.04 16 1680 3 2.33 <2 4 113 <0.01 <10 10 25 <10 23
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
7
APPENDIX F
BULK DENSITY DETERMINATIONS OF 2006
DRILL CORE
Zone Rock Depth Volume Bulk Density g/cm3Type (meters) dry submerged [wt dry - wt submerged] [weight dry / volume]
CGH-06-087 Donnelly North MZDI 39.77 1254 808 446 2.81CGH-06-087 Donnelly North MZDI 60.56 1008 632 376 2.68CGH-06-087 Donnelly North CHRT 91.79 1058 664 394 2.69CGH-06-087 Donnelly North MZDI 121.02 881 558 323 2.73CGH-06-087 Donnelly North CHRT 149.70 847 534 313 2.71CGH-06-087 Donnelly North SLST 181.03 731 459 272 2.69CGH-06-087 Donnelly North MZDI 212.11 1184 755 429 2.76CGH-06-087 Donnelly North MZDI 243.34 1208 757 451 2.68CGH-06-088 Donnelly North MZDI 31.18 1135 702 433 2.62CGH-06-088 Donnelly North CHRT 61.40 1316 813 503 2.62CGH-06-088 Donnelly North MZDI 92.22 1562 975 587 2.66CGH-06-088 Donnelly North MZDI 122.64 940 580 360 2.61CGH-06-088 Donnelly North CHRT 153.70 1468 918 550 2.67CGH-06-088 Donnelly North BATF 185.95 1515 957 558 2.72CGH-06-088 Donnelly North CHRT 215.01 1219 765 454 2.69CGH-06-088 Donnelly North PMBX 247.04 1331 847 484 2.75CGH-06-090 Donnelly North MZDI 40.42 982 611 371 2.65CGH-06-090 Donnelly North MZDI 70.50 1206 758 448 2.69CGH-06-090 Donnelly North MZDI 102.28 1190 763 427 2.79CGH-06-090 Donnelly North MZDI 133.50 1227 767 460 2.67CGH-06-090 Donnelly North MZDI 162.14 1531 960 571 2.68CGH-06-090 Donnelly North MZDI 193.50 1190 760 430 2.77CGH-06-090 Donnelly North MZDI 222.65 1320 814 506 2.61CGH-06-090 Donnelly North MZDI 262.27 1387 873 514 2.70CGH-06-090 Donnelly North MZDI 302.11 1368 861 507 2.70CGH-06-091 Donnelly North MZDI 32.48 1518 951 567 2.68CGH-06-091 Donnelly North MZDI 62.50 1367 858 509 2.69CGH-06-091 Donnelly North MZDI 95.19 1073 681 392 2.74CGH-06-091 Donnelly North MZDI 121.77 1388 890 498 2.79CGH-06-091 Donnelly North MZDI 152.04 942 565 377 2.50CGH-06-091 Donnelly North MZDI 182.76 915 587 328 2.79CGH-06-091 Donnelly North MZDI 213.06 989 631 358 2.76CGH-06-091 Donnelly North MZDI 243.58 818 522 296 2.76CGH-06-091 North Donnelly GRST 274.22 874 558 316 2.77CGH-06-093 Donnelly North MZDI 32.55 1010 636 374 2.70CGH-06-093 Donnelly North MZDI 61.66 1285 806 479 2.68CGH-06-093 Donnelly North MZDI 91.95 1262 797 465 2.71CGH-06-093 Donnelly North MZDI 122.67 964 581 383 2.52CGH-06-093 Donnelly North MZDI 152.61 839 539 300 2.80CGH-06-093 Donnelly North MZDI 185.73 1390 872 518 2.68CGH-06-093 Donnelly North MZDI 213.46 933 591 342 2.73CGH-06-093 Donnelly North MZDI 243.90 731 470 261 2.80CGH-06-093 Donnelly North CHRT 272.77 1110 699 411 2.70CGH-06-094 Donnelly North BATF 30.40 661 427 234 2.82CGH-06-094 Donnelly North MZDI 61.46 660 419 241 2.74CGH-06-094 Donnelly North MZDI 91.24 752 475 277 2.71CGH-06-094 Donnelly North MZDI 122.34 988 632 356 2.78CGH-06-094 Donnelly North MZDI 149.92 1606 1031 575 2.79CGH-06-094 Donnelly North MZDI 180.71 981 621 360 2.73CGH-06-094 Donnelly North MZDI 209.83 1081 687 394 2.74CGH-06-094 Donnelly North MONZ 240.94 1503 945 558 2.69CGH-06-094 Donnelly North MZDI 271.03 917 588 329 2.79
GJ PROJECT
Bulk Density Measurements, 2006 Drill Program
Hole NumberSample Weight (g)
Bulk Density Calculations GJ Project, 2006 Program Canadian Gold Hunter Corp.
Zone Rock Depth Volume Bulk Density g/cm3Type (meters) dry submerged [wt dry - wt submerged] [weight dry / volume]
Bulk Density Measurements, 2006 Drill Program
Hole NumberSample Weight (g)
CGH-06-096 Donnelly North MZDI 39.85 1005 631 374 2.69CGH-06-096 Donnelly North MZDI 73.80 1184 747 437 2.71CGH-06-096 Donnelly North MZDI 103.48 964 606 358 2.69CGH-06-096 Donnelly North MZDI 133.60 1012 635 377 2.68CGH-06-096 Donnelly North MZDI 164.16 1018 641 377 2.70CGH-06-096 Donnelly North MZDI 196.79 1440 911 529 2.72CGH-06-096 Donnelly North MZDI 222.85 975 614 361 2.70CGH-06-096 Donnelly North MZDI 252.88 904 566 338 2.67CGH-06-097 Donnelly North MZDI 34.33 987 633 354 2.79CGH-06-097 Donnelly North MZDI 64.46 1277 815 462 2.76CGH-06-097 Donnelly North MZDI 97.04 1214 773 441 2.75CGH-06-097 Donnelly North MZDI 126.90 1611 1042 569 2.83CGH-06-097 Donnelly North MZDI 156.90 1164 739 425 2.74CGH-06-097 Donnelly North MZDI 186.69 824 530 294 2.80CGH-06-097 Donnelly North SLST 217.36 1163 790 373 3.12CGH-06-097 Donnelly North CHRT 247.54 1273 807 466 2.73CGH-06-097 Donnelly North MZDI 277.47 942 599 343 2.75CGH-06-098 Donnelly North MZDI 35.17 1047 657 390 2.68CGH-06-098 Donnelly North MZDI 64.70 1305 827 478 2.73CGH-06-098 Donnelly North MZDI 95.00 1097 692 405 2.71CGH-06-098 Donnelly North MZDI 126.17 1123 705 418 2.69CGH-06-098 Donnelly North MZDI 156.15 1484 943 541 2.74CGH-06-098 Donnelly North MZDI 188.58 1071 667 404 2.65CGH-06-098 Donnelly North CHRT 217.46 848 526 322 2.63CGH-06-099 Donnelly North MZDI 30.58 1182 758 424 2.79CGH-06-099 Donnelly North MZDI 58.81 1194 764 430 2.78CGH-06-099 Donnelly North MZDI 71.20 1574 999 575 2.74CGH-06-099 Donnelly North MZDI 100.39 1171 752 419 2.79CGH-06-099 Donnelly North MZDI 130.90 1540 998 542 2.84CGH-06-099 Donnelly North MZDI 161.69 1549 1011 538 2.88CGH-06-099 Donnelly North MZDI 187.33 938 621 317 2.96CGH-06-099 Donnelly North MZDI 216.12 1395 899 496 2.81CGH-06-099 Donnelly North MZDI 244.60 1541 974 567 2.72CGH-06-099 Donnelly North MZDI 278.39 1493 949 544 2.74CGH-06-102 Donnelly North MZDI 36.28 1003 635 368 2.73CGH-06-102 Donnelly North MZDI 66.74 907 574 333 2.72CGH-06-102 Donnelly North MZDI 84.35 1139 720 419 2.72CGH-06-103 Donnelly North MZDI 30.66 1464 929 535 2.74CGH-06-103 Donnelly North MZDI 60.58 784 491 293 2.68CGH-06-103 Donnelly North MZDI 90.80 1227 774 453 2.71CGH-06-103 Donnelly North MZDI 120.54 1632 1048 584 2.79CGH-06-103 Donnelly North MZDI 152.30 967 612 355 2.72CGH-06-104 Donnelly North ANDS 54.99 998 609 389 2.57CGH-06-104 Donnelly North MZDI 86.09 1117 710 407 2.74CGH-06-104 Donnelly North MZDI 116.77 700 416 284 2.46CGH-06-104 Donnelly North MZDI 146.13 886 553 333 2.66CGH-06-104 Donnelly North MZDI 173.26 1331 843 488 2.73CGH-06-104 Donnelly North MZDI 204.92 1121 722 399 2.81CGH-06-104 Donnelly North MZDI 234.30 764 455 309 2.47CGH-06-106 Donnelly North MZDI 30.67 795 505 290 2.74CGH-06-106 Donnelly North BATF 60.85 1049 673 376 2.79CGH-06-106 Donnelly North MZDI 90.67 1588 1030 558 2.85CGH-06-106 Donnelly North MZDI 120.43 1236 794 442 2.80CGH-06-106 Donnelly North MZDI 150.75 950 611 339 2.80CGH-06-106 Donnelly North MZDI 179.56 856 542 314 2.73
Bulk Density Calculations GJ Project, 2006 Program Canadian Gold Hunter Corp.
Zone Rock Depth Volume Bulk Density g/cm3Type (meters) dry submerged [wt dry - wt submerged] [weight dry / volume]
Bulk Density Measurements, 2006 Drill Program
Hole NumberSample Weight (g)
CGH-06-106 Donnelly North CHRT 202.72 956 627 329 2.91CGH-06-112 Saddle MZDI 61.46 950 604 346 2.75CGH-06-112 Saddle MZDI 90.54 1191 765 426 2.80CGH-06-112 Saddle MZDI 122.31 1405 894 511 2.75CGH-06-112 Saddle MZDI 149.80 992 629 363 2.73CGH-06-112 Saddle MZDI 180.00 1359 874 485 2.80CGH-06-112 Saddle MZDI 205.18 1315 832 483 2.72CGH-06-114 Saddle WCKE 31.04 1107 699 408 2.71CGH-06-114 Saddle HBTF 60.04 1034 653 381 2.71CGH-06-114 Saddle MDST 92.38 1076 672 404 2.66CGH-06-114 Saddle MDST 120.52 1093 681 412 2.65CGH-06-114 Saddle MZDI 151.21 820 519 301 2.72CGH-06-114 Saddle HBTF 180.84 1294 818 476 2.72CGH-06-114 Saddle HBTF 209.83 1031 651 380 2.71CGH-06-114 Saddle MDST 242.84 1220 767 453 2.69CGH-06-115 Saddle CHRT 39.27 972 602 370 2.63CGH-06-115 Saddle MZDI 60.53 895 578 317 2.82CGH-06-115 Saddle MZDI 90.32 1216 762 454 2.68CGH-06-115 Saddle MZDI 121.09 1019 644 375 2.72CGH-06-115 Saddle MZDI 149.62 807 514 293 2.75CGH-06-115 Saddle MZDI 180.23 1543 995 548 2.82CGH-06-117 Saddle BATF 38.69 1271 816 455 2.79CGH-06-117 Saddle CHRT 60.81 1387 884 503 2.76CGH-06-117 Saddle CHRT 89.83 1043 656 387 2.70CGH-06-117 Saddle CHRT 121.34 1170 731 439 2.67CGH-06-117 Saddle MZDI 149.50 1011 634 377 2.68CGH-06-118 North BATF 27.76 1027 666 361 2.84CGH-06-118 North BATF 58.58 1079 692 387 2.79CGH-06-118 North BATF 83.55 1314 833 481 2.73CGH-06-118 North BATF 114.06 1153 733 420 2.75CGH-06-118 North BATF 136.83 980 621 359 2.73CGH-06-120 Saddle CHRT 32.06 897 564 333 2.69CGH-06-120 Saddle CHRT 63.73 857 536 321 2.67CGH-06-120 Saddle MDST 90.88 749 463 286 2.62CGH-06-120 Saddle MDST 122.20 1433 924 509 2.82CGH-06-120 Saddle CHRT 148.05 1158 717 441 2.63CGH-06-121 YT HBAS 30.95 998 625 373 2.68CGH-06-121 YT HBAS 60.69 1008 641 367 2.75CGH-06-121 YT HBAS 90.86 922 576 346 2.66CGH-06-121 YT HBAS 110.49 1198 754 444 2.70CGH-06-121 YT HBAS 140.08 1073 671 402 2.67CGH-06-121 YT HBAS 170.93 854 529 325 2.63CGH-06-121 YT HBAS 200.94 1011 637 374 2.70CGH-06-121 YT HBAS 231.77 951 599 352 2.70CGH-06-121 YT SNDS 259.87 880 541 339 2.60CGH-06-121 YT HBAS 290.55 991 611 380 2.61CGH-06-121 YT ANDS 319.92 1071 678 393 2.73CGH-06-121 YT ANDS 350.12 1268 801 467 2.72CGH-06-121 YT SNDS 380.77 1413 879 534 2.65CGH-06-124 YT DBFL 30.04 862 538 324 2.66CGH-06-124 YT DBFL 61.08 887 550 337 2.63CGH-06-124 YT DBFL 90.17 1341 843 498 2.69CGH-06-124 YT DATF 121.34 1014 634 380 2.67CGH-06-124 YT DACT 150.00 1324 840 484 2.74CGH-06-124 YT DBFL 180.13 1132 718 414 2.73CGH-06-124 YT SHAL 206.71 1143 723 420 2.72
Bulk Density Calculations GJ Project, 2006 Program Canadian Gold Hunter Corp.
Zone Rock Depth Volume Bulk Density g/cm3Type (meters) dry submerged [wt dry - wt submerged] [weight dry / volume]
Bulk Density Measurements, 2006 Drill Program
Hole NumberSample Weight (g)
CGH-06-126 Saddle DATF 29.71 878 551 327 2.69CGH-06-126 Saddle DATF 61.26 1007 629 378 2.66CGH-06-126 Saddle DATF 89.96 1304 826 478 2.73CGH-06-126 Saddle DATF 120.10 1117 700 417 2.68CGH-06-126 Saddle DATF 149.94 1419 893 526 2.70CGH-06-126 Saddle DATF 178.33 1282 808 474 2.70CGH-06-127 Donnelly North MZDI 30.64 1411 892 519 2.72CGH-06-127 Donnelly North MZDI 61.96 1237 792 445 2.78CGH-06-127 Donnelly North MZDI 91.67 1360 871 489 2.78CGH-06-127 Donnelly North MZDI 119.37 1229 816 413 2.98CGH-06-127 Donnelly North MZDI 150.09 1193 754 439 2.72CGH-06-127 Donnelly North MZDI 177.01 1242 788 454 2.74CGH-06-127 Donnelly North MZDI 211.31 1271 814 457 2.78CGH-06-127 Donnelly North MZDI 238.94 1037 662 375 2.77CGH-06-127 Donnelly North MZDI 271.60 1042 652 390 2.67CGH-06-127 Donnelly North GRST 301.93 1562 1005 557 2.80CGH-06-130 Donnelly North MZDI 33.53 1042 667 375 2.78CGH-06-130 Donnelly North MZDI 62.97 1264 807 457 2.77CGH-06-130 Donnelly North MZDI 94.09 1099 694 405 2.71CGH-06-130 Donnelly North MZDI 124.22 1376 882 494 2.79CGH-06-130 Donnelly North MZDI 155.09 1641 1070 571 2.87CGH-06-130 Donnelly North MZDI 189.32 1347 844 503 2.68CGH-06-130 Donnelly North MZDI 228.60 973 628 345 2.82CGH-06-130 Donnelly North ANDS 259.93 984 637 347 2.84CGH-06-131 Donnelly North MZDI 38.94 1262 794 468 2.70CGH-06-131 Donnelly North MZDI 52.14 743 469 274 2.71CGH-06-131 Donnelly North MZDI 120.53 947 589 358 2.65CGH-06-131 Donnelly North MZDI 150.30 1155 719 436 2.65CGH-06-131 Donnelly North CHRT 181.28 1073 683 390 2.75CGH-06-132 Donnelly North MZDI 34.75 800 505 295 2.71CGH-06-132 Donnelly North CHRT 60.52 1290 822 468 2.76CGH-06-132 Donnelly North MZDI 90.67 1188 743 445 2.67CGH-06-132 Donnelly North MZDI 120.14 1106 697 409 2.70CGH-06-133 Donnelly North OVBD 30.95 1215 801 414 2.93CGH-06-133 Donnelly North MZDI 60.54 1169 736 433 2.70CGH-06-133 Donnelly North MZDI 89.39 1083 684 399 2.71CGH-06-134 Donnelly North MZDI 30.25 1166 744 422 2.76CGH-06-134 Donnelly North MZDI 60.73 1054 669 385 2.74CGH-06-134 Donnelly North MZDI 91.06 1174 747 427 2.75CGH-06-134 Donnelly North MZDI 120.72 1131 718 413 2.74CGH-06-134 Donnelly North MZDI 149.08 1174 765 409 2.87CGH-06-134 Donnelly North MZDI 180.68 1157 741 416 2.78CGH-06-134 Donnelly North MZDI 210.19 993 629 364 2.73CGH-06-134 Donnelly North MZDI 240.45 1007 639 368 2.74CGH-06-134 Donnelly North MZDI 271.37 1007 659 348 2.89CGH-06-135 Donnelly North OVBD 29.88 859 537 322 2.67CGH-06-135 Donnelly North MZDI 60.22 1153 735 418 2.76CGH-06-135 Donnelly North SLST 90.89 1212 769 443 2.74CGH-06-135 Donnelly North SLST 121.42 1010 635 375 2.69CGH-06-135 Donnelly North CHRT 149.55 1002 635 367 2.73CGH-06-136 Donnelly North MZDI 30.18 889 570 319 2.79CGH-06-136 Donnelly North MZDI 62.04 1261 815 446 2.83CGH-06-136 Donnelly North MZDI 90.84 1355 867 488 2.78CGH-06-136 Donnelly North CHRT 120.84 1001 627 374 2.68
Bulk Density Calculations GJ Project, 2006 Program Canadian Gold Hunter Corp.
Zone Rock Depth Volume Bulk Density g/cm3Type (meters) dry submerged [wt dry - wt submerged] [weight dry / volume]
Bulk Density Measurements, 2006 Drill Program
Hole NumberSample Weight (g)
CGH-06-137 North BATF 29.93 863 546 317 2.72CGH-06-137 North PMBX 60.10 966 608 358 2.70CGH-06-137 North PMBX 89.34 1143 712 431 2.65CGH-06-137 North PMBX 121.08 901 565 336 2.68CGH-06-137 North ANDS 150.01 1078 679 399 2.70CGH-06-137 North WCKE 179.72 937 593 344 2.72CGH-06-138 Donnelly North MZDI 29.08 1368 876 492 2.78CGH-06-138 Donnelly North CHRT 60.78 1030 651 379 2.72CGH-06-138 Donnelly North CHRT 89.60 1235 768 467 2.64CGH-06-138 Donnelly North MZDI 120.23 1087 687 400 2.72CGH-06-138 Donnelly North MZDI 145.86 1005 681 324 3.10
Bulk Density Calculations GJ Project, 2006 Program Canadian Gold Hunter Corp.
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
8
APPENDIX G
2006 DRILL HOLE SURVEY DATA
(Collar and Down-the-Hole)
Hole No. Easting Northing Elevation Azimuth Dip Total Depth Az-trueNCGH-06-077 425480.08 6391099.04 1604.4 359.0 -45.0 137.16 358.0CGH-06-078 425188.74 6390843.37 1582.3 359.0 -60.0 527.30 358.0CGH-06-079 425576.96 6391111.69 1609.8 179.0 -45.0 237.74 178.0CGH-06-080 425576.97 6391116.40 1610.1 360.0 -55.0 91.44 359.0CGH-06-081 424195.08 6391006.33 1487.6 1.0 -55.0 478.53 360.0CGH-06-082 424669.03 6390891.12 1544.3 1.0 -50.0 408.43 360.0CGH-06-083 424111.42 6390944.27 1471.8 354.0 -47.0 503.21 353.0CGH-06-084 424429.69 6390859.00 1512.7 2.0 -50.0 536.45 1.0CGH-06-085 424010.29 6391070.81 1439.6 356.0 -45.0 304.80 355.0CGH-06-086 424426.84 6390708.89 1505.6 359.0 -52.0 621.79 358.0CGH-06-087 424664.29 6391572.06 1553.1 357.0 -45.0 256.03 356.0CGH-06-088 424428.79 6391691.34 1551.0 357.0 -45.0 259.08 356.0CGH-06-089 424304.37 6390757.81 1492.2 355.0 -45.0 524.26 354.0CGH-06-090 424669.26 6391409.46 1550.0 358.0 -45.0 304.80 357.0CGH-06-091 424424.68 6391384.01 1500.8 1.0 -45.0 300.23 360.0CGH-06-092 424490.98 6390996.54 1524.8 359.0 -45.0 405.38 358.0CGH-06-093 424549.43 6391386.13 1524.3 357.0 -43.0 295.66 356.0CGH-06-094 424549.29 6391386.02 1524.7 356.0 -70.0 295.66 355.0CGH-06-095 424541.79 6390707.64 1517.5 356.0 -50.0 573.02 355.0CGH-06-096 424767.30 6391403.20 1559.5 1.0 -45.0 256.03 360.0CGH-06-097 424258.61 6391400.01 1511.4 359.0 -45.0 280.42 358.0CGH-06-098 424105.58 6391463.56 1497.3 357.0 -45.0 243.84 356.0CGH-06-099 424105.53 6391463.20 1497.6 355.0 -70.0 280.42 354.0CGH-06-100 424430.86 6391264.36 1513.3 174.0 -62.0 633.98 173.0CGH-06-101 424484.70 6391189.78 1522.4 360.0 -45.0 192.02 359.0CGH-06-102 424105.92 6391461.03 1498.1 178.0 -45.0 94.49 177.0CGH-06-103 424652.09 6391497.84 1545.0 179.0 -70.0 167.64 178.0CGH-06-104 423905.26 6391266.64 1449.8 357.0 -45.0 255.33 356.0CGH-06-105 424021.94 6390892.31 1457.7 357.0 -45.0 499.87 356.0CGH-06-106 424540.96 6391174.32 1530.1 1.0 -45.0 207.26 360.0CGH-06-107 424772.76 6390745.98 1550.5 348.0 -50.0 451.10 347.0CGH-06-108 424909.77 6390920.22 1564.5 354.0 -60.0 439.42 353.0CGH-06-109 424137.03 6390753.31 1450.7 1.0 -45.0 298.70 360.0CGH-06-110 425049.71 6390886.76 1574.2 360.0 -50.0 470.92 359.0CGH-06-111 424121.67 6390598.26 1459.4 357.0 -45.0 405.38 356.0CGH-06-112 425135.90 6391752.62 1613.8 357.0 -45.0 207.26 356.0CGH-06-113 424121.92 6390594.54 1460.5 181.0 -65.0 274.32 180.0CGH-06-114 425628.61 6392168.86 1664.8 357.0 -47.0 249.94 356.0CGH-06-115 424963.62 6391857.42 1610.4 180.0 -45.0 188.98 179.0CGH-06-116 423929.58 6390656.95 1404.2 357.0 -45.0 288.95 356.0CGH-06-117 425880.63 6392120.65 1674.6 176.0 -45.0 155.45 175.0CGH-06-118 426067.93 6391624.42 1622.9 136.0 -60.0 137.16 135.0CGH-06-119 424663.65 6390471.01 1544.0 360.0 -45.0 292.61 359.0CGH-06-120 425134.90 6392361.63 1645.8 178.0 -46.0 149.35 177.0CGH-06-121 425124.45 6393154.54 1689.8 357.0 -45.0 384.05 356.0CGH-06-122 425680.34 6391082.78 1606.5 179.0 -45.0 89.92 178.0CGH-06-123 425680.23 6391087.23 1606.0 360.0 -45.0 75.29 359.0CGH-06-124 425032.41 6393550.75 1738.7 317.0 -47.0 207.26 316.0CGH-06-125 425190.14 6391314.54 1596.0 179.0 -45.0 454.76 178.0CGH-06-126 425125.88 6392849.06 1652.1 175.0 -45.0 179.83 174.0CGH-06-127 424422.36 6391253.65 1511.2 359.0 -45.0 304.80 358.0CGH-06-128 425109.59 6391241.12 1587.7 357.0 -45.0 100.58 356.0CGH-06-129 424429.87 6391126.50 1513.1 175.0 -58.0 536.45 174.0
GJ PROJECT
DRILL HOLE COLLAR SURVEY DATA, 2006 HOLES
DDH Collar Survey Data GJ Project, 2007-06-12 Canadian Gold Hunter Corp.
Hole No. Easting Northing Elevation Azimuth Dip Total Depth Az-trueNCGH-06-130 424258.98 6391396.47 1511.7 177.0 -45.0 283.46 176.0CGH-06-131 424430.98 6391486.37 1535.7 1.0 -45.0 198.12 360.0CGH-06-132 424766.54 6391535.94 1566.8 358.0 -45.0 131.06 357.0CGH-06-133 424766.61 6391532.40 1567.2 179.0 -60.0 106.68 178.0CGH-06-134 424545.08 6391282.95 1526.5 359.0 -70.0 289.56 358.0CGH-06-135 424430.49 6391586.45 1546.0 360.0 -45.0 152.40 359.0CGH-06-136 424550.01 6391493.58 1530.0 359.0 -45.0 131.06 358.0CGH-06-137 426891.84 6391611.35 1689.0 357.0 -45.0 179.83 356.0CGH-06-138 424263.87 6391529.33 1524.0 359.0 -45.0 146.30 358.0
DDH Collar Survey Data GJ Project, 2007-06-12 Canadian Gold Hunter Corp.
Hole No. Depth Azimuth Dip Az-true NCGH-06-087 0.00 357.0 -45.0 356CGH-06-087 97.54 357.4 -46.1 356.4CGH-06-087 188.98 1.3 -45.0 0.3CGH-06-087 256.03 4.0 -44.2 3CGH-06-088 0.00 357.0 -45.0 356CGH-06-088 82.30 357.4 -44.0 356.4CGH-06-088 173.74 0.9 -42.7 359.9CGH-06-088 256.03 3.5 -40.8 2.5CGH-06-090 0.00 358.0 -45.0 357CGH-06-090 97.54 357.8 -45.1 356.8CGH-06-090 188.98 2.8 -44.9 1.8CGH-06-090 280.42 5.4 -43.1 4.4CGH-06-091 0.00 1.0 -45.0 360CGH-06-091 97.54 3.3 -45.2 2.3CGH-06-091 188.98 7.8 -44.5 6.8CGH-06-091 286.51 11.3 -43.0 10.3CGH-06-093 0.00 357.0 -43.0 356CGH-06-093 97.54 357.7 -41.7 356.7CGH-06-093 188.98 0.4 -39.9 359.4CGH-06-093 280.42 3.5 -38.3 2.5CGH-06-093 295.66 3.4 -37.8 2.4CGH-06-094 0.00 356.0 -70.0 355CGH-06-094 97.54 356.0 -71.2 355CGH-06-094 188.98 0.7 -71.8 359.7CGH-06-094 295.66 5.2 -72.3 4.2CGH-06-096 0.00 1.0 -45.0 360CGH-06-096 97.54 1.4 -46.2 0.4CGH-06-096 188.98 3.8 -46.0 2.8CGH-06-096 256.03 8.4 -45.5 7.4CGH-06-097 0.00 359.0 -45.0 358CGH-06-097 100.58 0.4 -47.4 359.4CGH-06-097 188.98 4.6 -47.5 3.6CGH-06-097 280.42 8.4 -46.1 7.4CGH-06-098 0.00 357.0 -45.0 356CGH-06-098 97.54 357.6 -45.9 356.6CGH-06-098 188.98 0.4 -47.0 359.4CGH-06-098 240.79 3.5 -47.3 2.5CGH-06-099 0.00 355.0 -70.0 354.0CGH-06-099 97.54 355.9 -70.4 354.9CGH-06-099 188.98 359.6 -71.0 358.6CGH-06-099 280.42 1.5 -71.6 0.5CGH-06-102 0.00 178.0 -45.0 177CGH-06-102 91.44 178.8 -45.6 177.8CGH-06-103 0.00 179.0 -70.0 178.0CGH-06-103 97.54 180.8 -71.5 179.8CGH-06-103 167.64 183.6 -72.4 182.6
GJ PROJECTDown the Hole Survey Data
2006, Down the hole survey data GJ Project, [Date] Canadian Gold Hunter Corp.
Hole No. Depth Azimuth Dip Az-true NCGH-06-104 0.00 357.0 -45.0 356CGH-06-104 97.54 357.5 -46.1 356.5CGH-06-104 219.46 358.5 -47.2 357.5CGH-06-104 252.98 359.8 -43.6 358.8CGH-06-106 0.00 1.0 -45.0 360CGH-06-106 88.39 1.0 -43.8 360CGH-06-106 149.35 1.1 -44.7 0.1CGH-06-106 207.26 3.1 -45.2 2.1CGH-06-112 0.00 357.0 -45.0 356CGH-06-112 121.92 356.6 -47.4 355.6CGH-06-112 207.26 6.4 -46.2 5.4CGH-06-114 0.00 357.0 -47.0 356CGH-06-114 103.63 357.0 -47.2 356CGH-06-114 188.98 358.6 -47.3 357.6CGH-06-114 249.94 0.1 -47.8 359.1CGH-06-115 0.00 180.0 -45.0 179CGH-06-117 0.00 176.0 -45.0 175CGH-06-117 70.10 176.0 -46.3 175CGH-06-117 155.45 177.2 -47.1 176.2CGH-06-118 0.00 136.0 -60.0 135CGH-06-118 137.16 138.4 -61.3 137.4CGH-06-120 0.00 178.0 -46.0 177CGH-06-120 97.54 178.3 -46.9 177.3CGH-06-120 149.35 179.7 -47.1 178.7CGH-06-121 0.00 357.0 -45.0 356CGH-06-121 112.78 357.6 -47.7 356.6CGH-06-121 204.22 359.5 -48.3 358.5CGH-06-121 295.66 1.4 -49.1 0.4CGH-06-121 381.00 6.5 -49.5 5.5CGH-06-124 0.00 317.0 -47.0 316CGH-06-124 121.92 317.7 -48.7 316.7CGH-06-124 207.26 318.4 -49.9 317.4CGH-06-126 0.00 175.0 -45.0 174CGH-06-126 94.49 175.6 -47.2 174.6CGH-06-126 179.83 177.7 -48.6 176.7CGH-06-127 0.00 359.0 -45.0 358.0CGH-06-127 36.58 0.4 -46.5 359.4CGH-06-127 128.02 2.2 -47.6 1.2CGH-06-127 219.46 5.4 -48.2 4.4CGH-06-127 304.80 5.4 -47.5 4.4CGH-06-130 0.00 177.0 -45.0 176CGH-06-130 106.68 178.1 -47.7 177.1CGH-06-130 198.12 182.6 -48.4 181.6CGH-06-131 0.00 1.0 -45.0 360CGH-06-131 54.86 1.1 -43.5 0.1CGH-06-131 112.78 2.3 -43.5 1.3CGH-06-131 198.12 4.5 -44.6 3.5CGH-06-132 0.00 358.0 -45.0 357CGH-06-132 131.06 358.2 -44.5 357.2CGH-06-133 0.00 179.0 -60.0 178CGH-06-133 106.68 179.7 -60.7 178.7
2006, Down the hole survey data GJ Project, [Date] Canadian Gold Hunter Corp.
Hole No. Depth Azimuth Dip Az-true NCGH-06-134 0.00 359.0 -70.0 358.0CGH-06-134 112.78 1.3 -70.8 0.3CGH-06-134 204.22 1.6 -70.7 0.6CGH-06-134 289.56 8.0 -71.0 7CGH-06-135 0.00 360.0 -45.0 359.0CGH-06-135 82.30 0.6 -44.9 359.6CGH-06-135 152.40 2.0 -45.0 1CGH-06-136 0.00 359.0 -45.0 358.0CGH-06-136 45.72 359.4 -45.9 358.4CGH-06-136 131.06 357.7 -47.1 356.7CGH-06-137 0.00 357.0 -45.0 356.0CGH-06-137 97.54 357.6 -48.1 356.6CGH-06-137 179.22 3.4 -48.3 2.4CGH-06-138 0.00 359.0 -45.0 358.0CGH-06-138 60.96 358.0 -43.5 357.0CGH-06-138 146.30 0.1 -43.5 359.1
2006, Down the hole survey data GJ Project, [Date] Canadian Gold Hunter Corp.
Canadian Gold Hunter Corp. Kinaskan Lake Property D. Mehner, P. Geo. 6/12/2007 2006 GJ Assessment Report
9
APPENDIX H
ALS CHEMEX ANALYTICAL AND SAMPLE PREPARATION PROCEDURES
June 11, 2003 Page 1 of 1
Sample Preparation Package – PREP‐31 Standard Sample Preparation: Dry, Crush, Split and Pulverize
Sample is dried and the entire sample is crushed to better than 70% passing a 2 mm (Tyler 10 mesh) screen. A split of up to 250 grams is taken and pulverized to better than 85% passing a 75 micron (Tyler 200 mesh) screen. ALS Chemex Method Code Description
LOG‐22 Sample is logged in tracking system and a bar code label is attached.
CRU‐31 Fine crushing of rock chip and drill samples to better than 70% of the sample passing 2 mm.
SPL‐21 Split sample using riffle splitter.
PUL‐31 A sample split of up to 250 g is pulverized to better than 85% of the sample passing 75 microns.
June 19, 2003 Page 1 of 2
Geochemical Procedure ‐ ME‐ICP41 Trace Level Methods Using Conventional ICP‐AES Analysis
Sample Decomposition: Nitric Aqua Regia Digestion Analytical Method: Inductively Coupled Plasma ‐ Atomic Emission Spectroscopy (ICP ‐ AES)
A prepared sample (0.50 grams) is digested with aqua regia for at least one hour in a graphite heating block. After cooling, the resulting solution is diluted to 12.5 ml with demineralized water, mixed and analyzed by inductively coupled plasma‐atomic emission spectrometry. The analytical results are corrected for inter‐element spectral interferences.
Element
Symbol
Detection Limit
Upper Limit
Units
Aluminum* Al 0.01 15 % Antimony Sb 2 10,000 ppm Arsenic As 2 10,000 ppm Barium* Ba 10 10,000 ppm Beryllium* Be 0.5 100 ppm Bismuth Bi 2 10,000 ppm Boron* B 10 10,000 ppm ppm Cadmium Cd 0.5 500 ppm Calcium* Ca 0.01 15 % Chromium* Cr 1 10,000 ppm Cobalt Co 1 10,000 ppm Copper Cu 1 10,000 ppm Gallium* Ga 10 10,000 ppm Iron Fe 0.01 15 % Lanthanum* La 10 10,000 ppm Lead Pb 2 10,000 ppm Magnesium* Mg 0.01 15 % Manganese Mn 5 10,000 ppm Mercury Hg 1 10,000 ppm Molybdenum Mo 1 10,000 ppm
June 19, 2003 Page 2 of 2
Geochemical Procedure ‐ ME‐ICP41 Trace Level Methods Using Conventional ICP‐AES Analysis (con’t)
Element
Symbol
Detection Limit
Upper Limit
Units
Nickel Ni 1 10,000 ppm Phosphorus P 10 10,000 ppm Potassium* K 0.01 10 % Scandium* Sc 1 10,000 ppm Silver Ag 0.2 100 ppm Sodium* Na 0.01 10 % % Strontium* Sr 1 10,000 ppm Sulfur S 0.01 10 % Thallium* Tl 10 10,000 ppm Titanium* Ti 0.01 10 % Tungsten* W 10 10,000 ppm Uranium U 10 10,000 ppm Vanadium V 1 10,000 ppm Zinc Zn 2 10,000 ppm *Elements for which the digestion is possibly incomplete.
Revision 03.01 15-Mar-07 Page 1 of 1
Fire Assay Procedure – Ag-GRA21, Ag-GRA22, Au-GRA21 and Au-GRA22
Precious Metals Gravimetric Analysis Methods Sample Decomposition: Fire Assay Fusion (FA-FUSAG1,
FA-FUSAG2, FA-FUSGV1 and FA-FUSGV2)
Analytical Method: Gravimetric A prepared sample is fused with a mixture of lead oxide, sodium carbonate, borax, silica and other reagents in order to produce a lead button. The lead button containing the precious metals is cupelled to remove the lead. The remaining gold and silver bead is parted in dilute nitric acid, annealed and weighed as gold. Silver, if requested, is then determined by the difference in weights.
Method Code Element Symbol Units
Sample Weight
(g)
Detection Limit
Upper Limit
Ag-GRA21 Silver Ag ppm 30 5 10,000
Ag-GRA22 Silver Ag ppm 50 5 10,000
Au-GRA21 Gold Au ppm 30 0.05 1000
Au-GRA22 Gold Au ppm 50 0.05 1000
March 31, 2003 Page 1 of 1
Fire Assay Procedure – Au‐AA23 and Au‐AA24 Fire Assay Fusion, AAS Finish
Sample Decomposition: Fire Assay Fusion Analytical Method: Atomic Absorption Spectroscopy (AAS)
A prepared sample is fused with a mixture of lead oxide, sodium carbonate, borax, silica and other reagents as required, inquarted with 6 mg of gold‐free silver and then cupelled to yield a precious metal bead. The bead is digested in 0.5 ml dilute nitric acid in the microwave oven, 0.5 ml concentrated hydrochloric acid is then added and the bead is further digested in the microwave at a lower power setting. The digested solution is cooled, diluted to a total volume of 4 ml with de‐mineralized water, and analyzed by atomic absorption spectroscopy against matrix‐matched standards.
ALS Chemex Method Code Element Symbol
Sample Weight
Lower Reporting Limit
Upper Reporting Limit
Units
Au‐AA23 Gold Au 30 g 0.005 10.0 ppm Au‐AA24 Gold Au 50g 0.005 10.0 ppm
July 8, 2003 Page 1 of 1
Assay Procedure – ME‐AA46 Evaluation of Ores and High Grade Materials by Aqua Regia
Digestion – AAS
Sample Decomposition: Aqua Regia Digestion Analytical Method: Atomic Absorption Spectroscopy (AAS)
A prepared sample (0.4 to 2.00 grams) is digested with concentrated nitric acid for one half hour. After cooling, hydrochloric acid is added to produce aqua regia and the mixture is then digested for an additional hour and a half. An ionization suppressant is added if molybdenum is to be measured. The resulting solution is diluted to volume (100 or 250 ml) with demineralized water, mixed and then analyzed by atomic absorption spectrometry against matrix‐matched standards.
ALS Chemex Method Code
Element
Symbol
Detection Limit
Upper Limit
Units
As‐AA46 Arsenic As 0.01 30 % Bi‐AA46 Bismuth Bi 0.001 30 % Cd‐AA46 Cadmium Cd 0.001 10 % Co‐AA46 Cobalt Co 0.01 50 % Cu‐AA46 Copper Cu 0.01 50 % Fe‐AA46 Iron Fe 0.01 30 % Pb‐AA46 Lead Pb 0.01 30 % Mo‐AA46 Molybdenum Mo 0.001 10 % Mn‐AA46 Manganese Mn 0.01 50 % Ni‐AA46 Nickel Ni 0.01 50 % Ag‐AA46 Silver Ag 1 1500 ppmZn‐AA46 Zinc Zn 0.01 30 %
Cu-AA05 (rev03.00).doc Revision: 3.00 November 22, 2004 Page 1 of 1
Assay Procedure – Cu-AA05 Determination of Oxidized Non-Sulphide Copper by AAS Analysis
Sample Decomposition: 5% H2SO4 Analytical Method: Atomic Absorption Spectroscopy (AAS)
Sample is Leached with 5% sulphuric acid at room temperature and then agitated regularly in a shaker for an hour. The solution is then filtered off into 100ml flask and the residue is washed well with water. The filtrate is diluted to volume and mixed. The sample solution is aspirated into an air-acetylene flame of an atomic absorption spectrophotometer. Spectral energy at approximately 3247.5 Ao from a Cu hollow-cathode lamp is passed through the flame. The absorbance is measured and compared with the absorbance of a series of known copper concentrations. ALS Chemex Method Code
Element
Symbol
Detection Limit
Upper Limit
Units
Cu-AA05 Copper Cu 0.001 10 %
Deleted: Cu-AA05 (rev03.00)
Deleted: Cu-AA05 (rev03.00).doc
1550
1580
1620
160
0
159
0
1650
1630
16
30
1560
1530
1550
1540
1520
1570
1570
15
60
16
10
1590
1590
1660
1670
143
01360
1350
1370
14
1420
161
0
144
0
1470
1520
1600
1540
157011550
1530
1580
1590
1480
1400
1410
1450
1460
1500
1510
1540
1560
1370
1380
1400
1420
10
143
0
1450
146
0
15
20
1430
1440
1460
1570
154
0
1520
15
60
15
10
1580
1640
1610
1530
1480
1500
1490
1550
1530
15
80
1620
161
0
1600
1460
1470
1510
1500
1550
15
90
1650
1640
1630
1660
1540
1580
1570
1560
1600
1580
16
00
1590
1610
15
70
14301390
141
0
14
20
14
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14
70
1490
14
50
14
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147
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1490
157
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15
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15
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159
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155
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1530
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1570
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157
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1600
156
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148
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15
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1530
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15
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1540
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15
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1540
1510
152
0
15
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15
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1520
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16
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1610
1530
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14
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1430
14
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144
0
14
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basalt
basalt
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chert
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dior
chert
chert
basalt
GROAT STOCK
chert
chert
chert
chert
chert
basalt
chert
chert
chert
chert
chert
chert
basalt
chert,qtzite
chertbasalt
chert
chert
chert
chert
qtzite(chert?)
chert
chert
GROAT STOCK
chert
chert
chert
monzodi
sandst?(wcke?)
chert
monzodi
sltst
wcke
chert
chert
wcke
chert
chert
chert
diorite
wckesltstchert
basalt
wcke
wcke
Hazelton seds
sltstHazelton seds,tuffs
chert
chert
chert
chert
hbe diorite
chert
chert
chert
chert
o/c fault
chert
chert(HFP)monzodi
hbe
chert
chert
chert
chert
chert
chert
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(HFP)
basalt
chert
diorite
monzodi
sltst
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sltst
sltst
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sltst
silst,fg wcke
chert
dacite intr?
(HFP)hbe monz
sltst
sltst
bhe monzodo dyke
(HFP)hbe monzo dyke
cherty silst
chert
chert
GROAT STOCK
sil wcke
wcke
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diorite
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sltst
wk stwk
sltst
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basalt
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mt-py skarnskarn
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basalt
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sltst
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at D
ior
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parallel to corecarb fracts
wckesltst,chert,
Hazelton sediments,tuffs.Bx,debris flows
Hazelton basaltic volcanics, breccias
wcke wcke
conglomerate
basalt?
wcke
basalt
basalt
wcke,sltst
sltst,mudst
tuff,basalt,ash
sltst,wcke
sltst,wcke
basalt
HFP
mudst,sltst,wcke
(HFP?)dior
HFP
QV
HFP
HFP?
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FP
basalt
basalt
basalt
basalt,tuff
basalt
basalt
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HFP
HFP
HFP
basalt
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basalt
monz
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Hazelton volc bx
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stwk
andesiteFP
andesiteFP
dykes,flows
Hazelton volc bx,
basalt
basalt
basalt
basalt
micro di ?
py
stwk
py
py
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sltstHazelton volcs
Hazelton dacite
dacite
Hazelton seds
surface fault
Hazelton seds
coverHazeltonbelow
Hazelton seds
basalt
basalt
basalt
basaltsltst
Hazelton
andesite
basalt
basalt
basalt
sltstsltst
surface fault
Ankerite Creek
andesite
dacite tuff
andesite dykes
basalt
debris flow
surface fault
basalt
debris flow
seds,sltst
andesite
DONNELLY
GJ
Fig.
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Scale:
Date: NTS: 104G/9,16
BRITISH COLUMBIA, CANADA
BCGS: 104G069,70,79,80,901:2500
Mar. 2007
DONNELLY-GJ AREAGEOLOGY
Projection & Datum: UTM Zone 9, NAD83Topographic Contour Interval = 2m
Soil Sample
Rock Sample
Soil/Rock Interface Sample(results in bold typeface)
Canadian Gold Hunter (2004)Canadian Gold Hunter (2005)Canadian Gold Hunter (2006)
Amoco DDH (1970,71)
Texasgulf DDH (1977,80)
LEGEND
Claim Boundary
Road
Trench
Canorex DDH (1981)
(Note: 2004 data in red)
Ascot DDH (1990)
4
(
3
2
)
B
&!
(8
0 250 m
Groat Stock - Diorite, Monzodiorite,
Hornblende Diorite, Monzodiorite,
Chert, Siliceous Siltstone, minor
(locally calcareous)
Mudstone, Siltstone, Wacke
dikes; Basaltic breccia and tuffs
Pyroxene-phyric Basalt flows and
conglomerate, debris flow, tuff
Mudstone, siltstone, sandstone,
UPPER TRIASSIC - LOWER JURASSIC INTRUSIVES
(Unconformity)
Basalt flows
Dacite lapilli tuffs
Andesite flows and dikes
GEOLOGY LEGEND
LOWER JURASSIC - HAZELTON GROUP
UPPER TRIASSIC - STUHINI GROUP
Bedding
Fault
Geological Contact
Wacke
Outcrop
Monzonite
Granodiorite
"Higher Grade" Material
"Lower Grade" Material
Ground Magnetics Contours
6.2.1
1500
1600
!!
!!
!!
!!
D
!!
12
80
0E
12
40
0E
12
60
0E
12
20
0E
12
40
0E
12
60
0E
12
80
0E
13
20
0E
13
20
0E
13
00
0E
9000N
10600N
10400N
10200N
10000N
9800N
9600N
9400N
10800N
8000N
8800N
12000N
11800N
11600N
11400N
11200N
11000N
9200N
10
60
0E
10
70
0E
12
20
0E
12
00
0E
11
80
0E
11
60
0E
11
30
0E
11
10
0E
10
90
0E
12
00
0E
11
00
0E
10
40
0E
10
60
0E
10
80
0E
11
20
0E
11
40
0E
11
60
0E
11
80
0E
8200N
10
50
0E
10
40
0E
10
80
0E
13000N
12800N
12600N
13200N
10
00
0E
96
00
E
92
00
E
94
00
E
90
00
E
12600N
95
00
E
10
30
0E
99
00
E
10
10
0E
10
20
0E
98
00
E
96
00
E
97
00
E
80
00
E
92
60
E
92
00
E
90
00
E
88
00
E
85
00
E
84
00
E
82
00
E
93
50
E
91
50
E
92
30
E
9800N
10400N
10200N
85
00
E
98
00
E
10
05
0E
87
50
E
10600N
9400N
9600N
12400N
8600N
11000N
12200N
12400N
12200N
12000N
11800N
11600N
11400N
11200N
8400N
9000N
8800N
82
00
E
84
00
E
86
00
E
88
00
E
10
20
0E
79
25
E
9000N
10600N
10400N
10200N
10000N
9800N
9600N
9400N
9200N
89
50
E
91
05
E
93
50
E
76
00
E
74
00
E
78
00
E
10800N
90
50
E
91
05
E
74
00
E
76
00
E
78
00
E
11400N
11200N
11000N
137
118
117
12380
114
122
79
77
126
120
121
115
124
125
78
112
128
110
108
87
133
132
96
107
82
103
90
119
95
93
134
106
94
136
92
101
86
84
100
129
109
111
89
81
113
83
85
105
116
88
135
131
91
127
130
138
97
98
99
102
104
6389000 mN
4290
00 m
E
4270
00 m
E
4280
00 m
E42
8000
mE
4290
00 m
E
6393000 mN
4270
00 m
E
4260
00 m
E42
6000
mE
6394000 mN
6391000 mN
6392000 mN
6393000 mN
4240
00 m
E
4230
00 m
E42
3000
mE
4240
00 m
E
6392000 mN
6394000 mN
6390000 mN
4250
00 m
E42
5000
mE
6391000 mN
6390000 mN
6389000 mN
DONNELLY
GJ
WOLF WEST
SUN
NORTH ZONE
YT
Fig.
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Scale:
Date: NTS: 104G/9,16
BRITISH COLUMBIA, CANADA
BCGS: 104G069,70,79,80,90500 m0 1:7500
Mar. 2007
GJ-Donnelly-North AreaProjection & Datum: UTM Zone 9, NAD83
Topographic Contour Interval = 20m
GEOPHYSICS - TOTAL MAGNETICS
(113
Claim Boundary
Road
Canadian Gold Hunter 2006Drill Hole with ID (prefix= CGH-06-)
6.4.2
LEGEND
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Dark olive green to black; typically clinopyroxene
& wacke beds; locally limestone olistoliths; varies
interbedded mudstone to siltstone beds, typically
argillites to siltstones; includes minor interbedded
Fine to medium grained volcanic wackes & lithic
siltstone & basaltic tuff horizons; varies from
wackes; includes minor interbedded argillite,
and monzodiorite intrusives.
variety of Stuhinni sediments, basalt volcanics
sub-angular to sub-rounded fragments include a
breccias; includes coarse sandstone interbeds;
Polymictic, pebble to cobble conglomerates and
Fine to medium grained basaltic tuff, lapilli tuff
phyric; includes flows, flow top breccias,
volcanic wackes, lithic wackes, basaltic tuffs &
quartzite; includes minor chert pebble breccias,
likely related to "slumping"
leucocratic interbbed tuffs and crystal tuffs of
recrystallized into fine to medium grained
<= 1cm thick are common; cherts may be
White to black, massive to thinly bedded;
breccia and debris flow textures are common
calcareous and "skarn" altered sections; slump
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
flow textures are common; includes minor,
calcareous beds; intervals are often silicified
Red brown, tan, light grey to pale green silty
from massive to thinly bedded units; graded
irregular high-level plugs and dykes
Very fine to medium grained, hornblende phyric
phyric phases; likely represents intense K-spar
Black, massive to thinly bedded, fissile shales
& lahars); Material consists of green to maroon
latite to monzonite; typically pale pink, tan to
Medium grained syenite; includes hornblende
commonly leached & replaced by carbonate
pale green coloured; hornblende crystals
to pebbly sandstone
Poorly sorted volcanic (andesitic) sandstone
coloured, plagioclase-hornblende porphyritic,
Late stage, equigranular, medium grained,
UNCONFORMITY
flows and high-level intrusives
equigranular and hornblende+-plagioclase
Andesite to microdiorite dykes; includes
andesite flows and tuffs
Leucocratic, equigranular, medium grained diorite
Debris flows (includes hot & cold slump breccias
Cream coloured dacite; includes undifferentiated
phyric varieties
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
Equigranular & plagioclase+-hornblende phyric
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
calc
ula
ted
%cp
y
calc
ula
ted
%p
y
Chert pebble conglomerates and dark grey
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
UNCONFORMITY
UNCONFORMITY
least two different rock types
includes strongly fractured, shattered, microbrecciated,
mislatch, grinding, etc.
to black siltstones to mudstones
unconsolidated glacial till & alluvium
GEOLOGY LEGEND
Ro
ck T
yp
e
Str
uct
ure
XXXXX.XX X.XX
DRILL HOLE LEGEND
crackle brecciated and brecciated intervals
Fault Zone
CASE
LOST
FAUL
Brecciated Zone
Hydrothermal & Intrusive (injection)
Breccias
includes faults, shears & crushed intervals
X.XX
STRUCTURE LEGEND
Overburden; includes rubble and
MIDDLE JURASSIC BOWSER LAKE GROUP SEDIMENTS
un
ityN
P :
MP
A
Ro
ck T
yp
e C
od
e
Dacite lapilli tuffs
LOWER JURASSIC VOLCANICS
LDIO
ANDS
OVBD
BOWR
DACT
DATF
MDRT
DBFL
SNDS
SHAL
RECENT
PO
ST
MIN
ER
AL
IZA
TIO
N
to leucocratic monzonite. Often occurs as a
alteration of monzonite; locally occurs as fine
Medium grained, plagioclase phyric, mesocratic
possible latite composition
Equigranular, medium grained, mesocratic
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
mafic, hornblende diorite
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
monzodiorite; includes minor diorite phases; is
hornblende &/or biotite bearing
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
bedding is common
"crowded porphyry"
Limestone beds
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
MONZ
MDIO
HSYN
QTMZ
PMNZ
MZDI
DIOR
grained dykelets
CHRT
SLST
LMST
PMBX
WCKE
PBAS
BATF
MIN
ER
AL
IZE
D Z
ON
E
6391300mN
6391400mN
6391500mN
6391700mN
6391600mN
6391800mN
6391900mN
6392000mN
1500m Elev.
1600m Elev.
1400m Elev.
1200m Elev.
1300m Elev.
1100m Elev.
6391200mN
CGH-06-104255.3m0.
020.
040.
020.
020.
02
0.10
7
0.04
6
0.04
5
0.04
1
0.05
2
0.14
1
0.03
9
0.02
4
0.01
5
0.00
5
0.01
2
0.04
0.08
0.12
0.09
0.12
0.13
0.16
0.44
0.25
0.06
6
0.06
1
0.03
7
0.05
3
0.08
2
0.05
0.35
8
0.12
6
0.25
1
0.12
2
0.16
0.12
0.07
0.07
0.15
0.30.
55
0.3
0.1
0.02
50.
029
0.02
8
0.04
4
0.11
4
0.08
30.
024
CHRT
FAUL
0.14
0.04
0.15
MZD
I
0.130.
160.17
DACT
0.88
0.18
0.06
0.64
0.34
0.34
0.66
0.53
0.51
0.24
0.92
0.28
0.19
0.3
0.29
0.18
0.12
0.11
0.21
0.16
0.06
MZD
I
0.07
0.32
0.28
1
0.29
0.20
6
0.11
3
0.33
2
0.18
6
0.04
4
0.14
5
0.33
5
0.22
9
0.20
7
0.17
7
0.14
8
0.15
9
0.07
0.27
0.20
2
0.06
2
0.04
0.12
6
0.03
9
0.02
1
0.06
1
0.04
9
0.01
8
0.06
6
0.05
4
0.06
0.05
4
CGH-0
6-10
4
0.02
3
0.02
2
0.02
1
0.12
0.08
0.09
0.06
0.00
9
0.00
3
0.07
6
0.08
0.11
0.09
0.08
0.09
0.13
0.06
0.08
SNDS
FAUL
0.01
DATF
0.02
0.06
0.01
0.02
SNDS
ANDS
OVBD
SNDS
1460
1450
1450
) CGH-06-104255.3m
CGH-06-104
Fig.
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Scale:
Date: NTS: 104G/9,16
BRITISH COLUMBIA, CANADA
BCGS: 104G069,70,79,80,90
0 100 m
DONNELLY NORTH ZONE
CROSS-SECTION 423910 E
1:1000
Mar. 2007
(LOOKING WEST)
interbedded mudstone, siltstone & volcanic ash
layers are typically <= 1cm thick; cherts may be
recrystallized into fine to medium grained quartzite;
includes minor chert pebble (slump ?) breccias
Massive to thinly bedded; black; minor interbedded
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Fine to medium grained volcanic wackes & lithic
& wacke beds; locally limestone olistoliths; varies
Dark olive green to black; typically clinopyroxene
argillites to siltstones; includes minor interbedded
volcanic wackes, lithic wackes, basaltic tuffs &
Polymictic, pebble to cobble conglomerates and
sub-angular to sub-rounded fragments include a
variety of Stuhinni sediments, basalt volcanics
Very fine to medium grained, hornblende phyric
hornblende crystals; late alteration phase of MZDI
Debris flows (includes hot & cold slump breccias
& lahars); Material consists of green to maroon
Undifferentiated flows, dykes, sills and tuffs;
coloured, plagioclase-hornblende porphyritic,
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
UNCONFORMITY
Black, massive to thinly bedded, fissile shales
with minor siltstone and fine sandstone intervals
Fine to coarse grained, generally poorly sorted
volcanic sandstone to pebbly sandstone;
includes massive wacke intervals
siltstone and fine sandstone matrix
Heterolithic pebble conglomerate; dark shale,
Late stage, equigranular, medium grained,
Undifferentiated flows and high-level intrusives
Leucocratic, equigranular, medium grained diorite
Dacite tuffs, lapilli tuffs & tuff breccias;
Undifferentiated flows, dykes, sills and tuffs;
phyric varieties
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
microbrecciated, crackle brecciated and brecciated intervals
DRILL HOLE LEGEND
Ro
ck T
yp
e C
od
e
Fine to medium grained basaltic tuff, lapilli tuff
Medium grained, plagioclase phyric, mesocratic
leucocratic interbbed tuffs and crystal tuffs of
breccias; includes coarse sandstone interbeds;
phyric phases; likely represents intense K-spar
calcareous and "skarn" altered sections; slump
breccia and debris flow textures are common
White to black, massive to thinly bedded;
aphanitic groundmass; 10-15%, 1-2mm altered
monzodiorite; includes minor diorite phases; is
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
Equigranular, medium grained, mesocratic
hornblende &/or biotite bearing
siltstone & basaltic tuff horizons; varies from
non mineralized monzodiorite to diorite;
postdates most copper mineralization
Groat Stock; fine to medium grained, weak to
latite to monzonite; typically pale pink, tan to
pale green coloured; hornblende crystals
commonly leached & replaced by carbonate;
Medium grained syenite; includes hornblende
alteration of monzonite; locally occurs as fine
grained dykelets; alteration phase of MZDI
Hornblende-feldspar porphyry; fine grained to
to leucocratic, "crowded porphyry" monzonite;
calcareous beds; intervals are often silicified
coarse sandstone or chert (< 5cm) beds
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
Red brown, tan, light grey to pale green silty
possible latite composition
phyric; includes flows, flow top breccias,
irregular high-level plugs and dykes
from massive to thinly bedded units; graded
wackes; includes minor interbedded argillite,
flow textures are common; includes minor,
and monzodiorite intrusives.
alteration phase of MZDI
bedding is common
DIOR
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
includes crudely reworked equivalents
typically plagioclase +- hornblende phyric
Andesite to microdiorite dykes; includes
equigranular and hornblende+-plagioclase
STRUCTURE LEGEND
Fault Zone: includes faults, shears & crushed intervals
Brecciated Zone: includes strongly fractured, shattered,
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
ASSAY LEGEND
assay color codes
GEOLOGY LEGEND
CASE
mislatch, grinding, etc.
Hydrothermal & Intrusive (injection) Breccias
> 0.50
0.30 - 0.50
0.20 - 0.30
0.10 - 0.20
0.05 - 0.10
< 0.05
Cu
(%
)
X.XXXXXXX
Ro
ck T
yp
e
Str
uct
ure
Overburden; includes rubble and
LOWER JURASSIC VOLCANICS
RECENT
unconsolidated glacial till & alluvium
least two different rock types
LDIO
X.XX
Au
(g
/t)
OVBD
FAUL
DACT
LOST
DATF
ANDS
MDRT
MONZ
alteration phase of MZDI
HBPO
HSYN
QTMZ
PMNZ
GRST
PMBX
MDST
WCKE
BATF
CHRT
SLST
MZDI
PBAS
MIN
ER
AL
IZE
D Z
ON
E
mafic, hornblende diorite
typically amygdaloidal
MDIO
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
DBFL
SNDS
SHAL
CONG
HBAS
CHER Chert
PO
ST
MIN
ER
AL
IZA
TIO
N
8.3.1
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Dark olive green to black; typically clinopyroxene
& wacke beds; locally limestone olistoliths; varies
interbedded mudstone to siltstone beds, typically
argillites to siltstones; includes minor interbedded
Fine to medium grained volcanic wackes & lithic
siltstone & basaltic tuff horizons; varies from
wackes; includes minor interbedded argillite,
and monzodiorite intrusives.
variety of Stuhinni sediments, basalt volcanics
sub-angular to sub-rounded fragments include a
breccias; includes coarse sandstone interbeds;
Polymictic, pebble to cobble conglomerates and
Fine to medium grained basaltic tuff, lapilli tuff
phyric; includes flows, flow top breccias,
volcanic wackes, lithic wackes, basaltic tuffs &
quartzite; includes minor chert pebble breccias,
likely related to "slumping"
leucocratic interbbed tuffs and crystal tuffs of
recrystallized into fine to medium grained
<= 1cm thick are common; cherts may be
White to black, massive to thinly bedded;
breccia and debris flow textures are common
calcareous and "skarn" altered sections; slump
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
flow textures are common; includes minor,
calcareous beds; intervals are often silicified
Red brown, tan, light grey to pale green silty
from massive to thinly bedded units; graded
irregular high-level plugs and dykes
Very fine to medium grained, hornblende phyric
phyric phases; likely represents intense K-spar
Black, massive to thinly bedded, fissile shales
& lahars); Material consists of green to maroon
latite to monzonite; typically pale pink, tan to
Medium grained syenite; includes hornblende
commonly leached & replaced by carbonate
pale green coloured; hornblende crystals
to pebbly sandstone
Poorly sorted volcanic (andesitic) sandstone
coloured, plagioclase-hornblende porphyritic,
Late stage, equigranular, medium grained,
UNCONFORMITY
flows and high-level intrusives
equigranular and hornblende+-plagioclase
Andesite to microdiorite dykes; includes
andesite flows and tuffs
Leucocratic, equigranular, medium grained diorite
Debris flows (includes hot & cold slump breccias
Cream coloured dacite; includes undifferentiated
phyric varieties
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
Equigranular & plagioclase+-hornblende phyric
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
calc
ula
ted
%cp
y
calc
ula
ted
%p
y
Chert pebble conglomerates and dark grey
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
UNCONFORMITY
UNCONFORMITY
least two different rock types
includes strongly fractured, shattered, microbrecciated,
mislatch, grinding, etc.
to black siltstones to mudstones
unconsolidated glacial till & alluvium
GEOLOGY LEGEND
Ro
ck T
yp
e
Str
uct
ure
XXXXX.XX X.XX
DRILL HOLE LEGEND
crackle brecciated and brecciated intervals
Fault Zone
CASE
LOST
FAUL
Brecciated Zone
Hydrothermal & Intrusive (injection)
Breccias
includes faults, shears & crushed intervals
X.XX
STRUCTURE LEGEND
Overburden; includes rubble and
MIDDLE JURASSIC BOWSER LAKE GROUP SEDIMENTS
un
ityN
P :
MP
A
Ro
ck T
yp
e C
od
e
Dacite lapilli tuffs
LOWER JURASSIC VOLCANICS
LDIO
ANDS
OVBD
BOWR
DACT
DATF
MDRT
DBFL
SNDS
SHAL
RECENT
PO
ST
MIN
ER
AL
IZA
TIO
N
to leucocratic monzonite. Often occurs as a
alteration of monzonite; locally occurs as fine
Medium grained, plagioclase phyric, mesocratic
possible latite composition
Equigranular, medium grained, mesocratic
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
mafic, hornblende diorite
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
monzodiorite; includes minor diorite phases; is
hornblende &/or biotite bearing
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
bedding is common
"crowded porphyry"
Limestone beds
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
MONZ
MDIO
HSYN
QTMZ
PMNZ
MZDI
DIOR
grained dykelets
CHRT
SLST
LMST
PMBX
WCKE
PBAS
BATF
MIN
ER
AL
IZE
D Z
ON
E
6391300mN
6391400mN
6391500mN
6391700mN
6391600mN
6391800mN
6391900mN
6392000mN
1500m Elev.
1600m Elev.
1400m Elev.
1200m Elev.
1300m Elev.
1100m Elev.
6391200mN
CHRT
0.04
40.13
0.11
80.13
0.04
1
0.11
0.08
7
MZDI
0.0
0.11
6
0.08
1
0.19
4
CHRT
0.07
0.15
0.1
0.12
0.04
0.06
0.17
7
0.11
1
0.11
6
0.28
30.31
3
0.29
4
0.23
2
0.05
0.15
0.11
0.06
0.08
0.1
0.09
0.21
0.11
0.32
0.26
90.30
90.25
4
0.27
2
0.06
0.16
7
0.03
4
0.02
0.02
5
0.04
30.03
50.05
0.05
6
0.05
CGH-06-098242.3m
CGH-06-099280.4m
0.1010.201
0.063
0.1420.058
0.059
0.0410.031
0.065
0.07
0.041
0.035
0.054
0.044
0.07
ANDS
MZDI
0.1
CHRT
MZDI
0.23
0.38
0.21
0.568
0.228
0.093
0.211
0.566
0.708
0.126
0.175
0.173
0.148
0.036
0.0470.64
0.19
0.01
0.178
0.306
0.147
0.1
0.14
0.07
0.08
0.2
1.29
0.17
0.43
0.11MZDI
0.01
0.11
0.1
0.17
MONZ
0.43
0.31
0.24
0.29
0.58
0.26
0.12
0.38
0.45
0.23
0.43
0.26
0.06
0.08
0.06
0.06
0.05
0.06
0.07
0.11
0.07
0.07
0.08
0.05
0.08
0.25
0.27
0.31
0.21
0.09
0.05
0.176
0.168
0.143
0.157
0.41
0.251
0.225
0.168
0.252
0.358
0.27
MZD
I
0.27
0.051
0.036
0.182
0.397
0.334
0.29
0.351
0.589
0.405
0.456
0.439
0.307
0.476
0.406
0.174
0.242
1.45
0.310.17
0.3
0.39
1.53
1.5
0.2260.199
0.326
MZDI
0.53
0.037
0.072
0.183
0.45
0.54
0.21
0.19
0.22
0.192
0.213
0.09
0.85
0.58
1.11
1.16
0.64
0.56
0.66
0.33
0.47
0.89
0.05
0.03
9
0.03
9
0.02
9
0.03
7
0.05
60.11
6
0.16
4
0.16
5
0.18
6
0.19
1
0.15
2
0.17
1
0.23
3
0.23
0.26
1
0.026
0.06
0.129
0.051
0.051
0.05
1
0.05
3
0.04
3
0.08
5
0.09
4
0.08
0.05
7
0.08
2
0.08
5
0.14
6
0.053
0.03
0.026
0.096
0.048
CGH-0
6-10
2
CGH-0
6-09
8
CGH-0
6-09
9
CGH-06-10294.5m
0.2
0.28
0.31
0.46
0.08
0.12
0.1
0.15
0.23
0.026
0.057
0.048
0.045
0.022
0.11
0.1
0.06
0.03
0.17
0.13
0.1
0.17
0.23
0.1
0.11
0.12
0.08
0.08
0.008
0.036
0.3920.3310.234
0.16
0.05
0.04
0.16
0.05
0.09
0.250.130.15
DATFSNDS
0.115
0.052
0.0540.009
0.0650.019
0.03
0.030.070.020.15
0.05
0.020.0120.0080.097
SNDS
MZD
I
FAUL
MZDI
SLSTMZDI
0.040.039
0.04
0.041
0.04
0.05
0.0780.0460.070.256
0.014
CHRT
0.36
0.06
0.17
0.23
0.34
0.53
0.12
0.2
0.21
0.48
0.31
MZDI
0.23
0.6
0.33
0.33
0.26
0.58
0.08
0.22
0.21
0.39
0.11
0.14
0.13
0.09
0.08
0.06
0.06
0.09
0.08
0.11
SNDS
SHAL
MDRT
SHAL
SHAL
SHAL
MDRT
0.01
0.01
0.01
0.02
0.01
0.01
0.01
WCKE
SNDS
SNDS
MDRT
ANDS
0.01
0.01
PMBXM
DRTPM
BX
0.36
PMNZ
0.21
0.25
0.13
0.35
0.43
0.26
CGH-05-047258.2m
0.11
9
0.13
50.
115
0.17
9
CGH-06-083503.2m
CHR
T0.
199
0.17
50.12
6
0.32
10.
239
0.33
6
CHR
TM
ZDI
0.22
0.2
0.11
0.14
0.00
70.00
70.
008
0.03
CGH-0
5-04
7
0.34
10.
009
0.29
50.
374
0.36
8
0.16
80.
209
0.17
4
0.01
60.
085
0.39
10.
141
0.00
8
0.04
30.
017
0.01
30.
008
0.38
1
0.02
40.
016
0.02
10.
015
0.02
60.03
20.
036
0.01
90.
051
0.05
40.
039
SNDS
0.35
80.
216
0.18
90.
250.
226
0.15
1
0.08
4
0.29
50.
082
0.04
10.
147
0.00
80.
007
0.00
40.
005
0.22
6
0.31
0.56
30.
318
0.28
2
0.04
5
0.24
0.43
0.12
0.1
0.19
10.
264
0.42
20.
196
0.45
2
0.61
0.71
80.
429
0.43
8
0.50
90.62
10.45
80.
354
0.75
2
0.31
0.65
4
0.02
0.02
50.
099
0.03
0.00
7
0.00
8
0.03
1
0.00
5
0.01
5
0.03
8
0.05
6
0.04
2
0.03
2
0.05
3
0.02
0.03
1
0.02
5
0.03
1
0.09
6
0.01
1
0.03
5
0.05
8
0.05
6
.019
0.2
0.060.030.030.02
0.05
0.090.040.070.08
OVBD
OVBD
OVBD
0.110.560.030.0580.089
0.30.
420.27
0.51
0.14
0.26
0.31
0.41
0.16
0.1
0.26
0.23
0.2
0.18
0.30.
44
0.21
0.08
0.48
0.91
0.27
0.56
0.36
0.2
0.22
MZD
I
0.23
0.43
0.51
0.36
DBFL
0.34
0.01
0.01
0.01
0.08
0.33
0.2
0.27
1.2
SNDS
0.01
0.04
0.05
0.07
0.01
0.07
0.05
0.09
0.07
0.05
DATF
0.05
5
0.17
0.06
4
DBFL
MO
NZ
0.13
0.65
0.34
0.17
0.11
FAUL
0.01
LDIO
0.01
0.04
0.02
0.01
0.8
SNDS
0.01
0.01
0.01
0.03
0.01
0.01
0.01
0.01
0.01
CASE
LDIO
0.01
1490
1500
1490
1460
1470
)
)))CGH-06-099280.4m
CGH-06-098242.3m
CGH-06-083503.2m
CGH-05-047258.2m
CGH-06-10294.5m
CGH-05-076392.0m
CGH-06-099CGH-06-102
CGH-06-098CGH-05-047
Fig.
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Scale:
Date: NTS: 104G/9,16
BRITISH COLUMBIA, CANADA
BCGS: 104G069,70,79,80,90
0 100 m
DONNELLY NORTH ZONE
CROSS-SECTION 424110 E
1:1000
Mar. 2007
(LOOKING WEST)
interbedded mudstone, siltstone & volcanic ash
layers are typically <= 1cm thick; cherts may be
recrystallized into fine to medium grained quartzite;
includes minor chert pebble (slump ?) breccias
Massive to thinly bedded; black; minor interbedded
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Fine to medium grained volcanic wackes & lithic
& wacke beds; locally limestone olistoliths; varies
Dark olive green to black; typically clinopyroxene
argillites to siltstones; includes minor interbedded
volcanic wackes, lithic wackes, basaltic tuffs &
Polymictic, pebble to cobble conglomerates and
sub-angular to sub-rounded fragments include a
variety of Stuhinni sediments, basalt volcanics
Very fine to medium grained, hornblende phyric
hornblende crystals; late alteration phase of MZDI
Debris flows (includes hot & cold slump breccias
& lahars); Material consists of green to maroon
Undifferentiated flows, dykes, sills and tuffs;
coloured, plagioclase-hornblende porphyritic,
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
UNCONFORMITY
Black, massive to thinly bedded, fissile shales
with minor siltstone and fine sandstone intervals
Fine to coarse grained, generally poorly sorted
volcanic sandstone to pebbly sandstone;
includes massive wacke intervals
siltstone and fine sandstone matrix
Heterolithic pebble conglomerate; dark shale,
Late stage, equigranular, medium grained,
Undifferentiated flows and high-level intrusives
Leucocratic, equigranular, medium grained diorite
Dacite tuffs, lapilli tuffs & tuff breccias;
Undifferentiated flows, dykes, sills and tuffs;
phyric varieties
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
microbrecciated, crackle brecciated and brecciated intervals
DRILL HOLE LEGEND
Ro
ck T
yp
e C
od
e
Fine to medium grained basaltic tuff, lapilli tuff
Medium grained, plagioclase phyric, mesocratic
leucocratic interbbed tuffs and crystal tuffs of
breccias; includes coarse sandstone interbeds;
phyric phases; likely represents intense K-spar
calcareous and "skarn" altered sections; slump
breccia and debris flow textures are common
White to black, massive to thinly bedded;
aphanitic groundmass; 10-15%, 1-2mm altered
monzodiorite; includes minor diorite phases; is
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
Equigranular, medium grained, mesocratic
hornblende &/or biotite bearing
siltstone & basaltic tuff horizons; varies from
non mineralized monzodiorite to diorite;
postdates most copper mineralization
Groat Stock; fine to medium grained, weak to
latite to monzonite; typically pale pink, tan to
pale green coloured; hornblende crystals
commonly leached & replaced by carbonate;
Medium grained syenite; includes hornblende
alteration of monzonite; locally occurs as fine
grained dykelets; alteration phase of MZDI
Hornblende-feldspar porphyry; fine grained to
to leucocratic, "crowded porphyry" monzonite;
calcareous beds; intervals are often silicified
coarse sandstone or chert (< 5cm) beds
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
Red brown, tan, light grey to pale green silty
possible latite composition
phyric; includes flows, flow top breccias,
irregular high-level plugs and dykes
from massive to thinly bedded units; graded
wackes; includes minor interbedded argillite,
flow textures are common; includes minor,
and monzodiorite intrusives.
alteration phase of MZDI
bedding is common
DIOR
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
includes crudely reworked equivalents
typically plagioclase +- hornblende phyric
Andesite to microdiorite dykes; includes
equigranular and hornblende+-plagioclase
STRUCTURE LEGEND
Fault Zone: includes faults, shears & crushed intervals
Brecciated Zone: includes strongly fractured, shattered,
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
ASSAY LEGEND
assay color codes
GEOLOGY LEGEND
CASE
mislatch, grinding, etc.
Hydrothermal & Intrusive (injection) Breccias
> 0.50
0.30 - 0.50
0.20 - 0.30
0.10 - 0.20
0.05 - 0.10
< 0.05
Cu
(%
)
X.XXXXXXX
Ro
ck T
yp
e
Str
uct
ure
Overburden; includes rubble and
LOWER JURASSIC VOLCANICS
RECENT
unconsolidated glacial till & alluvium
least two different rock types
LDIO
X.XX
Au
(g
/t)
OVBD
FAUL
DACT
LOST
DATF
ANDS
MDRT
MONZ
alteration phase of MZDI
HBPO
HSYN
QTMZ
PMNZ
GRST
PMBX
MDST
WCKE
BATF
CHRT
SLST
MZDI
PBAS
MIN
ER
AL
IZE
D Z
ON
E
mafic, hornblende diorite
typically amygdaloidal
MDIO
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
DBFL
SNDS
SHAL
CONG
HBAS
CHER Chert
PO
ST
MIN
ER
AL
IZA
TIO
N
8.3.2
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Dark olive green to black; typically clinopyroxene
& wacke beds; locally limestone olistoliths; varies
interbedded mudstone to siltstone beds, typically
argillites to siltstones; includes minor interbedded
Fine to medium grained volcanic wackes & lithic
siltstone & basaltic tuff horizons; varies from
wackes; includes minor interbedded argillite,
and monzodiorite intrusives.
variety of Stuhinni sediments, basalt volcanics
sub-angular to sub-rounded fragments include a
breccias; includes coarse sandstone interbeds;
Polymictic, pebble to cobble conglomerates and
Fine to medium grained basaltic tuff, lapilli tuff
phyric; includes flows, flow top breccias,
volcanic wackes, lithic wackes, basaltic tuffs &
quartzite; includes minor chert pebble breccias,
likely related to "slumping"
leucocratic interbbed tuffs and crystal tuffs of
recrystallized into fine to medium grained
<= 1cm thick are common; cherts may be
White to black, massive to thinly bedded;
breccia and debris flow textures are common
calcareous and "skarn" altered sections; slump
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
flow textures are common; includes minor,
calcareous beds; intervals are often silicified
Red brown, tan, light grey to pale green silty
from massive to thinly bedded units; graded
irregular high-level plugs and dykes
Very fine to medium grained, hornblende phyric
phyric phases; likely represents intense K-spar
Black, massive to thinly bedded, fissile shales
& lahars); Material consists of green to maroon
latite to monzonite; typically pale pink, tan to
Medium grained syenite; includes hornblende
commonly leached & replaced by carbonate
pale green coloured; hornblende crystals
to pebbly sandstone
Poorly sorted volcanic (andesitic) sandstone
coloured, plagioclase-hornblende porphyritic,
Late stage, equigranular, medium grained,
UNCONFORMITY
flows and high-level intrusives
equigranular and hornblende+-plagioclase
Andesite to microdiorite dykes; includes
andesite flows and tuffs
Leucocratic, equigranular, medium grained diorite
Debris flows (includes hot & cold slump breccias
Cream coloured dacite; includes undifferentiated
phyric varieties
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
Equigranular & plagioclase+-hornblende phyric
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
calc
ula
ted
%cp
y
calc
ula
ted
%p
y
Chert pebble conglomerates and dark grey
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
UNCONFORMITY
UNCONFORMITY
least two different rock types
includes strongly fractured, shattered, microbrecciated,
mislatch, grinding, etc.
to black siltstones to mudstones
unconsolidated glacial till & alluvium
GEOLOGY LEGEND
Ro
ck T
yp
e
Str
uct
ure
XXXXX.XX X.XX
DRILL HOLE LEGEND
crackle brecciated and brecciated intervals
Fault Zone
CASE
LOST
FAUL
Brecciated Zone
Hydrothermal & Intrusive (injection)
Breccias
includes faults, shears & crushed intervals
X.XX
STRUCTURE LEGEND
Overburden; includes rubble and
MIDDLE JURASSIC BOWSER LAKE GROUP SEDIMENTS
un
ityN
P :
MP
A
Ro
ck T
yp
e C
od
e
Dacite lapilli tuffs
LOWER JURASSIC VOLCANICS
LDIO
ANDS
OVBD
BOWR
DACT
DATF
MDRT
DBFL
SNDS
SHAL
RECENT
PO
ST
MIN
ER
AL
IZA
TIO
N
to leucocratic monzonite. Often occurs as a
alteration of monzonite; locally occurs as fine
Medium grained, plagioclase phyric, mesocratic
possible latite composition
Equigranular, medium grained, mesocratic
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
mafic, hornblende diorite
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
monzodiorite; includes minor diorite phases; is
hornblende &/or biotite bearing
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
bedding is common
"crowded porphyry"
Limestone beds
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
MONZ
MDIO
HSYN
QTMZ
PMNZ
MZDI
DIOR
grained dykelets
CHRT
SLST
LMST
PMBX
WCKE
PBAS
BATF
MIN
ER
AL
IZE
D Z
ON
E
6391300mN
6391400mN
6391500mN
6391700mN
6391600mN
6391800mN
6391900mN
6392000mN
1500m Elev.
1600m Elev.
1400m Elev.
1200m Elev.
1300m Elev.
1100m Elev.
6391200mN
CGH-06-138146.3m
0.05
5
0.10
90.
074
0.08
70.
1070.
103
CHRT
MZD
I
0.08
0.14
0.06
60.
079
0.04
20.
162
0.06
2
MZD
I
CHRT
0.17
0.11
0.13
0.04
3
0.04
60.
044
0.05
9
MZD
I
0.12
0.08
0.08
0.13
0.1
0.13
0.09
0.28
0.13
0.02
40.
061
CHRT
0.07
SLST
0.06
0.09
CHRT
CGH-06-097280.4mM
ZDI
0.14
PBAS
CHRT
CHRT
0.15
CHRT
SLST
MZDI
MZDI
0.04
8
0.05
0.06
7
0.00
2
0.03
9
0.16
0.13
0.1
0.03
2
0.02
3
0.02
5
0.01
20.00
2
0.01
1
0.01
8
0.01
2
0.02
0.03
6
0.01
9
0.00
5
0.00
4
0.03
1
0.02
0.03
1
0.00
7
0.02
0.03
0.01
4
0.01
9
0.01
3
0.15
0.07
0.09
0.05
0.03
0.03
1
0.03
5
0.02
2
0.02
5
0.02
8
0.08
0.1
0.07
0.06
0.05
0.19
0.04
0.23
0.07
CGH-0
6-13
8
CGH-0
6-09
7
CGH-0
6-13
0
0.16
0.06
0.06
0.04
0.1
0.09
0.09
MZDI
CHRT
CHRT
MZDIM
ZDI
CHRTCHRT
0.07
0.03
0.04
0.06
0.09
0.04
0.1
0.14
0.06
0.08
0.04
MZDI
0.45
0.2
0.28
0.2
0.14
0.2
0.14
0.18
0.2
0.21
0.13
CHRT0.
01
0.04
0.03
0.03
0.03
0.09
0.08
0.04
8
0.02
0.02
8
0.02
9
0.06
4
0.17
0.13
0.12
0.14
0.16
0.02
2
0.10
7
0.05
7
0.01
6
0.02
6
0.17
50.02
7
0.00
2
0.02
9
0.01
4
0.01
7
0.00
90.02
0.04
8
0.05
8
0.04
0.04
6
0.08
7
0.08
1
0.07
7
0.07
3
0.13
0.21
5
0.08
7
0.1960.1930.224
0.1280.1210.1370.1340.1240.120.101
0.0880.0740.135
0.083
0.150.135
0.465
0.6280.51
0.69
0.5830.6020.80.5350.2120.2030.314
0.5
0.1630.2430.309
0.188
0.5480.066
MZDI
0.05
0.09
0.48
0.150.340.270.29
0.17
0.530.460.80.55
0.15
0.140.240.110.43
0.05
0.170.330.120.04
0.28
0.040.150.270.510.05
0.31
0.0840.0630.380.5360.50.1050.25
0.206
0.4840.2290.256
0.13
0.36
0.2680.283
0.13
0.290.090.10.09
0.11
0.11
0.180.140.16
0.757
0.5710.65
0.09
0.31
0.130.390.570.280.368
0.4260.248
0.52
0.470.40.570.690.40.350.44
CGH-05-074477.3m
0.00
70.
014
0.02
20.
035
0.01
60.
018
0.01
2
0.01
20.01
3
0.05
70.
017
0.12
0.04
0.06
0.15
0.22
0.16
0.05
0.09
90.
130.
047
0.020.
01
0.14
0.23
0.07
0.02
0.37
0.07
MZD
I
0.31
0.09
9
0.30
3
0.34
0.07
20.
09
0.14
30.
671
0.59
50.
313
0.1
0.07
0.17
0.12
0.14
0.09
FAU
L0.
0070.
009
0.01
10.02
90.
013
0.1
0.25
0.42
0.23
0.13
0.04
70.05
60.
046
0.03
SLS
TM
ZDI
SLS
T
0.03
0.07
60.
029
BAT
F
0.1
0.03
0.01
0.02
CGH-06-130283.5m
0.04
10.
054
0.14
7
0.17
1
0.86
90.
227
0.13
10.
208
0.11
.09
0.07
0.05
0.21
0.04
SLST
0.16
1
0.2630.2490.5241.050.299
0.534
0.6530.5450.48
0.532
0.4920.5930.409
0.218
0.2080.0380.021
0.056
0.0830.167
0.089
0.1170.071
0.8780.792
ANDS
0.32
0.380.440.390.30.180.13
0.071
0.04M
ZDI
0.220.060.160.080.040.040.04
09
0.01
10.
042
0.07
60.
035
0.02
0.02
2
0.02
40.
033
0.01
2
CHRT
MZD
I
CHRT
MZD
I
0.02
3
0.02
4
0.2130.149
0.235
OVBD
OVBD
MZD
I
OVBD
0.04
0.13
0.06
0.07
0.04
0.04
0.05
0.04
0.05
0.05
0.14
0.080.050.08
0.07
0.080.080.140.06
0.05
0.06
0.060.060.050.040.22
0.09
0.11
1530
1510
1480
))
)
TG-77-03
CGH-05-074477.3m
CGH-06-130283.5m
CGH-06-097280.4m
CGH-06-138146.3m
CGH-06-081478.5m
CGH-05-042358.4m
CGH-06-097CGH-06-130CGH-06-138
Fig.
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Scale:
Date: NTS: 104G/9,16
BRITISH COLUMBIA, CANADA
BCGS: 104G069,70,79,80,90
0 100 m
DONNELLY NORTH ZONE
CROSS-SECTION 424270 E
1:1000
Mar. 2007
(LOOKING WEST)
interbedded mudstone, siltstone & volcanic ash
layers are typically <= 1cm thick; cherts may be
recrystallized into fine to medium grained quartzite;
includes minor chert pebble (slump ?) breccias
Massive to thinly bedded; black; minor interbedded
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Fine to medium grained volcanic wackes & lithic
& wacke beds; locally limestone olistoliths; varies
Dark olive green to black; typically clinopyroxene
argillites to siltstones; includes minor interbedded
volcanic wackes, lithic wackes, basaltic tuffs &
Polymictic, pebble to cobble conglomerates and
sub-angular to sub-rounded fragments include a
variety of Stuhinni sediments, basalt volcanics
Very fine to medium grained, hornblende phyric
hornblende crystals; late alteration phase of MZDI
Debris flows (includes hot & cold slump breccias
& lahars); Material consists of green to maroon
Undifferentiated flows, dykes, sills and tuffs;
coloured, plagioclase-hornblende porphyritic,
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
UNCONFORMITY
Black, massive to thinly bedded, fissile shales
with minor siltstone and fine sandstone intervals
Fine to coarse grained, generally poorly sorted
volcanic sandstone to pebbly sandstone;
includes massive wacke intervals
siltstone and fine sandstone matrix
Heterolithic pebble conglomerate; dark shale,
Late stage, equigranular, medium grained,
Undifferentiated flows and high-level intrusives
Leucocratic, equigranular, medium grained diorite
Dacite tuffs, lapilli tuffs & tuff breccias;
Undifferentiated flows, dykes, sills and tuffs;
phyric varieties
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
microbrecciated, crackle brecciated and brecciated intervals
DRILL HOLE LEGEND
Ro
ck T
yp
e C
od
e
Fine to medium grained basaltic tuff, lapilli tuff
Medium grained, plagioclase phyric, mesocratic
leucocratic interbbed tuffs and crystal tuffs of
breccias; includes coarse sandstone interbeds;
phyric phases; likely represents intense K-spar
calcareous and "skarn" altered sections; slump
breccia and debris flow textures are common
White to black, massive to thinly bedded;
aphanitic groundmass; 10-15%, 1-2mm altered
monzodiorite; includes minor diorite phases; is
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
Equigranular, medium grained, mesocratic
hornblende &/or biotite bearing
siltstone & basaltic tuff horizons; varies from
non mineralized monzodiorite to diorite;
postdates most copper mineralization
Groat Stock; fine to medium grained, weak to
latite to monzonite; typically pale pink, tan to
pale green coloured; hornblende crystals
commonly leached & replaced by carbonate;
Medium grained syenite; includes hornblende
alteration of monzonite; locally occurs as fine
grained dykelets; alteration phase of MZDI
Hornblende-feldspar porphyry; fine grained to
to leucocratic, "crowded porphyry" monzonite;
calcareous beds; intervals are often silicified
coarse sandstone or chert (< 5cm) beds
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
Red brown, tan, light grey to pale green silty
possible latite composition
phyric; includes flows, flow top breccias,
irregular high-level plugs and dykes
from massive to thinly bedded units; graded
wackes; includes minor interbedded argillite,
flow textures are common; includes minor,
and monzodiorite intrusives.
alteration phase of MZDI
bedding is common
DIOR
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
includes crudely reworked equivalents
typically plagioclase +- hornblende phyric
Andesite to microdiorite dykes; includes
equigranular and hornblende+-plagioclase
STRUCTURE LEGEND
Fault Zone: includes faults, shears & crushed intervals
Brecciated Zone: includes strongly fractured, shattered,
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
ASSAY LEGEND
assay color codes
GEOLOGY LEGEND
CASE
mislatch, grinding, etc.
Hydrothermal & Intrusive (injection) Breccias
> 0.50
0.30 - 0.50
0.20 - 0.30
0.10 - 0.20
0.05 - 0.10
< 0.05
Cu
(%
)
X.XXXXXXX
Ro
ck T
yp
e
Str
uct
ure
Overburden; includes rubble and
LOWER JURASSIC VOLCANICS
RECENT
unconsolidated glacial till & alluvium
least two different rock types
LDIO
X.XX
Au
(g
/t)
OVBD
FAUL
DACT
LOST
DATF
ANDS
MDRT
MONZ
alteration phase of MZDI
HBPO
HSYN
QTMZ
PMNZ
GRST
PMBX
MDST
WCKE
BATF
CHRT
SLST
MZDI
PBAS
MIN
ER
AL
IZE
D Z
ON
E
mafic, hornblende diorite
typically amygdaloidal
MDIO
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
DBFL
SNDS
SHAL
CONG
HBAS
CHER Chert
PO
ST
MIN
ER
AL
IZA
TIO
N
8.3.3
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Dark olive green to black; typically clinopyroxene
& wacke beds; locally limestone olistoliths; varies
interbedded mudstone to siltstone beds, typically
argillites to siltstones; includes minor interbedded
Fine to medium grained volcanic wackes & lithic
siltstone & basaltic tuff horizons; varies from
wackes; includes minor interbedded argillite,
and monzodiorite intrusives.
variety of Stuhinni sediments, basalt volcanics
sub-angular to sub-rounded fragments include a
breccias; includes coarse sandstone interbeds;
Polymictic, pebble to cobble conglomerates and
Fine to medium grained basaltic tuff, lapilli tuff
phyric; includes flows, flow top breccias,
volcanic wackes, lithic wackes, basaltic tuffs &
quartzite; includes minor chert pebble breccias,
likely related to "slumping"
leucocratic interbbed tuffs and crystal tuffs of
recrystallized into fine to medium grained
<= 1cm thick are common; cherts may be
White to black, massive to thinly bedded;
breccia and debris flow textures are common
calcareous and "skarn" altered sections; slump
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
flow textures are common; includes minor,
calcareous beds; intervals are often silicified
Red brown, tan, light grey to pale green silty
from massive to thinly bedded units; graded
irregular high-level plugs and dykes
Very fine to medium grained, hornblende phyric
phyric phases; likely represents intense K-spar
Black, massive to thinly bedded, fissile shales
& lahars); Material consists of green to maroon
latite to monzonite; typically pale pink, tan to
Medium grained syenite; includes hornblende
commonly leached & replaced by carbonate
pale green coloured; hornblende crystals
to pebbly sandstone
Poorly sorted volcanic (andesitic) sandstone
coloured, plagioclase-hornblende porphyritic,
Late stage, equigranular, medium grained,
UNCONFORMITY
flows and high-level intrusives
equigranular and hornblende+-plagioclase
Andesite to microdiorite dykes; includes
andesite flows and tuffs
Leucocratic, equigranular, medium grained diorite
Debris flows (includes hot & cold slump breccias
Cream coloured dacite; includes undifferentiated
phyric varieties
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
Equigranular & plagioclase+-hornblende phyric
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
calc
ula
ted
%cp
y
calc
ula
ted
%p
y
Chert pebble conglomerates and dark grey
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
UNCONFORMITY
UNCONFORMITY
least two different rock types
includes strongly fractured, shattered, microbrecciated,
mislatch, grinding, etc.
to black siltstones to mudstones
unconsolidated glacial till & alluvium
GEOLOGY LEGEND
Ro
ck T
yp
e
Str
uct
ure
XXXXX.XX X.XX
DRILL HOLE LEGEND
crackle brecciated and brecciated intervals
Fault Zone
CASE
LOST
FAUL
Brecciated Zone
Hydrothermal & Intrusive (injection)
Breccias
includes faults, shears & crushed intervals
X.XX
STRUCTURE LEGEND
Overburden; includes rubble and
MIDDLE JURASSIC BOWSER LAKE GROUP SEDIMENTS
un
ityN
P :
MP
A
Ro
ck T
yp
e C
od
e
Dacite lapilli tuffs
LOWER JURASSIC VOLCANICS
LDIO
ANDS
OVBD
BOWR
DACT
DATF
MDRT
DBFL
SNDS
SHAL
RECENT
PO
ST
MIN
ER
AL
IZA
TIO
N
to leucocratic monzonite. Often occurs as a
alteration of monzonite; locally occurs as fine
Medium grained, plagioclase phyric, mesocratic
possible latite composition
Equigranular, medium grained, mesocratic
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
mafic, hornblende diorite
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
monzodiorite; includes minor diorite phases; is
hornblende &/or biotite bearing
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
bedding is common
"crowded porphyry"
Limestone beds
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
MONZ
MDIO
HSYN
QTMZ
PMNZ
MZDI
DIOR
grained dykelets
CHRT
SLST
LMST
PMBX
WCKE
PBAS
BATF
MIN
ER
AL
IZE
D Z
ON
E
6391300mN
6391400mN
6391500mN
6391700mN
6391600mN
6391800mN
6391900mN
6392000mN
1500m Elev.
1600m Elev.
1400m Elev.
1200m Elev.
1300m Elev.
1100m Elev.
6391200mN
CGH-06-088259.1m
0.11
0.14
70.
130.
056
0.03
5
0.15
0.10
5
0.04
30.
055
0.10
5
0.03
5
CGH-06-135152.4m 0.
081
0.03
0.03
20.
061
0.03
5
0.07
20.
028
0.13
10.
203
0.12
20.
009
0.08
40.08
80.
091
0.16
5
0.07
5
CGH-0
6-08
8
CGH-0
6-13
5
0.05
9
0.05
1
0.09
8
0.05
4
CGH-0
6-13
1
CGH-06-091300.2mCGH-06-127
304.8m
CGH-06-131198.1m
CGH-0
6-09
1
0.00
7
0.02
0.02
5
0.01
5
0.00
9
0.00
9
0.04
5
0.00
5
0.01
2
0.03
0.05
0.02
7
0.01
8
0.02
5
0.00
4
0.01
0.00
6
0.04
7
0.00
90.28
70.
2320.
28
0.09
6
0.050.
144
TG-7
7-01 C
GH-0
6-10
0
CGH-0
6-12
7
0.34
0.37
0.25
0.08
0.08
0.03
0.14
0.09
0.02
0.03
0.01
0.02
0.01
0.02
TG-77-01163.4mTG-77-02
172.5m
0.01
0.02
0.02
0.02
0.02
0.01
0.02
0.01
0.01
0.01
0.02
0.26
0.24
0.02
0.05
0.02
0.12
0.02
0.02
0.06
0.94
0.8
0.97
1.26
1.19
0.3
0.44
0.16
0.34
0.42
0.9
1.16
0.73
0.66
1.181.
021.320.
62
0.88
0.290.
36
0.11
0.82
0.35
0.48
0.81
0.49
0.180.
27
0.013
0.011
0.016
0.011
0.007
0.02
0.041
0.066
0.011
0.021
0.092
0.16
0.160.775
0.041
0.24
0.279
0.106
0.204
0.351
0.6
0.532
0.763
0.927
0.498
CGH-05-045390.8m
CGH-06-084536.5m
0.021
0.019
0.013
0.04
0.012
0.015
0.049
0.048
0.028
0.0620.095
0.05
0.028
0.036
0.079
0.062
0.037
0.026
CGH-04-016294.7m
0.02
7
0.07
9
0.05
5
0.09
0.05
0.05
1
0.12
6
0.25
2
0.13
0.06
2
0.04
1
0.02
6
0.03
2
0.27
3
0.15
2
0.08
4
0.11
8
0.54
0.92
7
0.63
0.55
6
0.90
8
0.35
6
0.86
5
0.59
3
0.83
5
0.15
9
0.64
90.54
70.42
5
0.52
4
0.57
5
0.42
6
0.45
4
0.068
0.421
0.282
0.185
0.165
0.122
0.235
0.135
0.163
0.089
0.043
0.065
0.15
36
.025
0.250.
53
0.25
0.32
0.3
0.25
0.01
5
0.01
5
0.00
4
0.06
4
0.04
2
0.05
5
0.02
3
0.11
0.09
6
0.11
8
0.08
1
0.16
6
0.08
9
0.37
2
0.09
0.19
3
0.12
6
0.27
7
0.18
8
0.08
1
0.14
2
0.15
8
116
0.16
0.22
0.23
0.04
0.09
0.02
0.02
0.07
0.12
0.2
0.25
0.24
0.1
0.3
0.02
0.03
0.16
0.1
0.132
0.095
0.165
0.0430.1820.158
0.101
-02
0.016
0.019
0.016
0.014
GRST
0.021
0.012
0.01
.07
ACT
0.05
7
.092
0.012
0.04
0.05
0.01
0.04
0.01
CHR
T
PM
BX
CHR
T
AND
SMZD
I
CHR
T
CHR
T
BATF
BATF
CHRT
CHRT
BATF
MZD
I
CHRT
CH
RT
MZD
I
0.01
0.01
4
0.01
5
0.01
2
0.01
0.02
5
0.11
6
CHRT
0.01
4
0.01
3
MZD
I
LOST
SLST
MZD
I
SLST
SLST
0.01
LOST
MZD
ICH
RT
SLST
0.020.
016
0.02
30.
017
0.03
0.02
20.
085
0.03
5
0.01
9BATFCH
RT
MZD
IM
ZDI
CHRT
SLST
CHRT
MZD
I
0.16
80.
133
0.03
50.
055
FAUL
CHRT
MZD
ICH
RT
MZD
I0.
093
0.02
70.
031
0.07
50.
102
CHRT
MZD
IFA
UL
0.02
8
0.03
20.
042
0.02
20.
025
0.06
40.06
50.04
40.
045
0.05
4
0.08
0.06
0.08
80.02
60.
045
0.10
5
GRST
0.02
90.
014
0.01
30.
012
0.02
60.
045
0.02
60.
025
MZD
I
CHRT
MZD
I
0.02
8
0.13
30.
091
0.03
20.
073
0.10
4
0.06
10.
062
0.06
20.
076
0.07
50.01
50.19
60.
176
0.07
2
CHRTPBAS
1.14
0.30
9
0.09
0.09
80.
067
0.07
8
0.06
10.
082
0.05
70.
068
0.07
8
0.09
9
0.31
0.09
40.
108
0.18
70.
153
0.06
2
0.13
6
MZD
I
0.02
0.05
0.15
50.
008
0.00
40.
023
0.29
9
0.02
10.
020.
029
0.08
7
0.00
9
0.02
40.
020.
011
0.01
20.
004
0.12
20.
379
0.38
2
MZD
I
0.01
50.05
50.
024
SLST
OVBD
MZD
I
SLST
MZD
I
0.04
7
0.02
70.
020.
054
0.01
5
0.01
9
CHRT
0.03
7
0.01
70.
021
0.01
20.
056
0.00
7
0.01
90.
019
0.00
90.
012
0.01
6
MZD
I
0.02
1
0.02
80.
024
0.01
80.
076
0.04
10.
063
0.05
6
0.02
0.01
70.
027
0.01
1
0.04
60.01
30.
012
CHRT
MZD
I
CHRT
OVBD
OVBD
0.03
5
OVBD
OVBD
0.59
70.82
50.99
3
MZDI
OVBD
0.67
2
OVBD
0.02
0.03
BATF
0.07
4
0.06
7
0.08
6
0.10
6
0.10
9
0.06
9
GRST
0.08
6
0.05
1
0.04
8
0.09
9
0.12
0.07
4
0.11
7
0.11
5
0.38
7
0.80
6
0.09
3
0.14
1
0.22
4
0.05
6
0.04
3
0.15
3
0.34
4
MZDI
0.05
0.10
2
0.11
2
0.06
3
0.12
2
0.31
0.17
4
0.12
5
0.10
2
PBAS
0.04
4
0.08
7
0.16
6
0.13
5
MZDI
0.03
9
0.03
8
0.09
5
0.06
9
0.02
9
0.03
2
0.03
7
0.01
3
0.03
3
0.02
1
CHRT
0.06
5
0.35
5
0.07
2
0.02
2
0.03
7
0.10
6
0.04
8
0.06
3
0.05
4
0.02
2
0.05
60.
305
0.30
8
0.06
4
0.08
4
0.18
0.12
0.01
5
0.01
8
0.04
8
0.02
2
0.02
5
0.06
8
0.07
4
0.02
4
MZD
I
0.01
8
0.02
0.01
9
0.03
1
0.01
6
0.01
1
0.03
50.24
2
0.17
2
0.01
7
0.20
5
0.05
9
0.01
8
0.01
6
0.03
2
MZD
I
0.61
1.05
0.92
3
0.96
0.93
1
0.80
2
0.49
MZDI
MDIO
MZD
I
PMNZ
0.4690.2140.1560.1960.2430.4630.2560.316
0.216
0.2380.251
0.1420.2240.2270.139
0.314
0.2410.267
0.397
SLSTFAULSLSTFAUL
MZDI
0.3290.310.484FA
UL
0.480.306
SLST
0.0570.0060.0080.020.0290.0230.0190.024
BATF
MZDIMZDI
SLSTMZDISLST
MZDI
MZD
I
FAUL
MZD
I
BATF
FAUL
GRST
SLST
GRST
WCKE
SLST
MZDI
WCKEFAUL
MZDI
SLST
BATF
SLST
WCKE
BATF
0.017
0.0070.012
0.029
BATF
0.478
0.2280.088
MZD
I
0.3580.1860.204
BATF
MZDI
0.0890.0860.1560.1720.1490.33
BATF
PMNZ
PBAS
0.2230.1920.259
MZDIBATFPMBX
MZD
IPM
BX
SLST
0.0950.1320.0860.1260.4590.2790.0810.1120.3720.175
0.28837347
MZD
I
UL
0.3230.285
0.12
0.06
0.15
0.130.
080.
190.
270.
290.
370.
220.
11
0.1
0.05
0.08
0.04
0.04
0.13
0.06
0.07
0.07
0.13
0.05
0.03
0.17
0.35
0.19
0.03
0.13
0.09
0.07
0.06
0.04
0.05
0.08
0.07
0.23
0.04
0.16
0.2
0.27
0.21
0.14
0.1
0.06
0.08
0.06
0.08
0.14
0.06
0.05
0.13
0.08
0.08
0.06
0.06
0.05
0.09
0.13
0.27
0.2
0.07
0.03
0.04
0.02
2.52
0.03
0.01
0.09
0.05
0.04
0.02
0.03
0.15
0.07
0.1
0.09
0.11
0.05
0.07
0.05
0.08
0.06
0.14
0.1
0.17
0.19
0.13
0.09
0.11
0.12
0.14
0.12
0.21
0.08
1.23
0.25
0.21
0.03
0.09
0.11
0.09
0.060.
060.
10.
13
0.12
0.27
0.29
0.09
0.1
0.05
0.06
0.09
0.08
0.06
0.04
0.13
0.35
0.03
0.16
0.11
0.13
0.11
0.36
0.14
0.16
0.01
0.01
0.01
0.08
0.11
0.08
0.03
0.03
0.12
0.07
0.08
0.1
0.11
0.1
0.11
0.19
0.1
1.49
0.41
0.78
0.36
0.6
0.1
0.12
0.13
0.13
0.07
0.16
0.07
0.04
0.05
0.2
0.19
0.62
0.33
0.15
0.19
0.06
0.19
0.46
0.26
0.08
0.09
0.15
0.09
0.07
0.01
0.02
0.02
0.05
0.05
0.49
0.06
0.02
0.05
0.03
0.02
0.01
0.01
0.02
0.03
0.01
0.02
0.01
0.01
0.02
0.11
0.03
0.05
0.03
0.02
0.29
0.01
0.02
0.16
0.08
0.160.
190.
060.
050.
02
0.45
0.07
0.02
0.03
0.03
0.04
0.02
0.03
0.04
0.04
0.05
0.07
0.02
0.16
0.02
0.06
0.13
0.02
0.05
0.8
0.05
0.13
0.07
0.22
0.020.
02
0.1
0.63
0.06
0.05
0.08
0.19
0.16
0.04
1.32
0.12
0.15
0.12
1.51
1.1
0.04
0.03
0.560.
94
0.7
0.31
1.44
1.65
1.71
1.54
0.69
1.3
1.41
0.24
0.34
0.41
0.15
0.07
0.06
0.05
0.39
0.18
0.89
1.23
0.82
0.72
1.17
0.41
0.23
0.05
0.14
0.06
0.04
0.32
0.52
0.45
0.44
0.03
0.29
0.26
0.03
0.04
0.06
0.15
0.1
0.06
0.06
0.340.270.21
0.2
0.07
0.22
0.710.110.11
.19
0.15
0.09
0.12
0.15
0.1
0.19
2
.09
0.25
0.15
.16
0.210.230.41
0.03
0.01
0.03
0.04
0.02
0.01
0.07
0.02
0.04
0.03
0.06
2.04
0.21
0.08
0.07
0.46
0.63
0.97
0.43
0.24
0.19
0.04
0.35
0.80.530.21
0.06
0.03
0.09
0.26
0.06
0.09
0.16
0.09
0.07
0.09
0.05
0.06
0.06
0.08
0.05
0.11
0.17
0.24
0.15
0.82
0.74
0.81
1.19
0.96
0.1
0.1
0.07
0.07
0.21
0.38
0.17
0.17
0.17
0.27
0.34
0.48
1.51
0.060.140.160.090.060.1
0.21
0.1
0.62
0.06
0.080.040.11
0.620.08
0.1
0.1
0.07
0.07
0.060.080.120.11
0.08
0.040.090.11
0.13
0.2
0.030.020.020.11
0.02
0.030.060.070.02
1.23
0.13
0.81
0.39
0.31
0.84
1.49
0.99
0.95
1.3
0.42
0.51
0.64
0.6
0.25
0.110.4
0.01
0.02
0.35
0.06
0.04
0.11
0.29
0.04
0.06
0.05
0.04
0.04
0.01
0.2
0.46
0.06
0.04
0.04
0.16
0.08
0.02
0.080.
080.
08
0.05
0.04
0.06
0.07
0.05
0.07
0.05
0.18
0.06
0.14
0.07
0.07
0.11
0.07
0.09
0.15
1.25
0.330.110.060.04
1560
1550
1500
)
)
) ))
)
)
CGH-06-091300.2m
CGH-05-045390.8m
CGH-06-084536.5m
CGH-06-131198.1m
CGH-06-088259.1mCGH-06-135
152.4m
TG-77-02172.5m
CGH-04-016294.7m
CGH-06-127304.8m
TG-77-01163.4m
CGH-06-127
TG-77-01
CGH-06-091CGH-06-131 CGH-06-135
CGH-06-088
CGH-06-100
Fig.
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Scale:
Date: NTS: 104G/9,16
BRITISH COLUMBIA, CANADA
BCGS: 104G069,70,79,80,90
0 100 m
DONNELLY NORTH ZONE
CROSS-SECTION 424430 E
1:1000
Mar. 2007
(LOOKING WEST)
interbedded mudstone, siltstone & volcanic ash
layers are typically <= 1cm thick; cherts may be
recrystallized into fine to medium grained quartzite;
includes minor chert pebble (slump ?) breccias
Massive to thinly bedded; black; minor interbedded
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Fine to medium grained volcanic wackes & lithic
& wacke beds; locally limestone olistoliths; varies
Dark olive green to black; typically clinopyroxene
argillites to siltstones; includes minor interbedded
volcanic wackes, lithic wackes, basaltic tuffs &
Polymictic, pebble to cobble conglomerates and
sub-angular to sub-rounded fragments include a
variety of Stuhinni sediments, basalt volcanics
Very fine to medium grained, hornblende phyric
hornblende crystals; late alteration phase of MZDI
Debris flows (includes hot & cold slump breccias
& lahars); Material consists of green to maroon
Undifferentiated flows, dykes, sills and tuffs;
coloured, plagioclase-hornblende porphyritic,
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
UNCONFORMITY
Black, massive to thinly bedded, fissile shales
with minor siltstone and fine sandstone intervals
Fine to coarse grained, generally poorly sorted
volcanic sandstone to pebbly sandstone;
includes massive wacke intervals
siltstone and fine sandstone matrix
Heterolithic pebble conglomerate; dark shale,
Late stage, equigranular, medium grained,
Undifferentiated flows and high-level intrusives
Leucocratic, equigranular, medium grained diorite
Dacite tuffs, lapilli tuffs & tuff breccias;
Undifferentiated flows, dykes, sills and tuffs;
phyric varieties
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
microbrecciated, crackle brecciated and brecciated intervals
DRILL HOLE LEGEND
Ro
ck T
yp
e C
od
e
Fine to medium grained basaltic tuff, lapilli tuff
Medium grained, plagioclase phyric, mesocratic
leucocratic interbbed tuffs and crystal tuffs of
breccias; includes coarse sandstone interbeds;
phyric phases; likely represents intense K-spar
calcareous and "skarn" altered sections; slump
breccia and debris flow textures are common
White to black, massive to thinly bedded;
aphanitic groundmass; 10-15%, 1-2mm altered
monzodiorite; includes minor diorite phases; is
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
Equigranular, medium grained, mesocratic
hornblende &/or biotite bearing
siltstone & basaltic tuff horizons; varies from
non mineralized monzodiorite to diorite;
postdates most copper mineralization
Groat Stock; fine to medium grained, weak to
latite to monzonite; typically pale pink, tan to
pale green coloured; hornblende crystals
commonly leached & replaced by carbonate;
Medium grained syenite; includes hornblende
alteration of monzonite; locally occurs as fine
grained dykelets; alteration phase of MZDI
Hornblende-feldspar porphyry; fine grained to
to leucocratic, "crowded porphyry" monzonite;
calcareous beds; intervals are often silicified
coarse sandstone or chert (< 5cm) beds
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
Red brown, tan, light grey to pale green silty
possible latite composition
phyric; includes flows, flow top breccias,
irregular high-level plugs and dykes
from massive to thinly bedded units; graded
wackes; includes minor interbedded argillite,
flow textures are common; includes minor,
and monzodiorite intrusives.
alteration phase of MZDI
bedding is common
DIOR
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
includes crudely reworked equivalents
typically plagioclase +- hornblende phyric
Andesite to microdiorite dykes; includes
equigranular and hornblende+-plagioclase
STRUCTURE LEGEND
Fault Zone: includes faults, shears & crushed intervals
Brecciated Zone: includes strongly fractured, shattered,
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
ASSAY LEGEND
assay color codes
GEOLOGY LEGEND
CASE
mislatch, grinding, etc.
Hydrothermal & Intrusive (injection) Breccias
> 0.50
0.30 - 0.50
0.20 - 0.30
0.10 - 0.20
0.05 - 0.10
< 0.05
Cu
(%
)
X.XXXXXXX
Ro
ck T
yp
e
Str
uct
ure
Overburden; includes rubble and
LOWER JURASSIC VOLCANICS
RECENT
unconsolidated glacial till & alluvium
least two different rock types
LDIO
X.XX
Au
(g
/t)
OVBD
FAUL
DACT
LOST
DATF
ANDS
MDRT
MONZ
alteration phase of MZDI
HBPO
HSYN
QTMZ
PMNZ
GRST
PMBX
MDST
WCKE
BATF
CHRT
SLST
MZDI
PBAS
MIN
ER
AL
IZE
D Z
ON
E
mafic, hornblende diorite
typically amygdaloidal
MDIO
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
DBFL
SNDS
SHAL
CONG
HBAS
CHER Chert
PO
ST
MIN
ER
AL
IZA
TIO
N
8.3.4
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Dark olive green to black; typically clinopyroxene
& wacke beds; locally limestone olistoliths; varies
interbedded mudstone to siltstone beds, typically
argillites to siltstones; includes minor interbedded
Fine to medium grained volcanic wackes & lithic
siltstone & basaltic tuff horizons; varies from
wackes; includes minor interbedded argillite,
and monzodiorite intrusives.
variety of Stuhinni sediments, basalt volcanics
sub-angular to sub-rounded fragments include a
breccias; includes coarse sandstone interbeds;
Polymictic, pebble to cobble conglomerates and
Fine to medium grained basaltic tuff, lapilli tuff
phyric; includes flows, flow top breccias,
volcanic wackes, lithic wackes, basaltic tuffs &
quartzite; includes minor chert pebble breccias,
likely related to "slumping"
leucocratic interbbed tuffs and crystal tuffs of
recrystallized into fine to medium grained
<= 1cm thick are common; cherts may be
White to black, massive to thinly bedded;
breccia and debris flow textures are common
calcareous and "skarn" altered sections; slump
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
flow textures are common; includes minor,
calcareous beds; intervals are often silicified
Red brown, tan, light grey to pale green silty
from massive to thinly bedded units; graded
irregular high-level plugs and dykes
Very fine to medium grained, hornblende phyric
phyric phases; likely represents intense K-spar
Black, massive to thinly bedded, fissile shales
& lahars); Material consists of green to maroon
latite to monzonite; typically pale pink, tan to
Medium grained syenite; includes hornblende
commonly leached & replaced by carbonate
pale green coloured; hornblende crystals
to pebbly sandstone
Poorly sorted volcanic (andesitic) sandstone
coloured, plagioclase-hornblende porphyritic,
Late stage, equigranular, medium grained,
UNCONFORMITY
flows and high-level intrusives
equigranular and hornblende+-plagioclase
Andesite to microdiorite dykes; includes
andesite flows and tuffs
Leucocratic, equigranular, medium grained diorite
Debris flows (includes hot & cold slump breccias
Cream coloured dacite; includes undifferentiated
phyric varieties
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
Equigranular & plagioclase+-hornblende phyric
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
calc
ula
ted
%cp
y
calc
ula
ted
%p
y
Chert pebble conglomerates and dark grey
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
UNCONFORMITY
UNCONFORMITY
least two different rock types
includes strongly fractured, shattered, microbrecciated,
mislatch, grinding, etc.
to black siltstones to mudstones
unconsolidated glacial till & alluvium
GEOLOGY LEGEND
Ro
ck T
yp
e
Str
uct
ure
XXXXX.XX X.XX
DRILL HOLE LEGEND
crackle brecciated and brecciated intervals
Fault Zone
CASE
LOST
FAUL
Brecciated Zone
Hydrothermal & Intrusive (injection)
Breccias
includes faults, shears & crushed intervals
X.XX
STRUCTURE LEGEND
Overburden; includes rubble and
MIDDLE JURASSIC BOWSER LAKE GROUP SEDIMENTS
un
ityN
P :
MP
A
Ro
ck T
yp
e C
od
e
Dacite lapilli tuffs
LOWER JURASSIC VOLCANICS
LDIO
ANDS
OVBD
BOWR
DACT
DATF
MDRT
DBFL
SNDS
SHAL
RECENT
PO
ST
MIN
ER
AL
IZA
TIO
N
to leucocratic monzonite. Often occurs as a
alteration of monzonite; locally occurs as fine
Medium grained, plagioclase phyric, mesocratic
possible latite composition
Equigranular, medium grained, mesocratic
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
mafic, hornblende diorite
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
monzodiorite; includes minor diorite phases; is
hornblende &/or biotite bearing
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
bedding is common
"crowded porphyry"
Limestone beds
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
MONZ
MDIO
HSYN
QTMZ
PMNZ
MZDI
DIOR
grained dykelets
CHRT
SLST
LMST
PMBX
WCKE
PBAS
BATF
MIN
ER
AL
IZE
D Z
ON
E
6391300mN
6391400mN
6391500mN
6391700mN
6391600mN
6391800mN
6391900mN
6392000mN
1500m Elev.
1600m Elev.
1400m Elev.
1200m Elev.
1300m Elev.
1100m Elev.
6391200mN
CGH-06-093295.7m
0.04
50.
045
0.02
5
0.03
10.04
5
0.05
10.
027
0.022
CGH-06-094295.7m
0.04
0.021
0.035
0.143
0.02
50.
029
0.03
0.03
9
0.05
5
0.06
10.10
4
0.09
10.
044
0.11
40.
250.
233
0.26
7
0.09
80.11
60.10
30.
123
0.15
6
0.1
0.15
80.
074
0.09
6
0.06
90.080.
105
0.18
3
CGH-06-136131.1m0.
048
0.03
70.
086
0.10
30.
110.
117
0.10
1
0.01
5
0.01
50.10
6
0.18
80.
13
CGH-0
6-13
6
0.10
50.
144
0.28
10.
224
0.10
8
0.12
50.
161
0.24
80.
174
CGH-0
6-09
3
CGH-0
6-09
4
0.14
7
0.15
80.
129
0.14
20.
111
0.17
2
0.23
10.
149
0.21
30.
074
0.12
50.07
6
0.11
6
0.09
1
0.05
1
0.056
0.029
0.07
10.
102
0.0640.079
0.17
0.164
0.089
0.136
0.0720.105
0.082
0.07
90.
157
0.20
50.
255
0.09
6
0.00
2
0.00
50.
004
0.00
20.
003
0.00
3
0.2
0.06
4
0.1470.151
0.025
0.049
0.22
10.
257
0.08
2
0.1110.052
0.114
0.0260.018
0.054
0.0570.056
0.015
0.20
9
0.0370.108
0.035
0.1240.094
0.177
0.040.066
0.068
0.1250.149
0.104
0.1270.152
0.12
0.3030.145
0.184
0.1950.25
0.227
0.213
0.145
0.18
0.253
0.233
0.274
0.12
0.138
0.21
0.014
0.044
0.115
0.047
0.053
0.055
0.033
0.046
0.05
0.19
0.04
0.29
0.34
0.18
0.290.
28
0.120.
330.
280.
229
0.25
0.11
20.
101
0.22
50.
111
0.13
6
0.13
0.1
0.35
0.02
4
0.31
50.
354
0.47
20.
522
0.14
10.
019
0.12
60.
104
0.2
0.29
0.04
0.16
0.17
0.16
30.
008
0.77
0.32
0.54
0.03
30.
005
0.01
3
0.00
40.00
5
0.00
40.
003
0.22
80.
203
0.07
0.05
3
0.08
1
0.08
20.
057
0.08
40.
057
0.08
9
0.08
70.85
6
0.96
10.
448
0.17
20.
328
0.56
80.
548
CGH-06-106207.3m
CGH-05-072278.9m
TG-77-08181.7m
CGH-06-134289.6m
0.03
50.
027
0.04
8
0.01
5
0.01
40.
012
0.01
40.
023
0.02
1
0.25
40.
204
0.21
10.
056
0.41
1
0.26
30.27
3
0.25
10.
43
0.36
40.
286
0.36
0.37
7
0.18
2
0.09
20.
086
0.08
40.
179
0.23
5
0.08
0.08
0.13
0.15
0.01
30.04
20.
077
0.05
90.
037
0.01
8
0.010.
04
0.01
80.05
90.
107
0.04
10.
034
0.08
6
0.06
10.
055
0.06
8
0.15
2
0.11
0.06
7
0.16
9
0.11
6
0.08
7
0.13
CGH-05-043422.8m
CGH-05-073505.1m
0.016
0.012
0.017
0.012
0.016
0.0180.042
0.028
0.015
0.014
0.025
0.018
0.013
0.012
0.050.06
0.05
0.04
0.05
0.14
0.16
0.02
0.023
0.019
0.011
0.01
50.04
60.
0250.
062
0.03
4
0.46
6
0.08
8
0.03
0.06
6
0.86
1.3
1.01
0.58
6
0.46
6
0.45
3
0.61
4
0.39
2
1.32
0.59
5
0.72
2
0.52
70.35
50.26
3
0.47
7
0.47
8
0.26
0.26
8
0.23
2
0.26
7
0.35
2
0.23
4
0.12
0.09
8
0.19
7
0.25
4
0.22
0.22
0.15
7
0.27
9
0.31
8
0.21
0.27
7
0.24
0.18
0.25
6
0.24
0.17
4
0.15
8
0.20
8
0.07
8
41
0.02
40.01
7
0.04
0.02
1
0.02
8
0.04
3
0.09
2
0.08
4
0.09
7
0.15
3
0.09
0.18
0.033
0.02
0.025
0.06
03
0.03
0.07
0.06
0.07
013
0.015
0.012
1
MZD
I
CH
RT
MZD
I
CH
RT
MZD
I
MO
NZ
MZD
I
MZDI
MONZ
0.10
1
0.05
2
0.06
3
0.07
7
0.07
0.08
1
0.05
5
0.17
4
CHRTM
ZDI
MO
NZ
0.11
7
0.1
0.17
4
0.17
7
0.11
1
CHRT
MZD
I
CHRT
MZD
I
MZD
I
CHRT
0.13
30.07
7
0.25
0.08
5
0.09
1
0.10
2
0.16
4
0.17
9
0.16
10.15
7
0.20
3
0.16
9
0.13
0.14
0.12
2
0.17
1
0.12
7
0.23
40.19
60.08
2
0.17
4
0.22
3
0.25
2
0.12
2
0.05
50.
056
0.080.047
MZDI
GRST
0.051
0.045
0.019
0.0530.135
0.049
0.067
0.0710.114
0.007
0.036
0.010.043
0.036
0.044
0.0450.036
ANDS
MZDI
0.027
0.034
0.031
ANDS
MZDIHBAS
MZDI
0.023
0.02
0.03
0.011
0.011
0.013
0.007
0.009
0.013
0.01
0.014
0.012
0.021
0.012
0.012
0.0180.007
0.017
0.0210.023
0.008
0.201
0.1
0.115
HBAS
0.022
0.055
0.024 HBAS
MZDI
0.0350.01
0.042
0.01
0.02
0.023
0.017
0.022
0.025
0.033
0.032
0.125
0.109
0.083
0.078
0.11
4
MZDI
MZDI
CHRT
CHRT
0.03
9
0.14
5
0.07
0.11
0.367
0.292
0.111
0.082
0.065
0.11
7
CHRT
MZDI
CHRT
0.13
7
0.45
4
0.54
2
CHRT
MZD
I
0.05
70.04
1
0.22
0.07
8
0.05
2
0.31
6
0.30
4
0.71
0.19
5
0.64
9
0.28
4
0.39
5
0.06
5
0.11
3
0.03
8
0.09
2
OVBD
MZD
I
OVBD
BATF
FAUL
SLST
FAUL
MZD
IBA
TFSLS
T
BATF
WCKE
BATF
SLST
0.122
0.108
0.136
0.114
0.147
0.146
0.1820.595
0.097
0.179
0.17
0.279
0.01
0.014
0.025
0.0150.029
0.012
0.313
0.265
0.124
0.016
0.121
0.423
MZDI
MZD
I
SLST
CHRT
MZDI
WC
KE
SLST
CHRT
MZD
I
MZD
I
FAUL
MZDI
BATF
CGH-0
6-13
4
G-7
7-08
CGH-0
6-10
6
0.06
0.23
1
0.15
6
0.09
30.018
0.012
FAULMZDI
0.13
0.09
0.08
6
0.14
0.14
SLST
WCKE
SLST
WC
KE
MZD
I
FAUL
FAUL
MZDI
SLST
MZDI
FAUL
SLST
SLST
MZDI
SLST
MZDI
CHRT
CHRT
MZDI
MZDI
CHRT
PBAS
CHRT
MZDI
MZD
I
BATF
0.06
0.04
0.07
0.06
0.04
0.05
0.05
0.04
0.06
0.05
0.08
0.07
0.04
0.26
0.07
0.08
0.1
0.16
0.23
0.28
0.14
0.13
0.04
0.240.
1
0.28
0.2
0.05
0.13
0.1
0.11
0.07
0.13
0.07
0.06
0.08
0.06
0.07
0.07
0.06
0.09
0.08
0.11
0.13
0.01
0.02
0.3
0.110.
050.
150.
17
0.04
0.05
0.04
0.09
0.11
0.06
0.23
0.12
0.12
0.06
0.16
0.08
0.19
0.14
0.08
0.1
0.34
0.27
0.23
0.22
0.11
0.23
0.39
0.42
0.3
0.19
0.43
0.12
0.12
0.12
0.32
0.05
0.07
0.06
0.11
0.07
0.04
0.05
0.15
0.14
0.13
0.3
0.09
0.19
0.11
0.1
0.09
0.12
0.24
0.35
0.23
0.1
0.11
0.1
0.06
0.06
0.14
0.27
0.08
0.21
0.15
0.03
0.07
0.02
0.18
0.13
0.2
0.22
0.04
0.2
0.21
0.09
0.06
0.03
0.15
0.16
0.14
0.23
0.09
0.11
0.06
0.16
0.02
0.13
0.74
0.09
0.08
0.18
0.23
0.05
0.07
0.04
0.05
0.02
0.12
0.16
0.06
0.12
0.09
0.29
0.230.
07
0.19
0.19
0.06
0.03
0.05
0.02
0.03
0.04
0.03
0.03
0.09
0.07
0.02
0.01
0.03
0.12
0.01
0.1
0.04
0.13
0.03
0.05
0.03
0.02
0.06
0.03
0.04
0.06
0.03
0.02
0.04
0.07
0.11
0.03
0.06
0.050.03
0.03
0.04
0.03
0.03
CHRT
0.08
0.11
0.09
0.09
0.08
0.09
0.11
0.11
0.16
0.2
MZD
I
MZDI
OVBD OVBD
BATF
MZD
I
MZD
IBATF
MZD
I
MZD
I
BATF
BATF
BATF
MZD
I
SLST
MZD
I
OVBD
SLST
0.07
0.3
0.08
0.12
0.05
0.28
0.25
0.06
0.51
0.23
0.17
0.64
0.39
0.15
0.11
0.09
0.1
0.07
0.05
0.08
0.34
0.26
0.05
0.16
0.13
0.07
0.05
0.07
0.15
0.11
0.09
0.07
0.08
0.09
0.01
0.07
0.09
0.06
0.12
0.01
0.05
0.06
0.08
0.05
0.08
0.04
0.05
0.1
0.05
0.03
0.13
0.06
0.02
0.13
0.04
0.12
0.03
0.03
0.02
0.02
0.07
1.28
0.8
0.05
0.07
1.47
0.16
0.13
0.56
0.78
0.05
0.13
0.06
0.12
0.03
0.07
0.06
0.05
0.12
0.050.03
0.02
0.06
0.12
0.22
0.03
0.1
0.090.12
0.05
0.03
0.12
0.04
0.02
0.03
0.23
0.21
0.14
0.14
0.11
0.05
0.02
0.07
0.09
0.35
0.07
0.1
0.14
0.19
0.34
0.17
0.11
0.21
0.42
0.34
0.27
0.09
0.22
0.13
0.11
0.36
0.44
0.32
0.57
0.12
0.21
0.13
0.16
0.12
0.05
0.11
0.080.
080.
150.
120.
1
0.04
0.19
0.07
0.16
0.08
0.14
0.07
0.02
0.32
0.08
0.040.
040.
010.
03
0.16
0.32
0.35
0.36
0.21
0.19
0.10.06
0.06
0.06
0.05
0.08
0.07
0.04
0.06
0.14
0.070.05
0.08
0.07
0.1
0.07
0.21
0.09
0.06
0.12
0.320.
51
0.10.
81
0.07
0.27
0.37
0.1
0.05
0.07
0.07
0.24
0.06
0.14
0.040.
13
0.39
0.06
0.05
0.2
BATF
0.05
0.06
0.05
0.05
0.03
0.03
0.02
0.01
0.05
0.07
0.03
0.03
0.03
1.87
1.45
0.94
1.54
0.69
0.96
0.45
0.55
0.41
0.41
0.91
0.12
0.23
0.19
0.23
0.3
0.23
0.08
0.2
0.09
0.17
0.14
0.13
0.32
0.14
0.09
0.23
0.33
0.25
0.23
.34
0.47
0.43
0.26
0.11
0.26
28
0.19
0.41
0.34
0.41
0.120.
09
1550
15700
1520
)) )
)
)
CGH-06-093295.7m
CGH-06-136131.1m
CGH-06-134289.6m
CGH-06-094295.7m
CGH-05-043422.8m
CGH-06-092405.4m
CGH-05-072278.9m
CGH-06-106207.3m
CGH-05-073505.1m
TG-77-08181.7m
CGH-06-094 CGH-06-136
CGH-06-106CGH-06-134
CGH-06-093
Fig.
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Scale:
Date: NTS: 104G/9,16
BRITISH COLUMBIA, CANADA
BCGS: 104G069,70,79,80,90
0 100 m
DONNELLY NORTH ZONE
CROSS-SECTION 424550 E
1:1000
Mar. 2007
(LOOKING WEST)
interbedded mudstone, siltstone & volcanic ash
layers are typically <= 1cm thick; cherts may be
recrystallized into fine to medium grained quartzite;
includes minor chert pebble (slump ?) breccias
Massive to thinly bedded; black; minor interbedded
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Fine to medium grained volcanic wackes & lithic
& wacke beds; locally limestone olistoliths; varies
Dark olive green to black; typically clinopyroxene
argillites to siltstones; includes minor interbedded
volcanic wackes, lithic wackes, basaltic tuffs &
Polymictic, pebble to cobble conglomerates and
sub-angular to sub-rounded fragments include a
variety of Stuhinni sediments, basalt volcanics
Very fine to medium grained, hornblende phyric
hornblende crystals; late alteration phase of MZDI
Debris flows (includes hot & cold slump breccias
& lahars); Material consists of green to maroon
Undifferentiated flows, dykes, sills and tuffs;
coloured, plagioclase-hornblende porphyritic,
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
UNCONFORMITY
Black, massive to thinly bedded, fissile shales
with minor siltstone and fine sandstone intervals
Fine to coarse grained, generally poorly sorted
volcanic sandstone to pebbly sandstone;
includes massive wacke intervals
siltstone and fine sandstone matrix
Heterolithic pebble conglomerate; dark shale,
Late stage, equigranular, medium grained,
Undifferentiated flows and high-level intrusives
Leucocratic, equigranular, medium grained diorite
Dacite tuffs, lapilli tuffs & tuff breccias;
Undifferentiated flows, dykes, sills and tuffs;
phyric varieties
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
microbrecciated, crackle brecciated and brecciated intervals
DRILL HOLE LEGEND
Ro
ck T
yp
e C
od
e
Fine to medium grained basaltic tuff, lapilli tuff
Medium grained, plagioclase phyric, mesocratic
leucocratic interbbed tuffs and crystal tuffs of
breccias; includes coarse sandstone interbeds;
phyric phases; likely represents intense K-spar
calcareous and "skarn" altered sections; slump
breccia and debris flow textures are common
White to black, massive to thinly bedded;
aphanitic groundmass; 10-15%, 1-2mm altered
monzodiorite; includes minor diorite phases; is
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
Equigranular, medium grained, mesocratic
hornblende &/or biotite bearing
siltstone & basaltic tuff horizons; varies from
non mineralized monzodiorite to diorite;
postdates most copper mineralization
Groat Stock; fine to medium grained, weak to
latite to monzonite; typically pale pink, tan to
pale green coloured; hornblende crystals
commonly leached & replaced by carbonate;
Medium grained syenite; includes hornblende
alteration of monzonite; locally occurs as fine
grained dykelets; alteration phase of MZDI
Hornblende-feldspar porphyry; fine grained to
to leucocratic, "crowded porphyry" monzonite;
calcareous beds; intervals are often silicified
coarse sandstone or chert (< 5cm) beds
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
Red brown, tan, light grey to pale green silty
possible latite composition
phyric; includes flows, flow top breccias,
irregular high-level plugs and dykes
from massive to thinly bedded units; graded
wackes; includes minor interbedded argillite,
flow textures are common; includes minor,
and monzodiorite intrusives.
alteration phase of MZDI
bedding is common
DIOR
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
includes crudely reworked equivalents
typically plagioclase +- hornblende phyric
Andesite to microdiorite dykes; includes
equigranular and hornblende+-plagioclase
STRUCTURE LEGEND
Fault Zone: includes faults, shears & crushed intervals
Brecciated Zone: includes strongly fractured, shattered,
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
ASSAY LEGEND
assay color codes
GEOLOGY LEGEND
CASE
mislatch, grinding, etc.
Hydrothermal & Intrusive (injection) Breccias
> 0.50
0.30 - 0.50
0.20 - 0.30
0.10 - 0.20
0.05 - 0.10
< 0.05
Cu
(%
)
X.XXXXXXX
Ro
ck T
yp
e
Str
uct
ure
Overburden; includes rubble and
LOWER JURASSIC VOLCANICS
RECENT
unconsolidated glacial till & alluvium
least two different rock types
LDIO
X.XX
Au
(g
/t)
OVBD
FAUL
DACT
LOST
DATF
ANDS
MDRT
MONZ
alteration phase of MZDI
HBPO
HSYN
QTMZ
PMNZ
GRST
PMBX
MDST
WCKE
BATF
CHRT
SLST
MZDI
PBAS
MIN
ER
AL
IZE
D Z
ON
E
mafic, hornblende diorite
typically amygdaloidal
MDIO
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
DBFL
SNDS
SHAL
CONG
HBAS
CHER Chert
PO
ST
MIN
ER
AL
IZA
TIO
N
8.3.5
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Dark olive green to black; typically clinopyroxene
& wacke beds; locally limestone olistoliths; varies
interbedded mudstone to siltstone beds, typically
argillites to siltstones; includes minor interbedded
Fine to medium grained volcanic wackes & lithic
siltstone & basaltic tuff horizons; varies from
wackes; includes minor interbedded argillite,
and monzodiorite intrusives.
variety of Stuhinni sediments, basalt volcanics
sub-angular to sub-rounded fragments include a
breccias; includes coarse sandstone interbeds;
Polymictic, pebble to cobble conglomerates and
Fine to medium grained basaltic tuff, lapilli tuff
phyric; includes flows, flow top breccias,
volcanic wackes, lithic wackes, basaltic tuffs &
quartzite; includes minor chert pebble breccias,
likely related to "slumping"
leucocratic interbbed tuffs and crystal tuffs of
recrystallized into fine to medium grained
<= 1cm thick are common; cherts may be
White to black, massive to thinly bedded;
breccia and debris flow textures are common
calcareous and "skarn" altered sections; slump
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
flow textures are common; includes minor,
calcareous beds; intervals are often silicified
Red brown, tan, light grey to pale green silty
from massive to thinly bedded units; graded
irregular high-level plugs and dykes
Very fine to medium grained, hornblende phyric
phyric phases; likely represents intense K-spar
Black, massive to thinly bedded, fissile shales
& lahars); Material consists of green to maroon
latite to monzonite; typically pale pink, tan to
Medium grained syenite; includes hornblende
commonly leached & replaced by carbonate
pale green coloured; hornblende crystals
to pebbly sandstone
Poorly sorted volcanic (andesitic) sandstone
coloured, plagioclase-hornblende porphyritic,
Late stage, equigranular, medium grained,
UNCONFORMITY
flows and high-level intrusives
equigranular and hornblende+-plagioclase
Andesite to microdiorite dykes; includes
andesite flows and tuffs
Leucocratic, equigranular, medium grained diorite
Debris flows (includes hot & cold slump breccias
Cream coloured dacite; includes undifferentiated
phyric varieties
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
Equigranular & plagioclase+-hornblende phyric
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
calc
ula
ted
%cp
y
calc
ula
ted
%p
y
Chert pebble conglomerates and dark grey
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
UNCONFORMITY
UNCONFORMITY
least two different rock types
includes strongly fractured, shattered, microbrecciated,
mislatch, grinding, etc.
to black siltstones to mudstones
unconsolidated glacial till & alluvium
GEOLOGY LEGEND
Ro
ck T
yp
e
Str
uct
ure
XXXXX.XX X.XX
DRILL HOLE LEGEND
crackle brecciated and brecciated intervals
Fault Zone
CASE
LOST
FAUL
Brecciated Zone
Hydrothermal & Intrusive (injection)
Breccias
includes faults, shears & crushed intervals
X.XX
STRUCTURE LEGEND
Overburden; includes rubble and
MIDDLE JURASSIC BOWSER LAKE GROUP SEDIMENTS
un
ityN
P :
MP
A
Ro
ck T
yp
e C
od
e
Dacite lapilli tuffs
LOWER JURASSIC VOLCANICS
LDIO
ANDS
OVBD
BOWR
DACT
DATF
MDRT
DBFL
SNDS
SHAL
RECENT
PO
ST
MIN
ER
AL
IZA
TIO
N
to leucocratic monzonite. Often occurs as a
alteration of monzonite; locally occurs as fine
Medium grained, plagioclase phyric, mesocratic
possible latite composition
Equigranular, medium grained, mesocratic
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
mafic, hornblende diorite
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
monzodiorite; includes minor diorite phases; is
hornblende &/or biotite bearing
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
bedding is common
"crowded porphyry"
Limestone beds
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
MONZ
MDIO
HSYN
QTMZ
PMNZ
MZDI
DIOR
grained dykelets
CHRT
SLST
LMST
PMBX
WCKE
PBAS
BATF
MIN
ER
AL
IZE
D Z
ON
E
6391300mN
6391400mN
6391500mN
6391700mN
6391600mN
6391800mN
6391900mN
6392000mN
1500m Elev.
1600m Elev.
1400m Elev.
1200m Elev.
1300m Elev.
1100m Elev.
6391200mN
CGH-06-087256.0m
0.01
6
0.00
80.
007
0.00
8
0.01
1
0.00
9
0.00
8
0.00
9
0.00
8
0.00
7
0.01
0.00
8
MZD
I
0.01
10.
0120.
010.00
9
0.01
40.
0160.
017
0.00
9
0.06
7
0.11
3
0.12
2
0.00
9
CHRT
MZD
I
SLST
0.05
3
0.06
2
0.03
80.
043
0.06
5
0.08
0.03
8
0.03
1
0.060.
0290.
091
0.02
9
0.12
90.07
9
0.07
2
0.01
7
0.06
1
0.09
1
0.1
0.03
60.03
6
0.04
7
0.01
7
0.05
30.03
30.
026
0.03
5
0.03
60.04
2
0.01
1
0.02
0.02
9
0.04
80.03
80.02
5
0.03
2
0.05
3
0.01
8
0.01
3
0.10
20.
021
0.04
2
0.03
3
0.04
7
0.01
4SLS
T
SLST
MZD
I
CHRT
CHRT
MZD
I
CHRT
CHR
T
MZD
I
MO
NZ
CHR
T
CHR
T
MZD
I
0.380.652
0.4070.229
0.2170.267
0.4190.233
0.00
9
0.00
7
0.08
2
0.17
6
0.0760.405
0.2890.294
0.3140.382
CGH-06-090304.8m
0.01
2
0.04
10.
041
0.03
0.03
0.02
9
0.02
90.
025
0.03
10.
062
0.03
5
0.03
10.04
1
0.02
20.
022
0.02
0.02
70.
016
0.02
CGH-05-041346.6m
0.11
0.04
90.
072
0.05
50.
061
MZD
I
0.12
7
0.07
0.02
60.12
80.
045
0.05
9
0.12
0.090.
030.
190.
050.
090.
1
0.23
80.07
AND
S
MZD
I
0.07
0.06
0.01
0.01
0.03
0.12
40.
137
0.11
70.
149
0.07
20.
024
0.03
60.
083
0.22
4
0.27
30.
373
0.13
50.
115
ANDS
MZD
I
ANDS
MZDI
0.39
1
0.05
70.
156
0.10
7
0.12
8
0.06
80.
071
0.02
5
0.00
60.
044
0.12
80.
105
0.02
0.03
80.
033
0.05
10.
039
0.04
5
0.03
30.
065
0.02
90.
043
0.03
5
0.06
60.
057
0.05
80.
035
0.05
0.38
20.26
40.
314
0.29
1
0.09
0.16
2
0.09
50.
114
0.10
1
0.07
9
0.00
40.
023
0.12
20.
139
0.00
6
0.18
90.
117
0.09
60.
101
0.22
4
0.56
30.
728
0.31
90.
326
0.52
0.47
10.
259
0.11
10.
431
0.19
0.2590.1910.145
0.087
0.14
50.01
0.0290.071
0.1990.311
0.40
3
0.2820.395
0.43
0.2430.094
0.42
0.42
7
0.23
80.
371
0.27
8
0.17
0.2680.16
0.3220.301
0.09
80.
074
0.103
0.06
60.
062
0.08
5
0.2620.202
0.02
8
0.3380.401
0.2640.03
1
0.06
30.
077
0.07
10.
062
0.05
8
0.08
40.
098
0.07
20.
051
0.09
2
0.05
0.05
0.06
30.
041
0.03
50.
032
0.02
9
MZD
I
ANDS
MZDI
MZD
I
ANDS
MZD
I
0.0630.1090.071
CGH-06-103167.6m
0.093AND
S
0.01
HBAS
ANDS
MZD
I
0.03
10.00
70.
047
GRST
GR
ST
FAUL
0.02
0.00
50.
019
0.02
60.
011
HBPOC
HRT
0.02
50.
021
0.01
4
MZDI
CGH-0
5-04
1
CGH-0
6-08
7
CGH-0
6-09
0
CGH-0
6-10
3
0.13
7
WCKE
HBPO
0.05
0.03
0.03
50.
031
0.02
3
0.06
50.
051
0.05
4
0.05
0.11
30.
132
0.08
0.0220.0050.1680.3340.252
0.24
0.16
0.23
20.
225
0.19
1
0.20
3
0.07
60.
093
0.11
5
CHRT
WCKE
FAUL
CASE
CHRT
0.02
20.
024
0.03
20.
034
0.04
3
0.01
40.
030.
026
0.02
8
0.00
8
0.00
9
0.01
20.
018
0.00
8
0.04
9
0.01
0.01
80.
021
CGH-04-017224.6m
0.02
10.
021
0.01
4
0.01
8
0.02
9
0.01
1
0.06
0.05
5
0.06
7
0.15
4
0.05
1
0.05
30.
068
0.10
4
0.06
5
0.19
1
CGH-05-027322.0m
0.03
0.07
2
GRST
HBPO
0.02
3
0.01
70.01
2
0.01
30.
017
0.02
30.
020.
018
0.01
4
WCKE
FAUL
WCKE
0.13
40.
025
0.02
60.
044
0.02
5
0.11
40.
051
GRST
MZDI
SLST
BATF
MO
NZ
SLST
MO
NZ
SLST
MZDI
0.01
2
0.01
0.00
8
0.01
4
0.00
9
0.01
6
0.01
4
HBPO
0.02
0.03
0.05
3
0.01
4
0.00
6
0.01
0.01
0.03
0.01
0.04
0.01
0.01
0.01
0.137
HBPOFAUL
FAUL
0.01
0.109
0.115
0.063
0.05
0.01
0.02
0.02
0.029
0.005
0.06
HBPO
0.009
0.006
0.009
0.273
0.032
0.01
0.8080.7
96
0.736
0.577
0.512
0.592
.392
23
0.01
10.22
40.18
6
SLST
0.14
0.21
0.26
7
0.24
1
MZDI
0.00
80.
175
0.24
8
0.23
7
0.01
6
0.01
60.
030.
019
0.02
5
0.03
3
BATF
0.18
90.
079
0.11
20.
054
0.56
6
SLST
FAUL
MZD
I
0.53
60.
359
0.51
70.
501
491
0.01
0.02
0.01
0.01
0.01
0.01
0.05
0.09
0.02
0.04
0.02
0.04
0.04
0.03
0.01
0.18
0.15
0.09
0.07
0.07
0.07
0.06
0.01
0.14
0.02
0.070.
050.
050.
03
0.09
0.04
0.02
0.06
0.05
0.03
0.02
0.04
0.04
0.02
0.05
0.06
0.02
0.06
0.02
0.07
0.03
0.03
0.04
0.02
0.07
0.04
0.04
0.04
0.07
0.09
0.11
0.1
0.07
0.12
0.03
0.06
0.12
0.11
0.22
0.22
0.24
0.13
0.14
0.07
0.01
0.29
0.18
0.56
0.23
0.38
0.090.
10.
16
0.04
0.18
0.17
0.12
0.12
0.16
0.02
0.03
0.25
0.13
0.08
0.04
0.02
0.05
0.01
0.03
0.02
0.1
0.01
0.05
0.06
0.05
0.1
0.05
0.05
0.18
0.08
0.03
0.07
0.1
0.07
0.05
0.07
0.06
0.14
0.13
0.02
0.01
0.16
0.64
0.490.62
0.25
OVBD
0.03
0.07
0.06
0.11
0.11
0.06
0.11
0.06
0.03
0.07
0.07
0.09
0.07
0.06
0.1
0.07
0.09
0.09
0.05
0.13
0.17
0.16
0.17
0.12
0.51
0.5
0.08
0.15
0.18
0.32
0.46
0.18
0.23
0.21
0.22
0.03
0.02
0.37
0.08
0.11
0.14
0.22
0.25
0.01
0.04
0.05
0.03
0.02
0.03
0.02
0.03
0.01
0.14
0.01
0.01
0.02
0.02
0.01
0.02
0.03
0.05
0.02
0.07
0.02
0.12
0.1
0.14
0.2
0.18
0.08
0.03
0.1
0.12
0.13
0.07
0.28
0.16
0.23
0.07
0.17
0.08
0.18
0.24
0.2
0.14
0.46
0.03
0.14
0.15
MZDI
0.06
0.660.45
0.39
0.79
0.251.08
0.76
0.01
0.320.11
0.1
0.13
0.15
0.16
0.11
0.120.09
0.15
0.09
0.09
0.14
0.17
0.1
0.07
0.16
0.15
0.09
0.06
0.05
0.14
0.17
0.44
0.62
0.92
0.39
0.51
0.37
0.3
0.25
0.09
0.4
0.16
0.5
0.32
0.160.16
0.220.35
0.180.13
0.270.26
0.450.04
0.06
0.03
0.05
0.04
0.05
0.26
0.02
0.06
0.03
0.01
0.03
0.02
0.03
OVBD
OVBD
0.08
0.04
0.05
0.05
0.06
0.13
0.08
0.06
0.02
0.01
0.01
0.02
0.01
.21
0.07
0.22
0.11
0.08
0.04
0.07
0.06
0.07
0.16
0.07
0.26
0.26
0.09
0.01
0.01
0.02
0.01
0.01
0.01
0.08
0.05
0.09
0.02
0.02
0.090.
07
0.05
0.09
0.190.1
3
0.04
0.01
0.01
0.01
0.06
0.2
0.16
.01
0.010.01
0.110.37
0.21
0.07
0.05
0.220.14
0.20.12
0.27
0.030.06
0.180.36
0.38
0.360.22
0.090.46
0.650.360.
01
0.01
0.1
0.18
0.06
15801540
)
)
)
)
CGH-04-017224.6m
CGH-06-103167.6m
CGH-06-087256.0mCGH-05-027
322.0m
CGH-06-090304.8m
CGH-05-041346.6m
CGH-06-090
CGH-06-087
CGH-05-041
CGH-06-103
Fig.
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Scale:
Date: NTS: 104G/9,16
BRITISH COLUMBIA, CANADA
BCGS: 104G069,70,79,80,90
0 100 m
DONNELLY NORTH ZONE
CROSS-SECTION 424670 E
1:1000
Mar. 2007
(LOOKING WEST)
interbedded mudstone, siltstone & volcanic ash
layers are typically <= 1cm thick; cherts may be
recrystallized into fine to medium grained quartzite;
includes minor chert pebble (slump ?) breccias
Massive to thinly bedded; black; minor interbedded
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Fine to medium grained volcanic wackes & lithic
& wacke beds; locally limestone olistoliths; varies
Dark olive green to black; typically clinopyroxene
argillites to siltstones; includes minor interbedded
volcanic wackes, lithic wackes, basaltic tuffs &
Polymictic, pebble to cobble conglomerates and
sub-angular to sub-rounded fragments include a
variety of Stuhinni sediments, basalt volcanics
Very fine to medium grained, hornblende phyric
hornblende crystals; late alteration phase of MZDI
Debris flows (includes hot & cold slump breccias
& lahars); Material consists of green to maroon
Undifferentiated flows, dykes, sills and tuffs;
coloured, plagioclase-hornblende porphyritic,
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
UNCONFORMITY
Black, massive to thinly bedded, fissile shales
with minor siltstone and fine sandstone intervals
Fine to coarse grained, generally poorly sorted
volcanic sandstone to pebbly sandstone;
includes massive wacke intervals
siltstone and fine sandstone matrix
Heterolithic pebble conglomerate; dark shale,
Late stage, equigranular, medium grained,
Undifferentiated flows and high-level intrusives
Leucocratic, equigranular, medium grained diorite
Dacite tuffs, lapilli tuffs & tuff breccias;
Undifferentiated flows, dykes, sills and tuffs;
phyric varieties
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
microbrecciated, crackle brecciated and brecciated intervals
DRILL HOLE LEGEND
Ro
ck T
yp
e C
od
e
Fine to medium grained basaltic tuff, lapilli tuff
Medium grained, plagioclase phyric, mesocratic
leucocratic interbbed tuffs and crystal tuffs of
breccias; includes coarse sandstone interbeds;
phyric phases; likely represents intense K-spar
calcareous and "skarn" altered sections; slump
breccia and debris flow textures are common
White to black, massive to thinly bedded;
aphanitic groundmass; 10-15%, 1-2mm altered
monzodiorite; includes minor diorite phases; is
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
Equigranular, medium grained, mesocratic
hornblende &/or biotite bearing
siltstone & basaltic tuff horizons; varies from
non mineralized monzodiorite to diorite;
postdates most copper mineralization
Groat Stock; fine to medium grained, weak to
latite to monzonite; typically pale pink, tan to
pale green coloured; hornblende crystals
commonly leached & replaced by carbonate;
Medium grained syenite; includes hornblende
alteration of monzonite; locally occurs as fine
grained dykelets; alteration phase of MZDI
Hornblende-feldspar porphyry; fine grained to
to leucocratic, "crowded porphyry" monzonite;
calcareous beds; intervals are often silicified
coarse sandstone or chert (< 5cm) beds
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
Red brown, tan, light grey to pale green silty
possible latite composition
phyric; includes flows, flow top breccias,
irregular high-level plugs and dykes
from massive to thinly bedded units; graded
wackes; includes minor interbedded argillite,
flow textures are common; includes minor,
and monzodiorite intrusives.
alteration phase of MZDI
bedding is common
DIOR
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
includes crudely reworked equivalents
typically plagioclase +- hornblende phyric
Andesite to microdiorite dykes; includes
equigranular and hornblende+-plagioclase
STRUCTURE LEGEND
Fault Zone: includes faults, shears & crushed intervals
Brecciated Zone: includes strongly fractured, shattered,
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
ASSAY LEGEND
assay color codes
GEOLOGY LEGEND
CASE
mislatch, grinding, etc.
Hydrothermal & Intrusive (injection) Breccias
> 0.50
0.30 - 0.50
0.20 - 0.30
0.10 - 0.20
0.05 - 0.10
< 0.05
Cu
(%
)
X.XXXXXXX
Ro
ck T
yp
e
Str
uct
ure
Overburden; includes rubble and
LOWER JURASSIC VOLCANICS
RECENT
unconsolidated glacial till & alluvium
least two different rock types
LDIO
X.XX
Au
(g
/t)
OVBD
FAUL
DACT
LOST
DATF
ANDS
MDRT
MONZ
alteration phase of MZDI
HBPO
HSYN
QTMZ
PMNZ
GRST
PMBX
MDST
WCKE
BATF
CHRT
SLST
MZDI
PBAS
MIN
ER
AL
IZE
D Z
ON
E
mafic, hornblende diorite
typically amygdaloidal
MDIO
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
DBFL
SNDS
SHAL
CONG
HBAS
CHER Chert
PO
ST
MIN
ER
AL
IZA
TIO
N
8.3.6
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Dark olive green to black; typically clinopyroxene
& wacke beds; locally limestone olistoliths; varies
interbedded mudstone to siltstone beds, typically
argillites to siltstones; includes minor interbedded
Fine to medium grained volcanic wackes & lithic
siltstone & basaltic tuff horizons; varies from
wackes; includes minor interbedded argillite,
and monzodiorite intrusives.
variety of Stuhinni sediments, basalt volcanics
sub-angular to sub-rounded fragments include a
breccias; includes coarse sandstone interbeds;
Polymictic, pebble to cobble conglomerates and
Fine to medium grained basaltic tuff, lapilli tuff
phyric; includes flows, flow top breccias,
volcanic wackes, lithic wackes, basaltic tuffs &
quartzite; includes minor chert pebble breccias,
likely related to "slumping"
leucocratic interbbed tuffs and crystal tuffs of
recrystallized into fine to medium grained
<= 1cm thick are common; cherts may be
White to black, massive to thinly bedded;
breccia and debris flow textures are common
calcareous and "skarn" altered sections; slump
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
flow textures are common; includes minor,
calcareous beds; intervals are often silicified
Red brown, tan, light grey to pale green silty
from massive to thinly bedded units; graded
irregular high-level plugs and dykes
Very fine to medium grained, hornblende phyric
phyric phases; likely represents intense K-spar
Black, massive to thinly bedded, fissile shales
& lahars); Material consists of green to maroon
latite to monzonite; typically pale pink, tan to
Medium grained syenite; includes hornblende
commonly leached & replaced by carbonate
pale green coloured; hornblende crystals
to pebbly sandstone
Poorly sorted volcanic (andesitic) sandstone
coloured, plagioclase-hornblende porphyritic,
Late stage, equigranular, medium grained,
UNCONFORMITY
flows and high-level intrusives
equigranular and hornblende+-plagioclase
Andesite to microdiorite dykes; includes
andesite flows and tuffs
Leucocratic, equigranular, medium grained diorite
Debris flows (includes hot & cold slump breccias
Cream coloured dacite; includes undifferentiated
phyric varieties
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
Equigranular & plagioclase+-hornblende phyric
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
calc
ula
ted
%cp
y
calc
ula
ted
%p
y
Chert pebble conglomerates and dark grey
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
UNCONFORMITY
UNCONFORMITY
least two different rock types
includes strongly fractured, shattered, microbrecciated,
mislatch, grinding, etc.
to black siltstones to mudstones
unconsolidated glacial till & alluvium
GEOLOGY LEGEND
Ro
ck T
yp
e
Str
uct
ure
XXXXX.XX X.XX
DRILL HOLE LEGEND
crackle brecciated and brecciated intervals
Fault Zone
CASE
LOST
FAUL
Brecciated Zone
Hydrothermal & Intrusive (injection)
Breccias
includes faults, shears & crushed intervals
X.XX
STRUCTURE LEGEND
Overburden; includes rubble and
MIDDLE JURASSIC BOWSER LAKE GROUP SEDIMENTS
un
ityN
P :
MP
A
Ro
ck T
yp
e C
od
e
Dacite lapilli tuffs
LOWER JURASSIC VOLCANICS
LDIO
ANDS
OVBD
BOWR
DACT
DATF
MDRT
DBFL
SNDS
SHAL
RECENT
PO
ST
MIN
ER
AL
IZA
TIO
N
to leucocratic monzonite. Often occurs as a
alteration of monzonite; locally occurs as fine
Medium grained, plagioclase phyric, mesocratic
possible latite composition
Equigranular, medium grained, mesocratic
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
mafic, hornblende diorite
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
monzodiorite; includes minor diorite phases; is
hornblende &/or biotite bearing
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
bedding is common
"crowded porphyry"
Limestone beds
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
MONZ
MDIO
HSYN
QTMZ
PMNZ
MZDI
DIOR
grained dykelets
CHRT
SLST
LMST
PMBX
WCKE
PBAS
BATF
MIN
ER
AL
IZE
D Z
ON
E
6391300mN
6391400mN
6391500mN
6391700mN
6391600mN
6391800mN
6391900mN
6392000mN
1500m Elev.
1600m Elev.
1400m Elev.
1200m Elev.
1300m Elev.
1100m Elev.
6391200mN
CGH-06-132131.1m
0.03
9
MZD
I
0.01
1
0.07
60.
044
0.05
0.04
20.
043
FAUL
0.33
0.13
0.08
0.09
0.06
0.01
0.03
0.03
MZD
I
0.11
0.05
MZD
IFA
UL
CGH-06-096256.0m
0.01
5
0.01
7
0.01
0.01
4
0.02
2
0.02
1
0.01
2
0.02
3
0.01
3
MZDI
0.03
0.02
0.02
0.03
4
0.01
2
FAUL
0.03
5
0.04
2
0.06
9
0.02
6
0.05
0.10
70.03
5
MZD
IFA
ULM
ZDI
0.08
0.17
50.
192
0.10
20.
023
0.03
CHRT
CHRT
0.03
0.04
0.09
0.04
0.05
0.07
7
MZD
I
CHRT
0.04
CHRT
0.04
0.03
0.07
0.07
0.14
0.09
0.1
CGH-0
6-09
6CGH-0
6-13
2
CGH-0
6-13
3
0.170.230.010.210.34
0.14
0.440.170.290.2
0.18
0.260.230.460.1
0.03
5
HBAS
0.01
9
0.02
6
0.02
9
0.02
1
0.03
0.01
0.04
0.07
0.01
0.03
3
0.03
0.03
0.04
0.05
0.07
0.030.
006
0.08
0.00
9
0.14
2
0.15
0.22
4
0.11
8
0.01
1
0.02
5
MZD
I
0.010.
04
0.06
0.03
0.02
0.07
0.14
0.03
0.33
0.13
0.1
0.19
0.13
0.24
0.1
0.08
0.27
0.11
0.23
0.5
0.06
0.25
0.23
0.14
0.14
2
0.15
1
0.08
1
0.07
6
0.11
1
0.14
2
0.09
2
0.07
60.14
2
0.26
2
0.05
4
0.16
3
0.03
5
0.03
5
0.20
5
0.21
4
0.07
70.
033
0.13
9
0.10
2
0.04
7
0.1540.
047
0.07
3
0.00
70.1850.095
CGH-06-133106.7m
0.1
0.14
0.2
0.14
0.03
0.02
0.148
HBAS
0.0290.170.3620.0150.172
0.136
0.3270.28
0.192
0.15
MZDI
0.145
HBAS
0.01
3
0.00
2
0.05
0.01
0.01
0.02
0.24
0.05
0.04
0.12
0.02
0.01
OVBD
0.1290.2010.180.580.1540.173
0.11
6
0.1750.129
0.03
2
0.06
1
0.09
0.10
40.33
0.230.190.22
0.10
8
0.11
8
0.14
4
0.17
2
0.160.
14
0.07
0.06
0.07
0.12
0.14
0.01
0.05
0.33
0.12
1
0.07
6
0.10
2
0.12
3
0.07
7
0.20.
14 MZD
I
MZDI
0.26
0.23
0.18
0.1
0.18
0.18
0.15
0.130.2
0.10
6
0.04
1
0.05
2
0.07
1
0.11
6
0.05
7
0.01
2
0.01
3
0.02
5
0.05
8
0.15
CGH-05-039224.6m
0.01
PMBX
PBAS
WCKE
CHRT
0.01
0.01
0.01
10.02
50.02
2
0.04
9
0.01
3
0.01
0.18
4
0.03
7
0.01
0.02
0.02
0.01
0.02
0.04
70.
023
0.03
4
0.07
6
0.05
60.
0140.
20.01
1
0.06
6
0.02
0.03
0.01
0.01
0.01
0.02
0.02
5
0.03
4
0.24
3
0.24
2
0.27
3
0.19
4
0.23
4
0.01
4
0.00
3
0.00
70.
020.
012
0.01
8
0.02
4
0.01
4
0.01
5
WCKE
CHRT
PBAS
0.02
0.01
0.01
0.01
MZD
I
FAUL
DACT
0.04
0.09
0.02
0.03
0.02
FAUL
0.03
0.01
0.09
0.06
0.24
WCKE
MO
NZ
WCKE
0.06
0.21
MZD
I
0.08
0.07
0.15
0.06
0.19
0.2
0.15
0.17
0.03
0.03
0.28
0.1
0.13
90.
091
0.08
9
0.16
0.18
2
0.16
70.13
10.12
7
0.18
7
0.09
0.14
0.10
1
0.15
9
0.14
3
0.06
4
0.58
8
0.34
2
0.22
1
0.22
2
0.09
5
0.53
0.58
3
0.33
5
1.06
0.77
7
.61
6
0.54
8
0.76
5
0.210.
13
0.330.
23
0.06
WCKE
0.47
0.1
0.16
0.22
0.28
MZDIFAUL
CHRT
.32
0.07
0.08
CGH-05-040337.4m
0.00
60.00
5
0.00
8
0.00
8
0.01
3
0.01
1
0.00
6
0.01
1
0.01
7
CHRT
CHRT
GRST
0.01
0.01
0.07
0.01
0.01
0.01
6
0.01
2
0.01
6
0.01
4
0.01
50.
017
0.02
0.01
3
0.01
2
0.01
0.01
0.01
0.01
0.04
0.05
0.02
0.14
0.020.
033
5
1
.059
0.02
4
0.09
1
0.03
8
0.02
3
0.04
1
OVBD
OVBD
157
0
1600
1560
) ))
CGH-05-040337.4m
CGH-05-039224.6m
CGH-06-133106.7m
CGH-06-132131.1m
CGH-06-096256.0m
CGH-06-096CGH-06-133 CGH-06-132
Fig.
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Scale:
Date: NTS: 104G/9,16
BRITISH COLUMBIA, CANADA
BCGS: 104G069,70,79,80,90
0 100 m
DONNELLY NORTH ZONE
CROSS-SECTION 424770 E
1:1000
Mar. 2007
(LOOKING WEST)
interbedded mudstone, siltstone & volcanic ash
layers are typically <= 1cm thick; cherts may be
recrystallized into fine to medium grained quartzite;
includes minor chert pebble (slump ?) breccias
Massive to thinly bedded; black; minor interbedded
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Fine to medium grained volcanic wackes & lithic
& wacke beds; locally limestone olistoliths; varies
Dark olive green to black; typically clinopyroxene
argillites to siltstones; includes minor interbedded
volcanic wackes, lithic wackes, basaltic tuffs &
Polymictic, pebble to cobble conglomerates and
sub-angular to sub-rounded fragments include a
variety of Stuhinni sediments, basalt volcanics
Very fine to medium grained, hornblende phyric
hornblende crystals; late alteration phase of MZDI
Debris flows (includes hot & cold slump breccias
& lahars); Material consists of green to maroon
Undifferentiated flows, dykes, sills and tuffs;
coloured, plagioclase-hornblende porphyritic,
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
UNCONFORMITY
Black, massive to thinly bedded, fissile shales
with minor siltstone and fine sandstone intervals
Fine to coarse grained, generally poorly sorted
volcanic sandstone to pebbly sandstone;
includes massive wacke intervals
siltstone and fine sandstone matrix
Heterolithic pebble conglomerate; dark shale,
Late stage, equigranular, medium grained,
Undifferentiated flows and high-level intrusives
Leucocratic, equigranular, medium grained diorite
Dacite tuffs, lapilli tuffs & tuff breccias;
Undifferentiated flows, dykes, sills and tuffs;
phyric varieties
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
microbrecciated, crackle brecciated and brecciated intervals
DRILL HOLE LEGEND
Ro
ck T
yp
e C
od
e
Fine to medium grained basaltic tuff, lapilli tuff
Medium grained, plagioclase phyric, mesocratic
leucocratic interbbed tuffs and crystal tuffs of
breccias; includes coarse sandstone interbeds;
phyric phases; likely represents intense K-spar
calcareous and "skarn" altered sections; slump
breccia and debris flow textures are common
White to black, massive to thinly bedded;
aphanitic groundmass; 10-15%, 1-2mm altered
monzodiorite; includes minor diorite phases; is
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
Equigranular, medium grained, mesocratic
hornblende &/or biotite bearing
siltstone & basaltic tuff horizons; varies from
non mineralized monzodiorite to diorite;
postdates most copper mineralization
Groat Stock; fine to medium grained, weak to
latite to monzonite; typically pale pink, tan to
pale green coloured; hornblende crystals
commonly leached & replaced by carbonate;
Medium grained syenite; includes hornblende
alteration of monzonite; locally occurs as fine
grained dykelets; alteration phase of MZDI
Hornblende-feldspar porphyry; fine grained to
to leucocratic, "crowded porphyry" monzonite;
calcareous beds; intervals are often silicified
coarse sandstone or chert (< 5cm) beds
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
Red brown, tan, light grey to pale green silty
possible latite composition
phyric; includes flows, flow top breccias,
irregular high-level plugs and dykes
from massive to thinly bedded units; graded
wackes; includes minor interbedded argillite,
flow textures are common; includes minor,
and monzodiorite intrusives.
alteration phase of MZDI
bedding is common
DIOR
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
includes crudely reworked equivalents
typically plagioclase +- hornblende phyric
Andesite to microdiorite dykes; includes
equigranular and hornblende+-plagioclase
STRUCTURE LEGEND
Fault Zone: includes faults, shears & crushed intervals
Brecciated Zone: includes strongly fractured, shattered,
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
ASSAY LEGEND
assay color codes
GEOLOGY LEGEND
CASE
mislatch, grinding, etc.
Hydrothermal & Intrusive (injection) Breccias
> 0.50
0.30 - 0.50
0.20 - 0.30
0.10 - 0.20
0.05 - 0.10
< 0.05
Cu
(%
)
X.XXXXXXX
Ro
ck T
yp
e
Str
uct
ure
Overburden; includes rubble and
LOWER JURASSIC VOLCANICS
RECENT
unconsolidated glacial till & alluvium
least two different rock types
LDIO
X.XX
Au
(g
/t)
OVBD
FAUL
DACT
LOST
DATF
ANDS
MDRT
MONZ
alteration phase of MZDI
HBPO
HSYN
QTMZ
PMNZ
GRST
PMBX
MDST
WCKE
BATF
CHRT
SLST
MZDI
PBAS
MIN
ER
AL
IZE
D Z
ON
E
mafic, hornblende diorite
typically amygdaloidal
MDIO
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
DBFL
SNDS
SHAL
CONG
HBAS
CHER Chert
PO
ST
MIN
ER
AL
IZA
TIO
N
8.3.7
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Dark olive green to black; typically clinopyroxene
& wacke beds; locally limestone olistoliths; varies
interbedded mudstone to siltstone beds, typically
argillites to siltstones; includes minor interbedded
Fine to medium grained volcanic wackes & lithic
siltstone & basaltic tuff horizons; varies from
wackes; includes minor interbedded argillite,
and monzodiorite intrusives.
variety of Stuhinni sediments, basalt volcanics
sub-angular to sub-rounded fragments include a
breccias; includes coarse sandstone interbeds;
Polymictic, pebble to cobble conglomerates and
Fine to medium grained basaltic tuff, lapilli tuff
phyric; includes flows, flow top breccias,
volcanic wackes, lithic wackes, basaltic tuffs &
quartzite; includes minor chert pebble breccias,
likely related to "slumping"
leucocratic interbbed tuffs and crystal tuffs of
recrystallized into fine to medium grained
<= 1cm thick are common; cherts may be
White to black, massive to thinly bedded;
breccia and debris flow textures are common
calcareous and "skarn" altered sections; slump
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
flow textures are common; includes minor,
calcareous beds; intervals are often silicified
Red brown, tan, light grey to pale green silty
from massive to thinly bedded units; graded
irregular high-level plugs and dykes
Very fine to medium grained, hornblende phyric
phyric phases; likely represents intense K-spar
Black, massive to thinly bedded, fissile shales
& lahars); Material consists of green to maroon
latite to monzonite; typically pale pink, tan to
Medium grained syenite; includes hornblende
commonly leached & replaced by carbonate
pale green coloured; hornblende crystals
to pebbly sandstone
Poorly sorted volcanic (andesitic) sandstone
coloured, plagioclase-hornblende porphyritic,
Late stage, equigranular, medium grained,
UNCONFORMITY
flows and high-level intrusives
equigranular and hornblende+-plagioclase
Andesite to microdiorite dykes; includes
andesite flows and tuffs
Leucocratic, equigranular, medium grained diorite
Debris flows (includes hot & cold slump breccias
Cream coloured dacite; includes undifferentiated
phyric varieties
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
Equigranular & plagioclase+-hornblende phyric
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
calc
ula
ted
%cp
y
calc
ula
ted
%p
y
Chert pebble conglomerates and dark grey
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
UNCONFORMITY
UNCONFORMITY
least two different rock types
includes strongly fractured, shattered, microbrecciated,
mislatch, grinding, etc.
to black siltstones to mudstones
unconsolidated glacial till & alluvium
GEOLOGY LEGEND
Ro
ck T
yp
e
Str
uct
ure
XXXXX.XX X.XX
DRILL HOLE LEGEND
crackle brecciated and brecciated intervals
Fault Zone
CASE
LOST
FAUL
Brecciated Zone
Hydrothermal & Intrusive (injection)
Breccias
includes faults, shears & crushed intervals
X.XX
STRUCTURE LEGEND
Overburden; includes rubble and
MIDDLE JURASSIC BOWSER LAKE GROUP SEDIMENTS
un
ityN
P :
MP
A
Ro
ck T
yp
e C
od
e
Dacite lapilli tuffs
LOWER JURASSIC VOLCANICS
LDIO
ANDS
OVBD
BOWR
DACT
DATF
MDRT
DBFL
SNDS
SHAL
RECENT
PO
ST
MIN
ER
AL
IZA
TIO
N
to leucocratic monzonite. Often occurs as a
alteration of monzonite; locally occurs as fine
Medium grained, plagioclase phyric, mesocratic
possible latite composition
Equigranular, medium grained, mesocratic
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
mafic, hornblende diorite
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
monzodiorite; includes minor diorite phases; is
hornblende &/or biotite bearing
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
bedding is common
"crowded porphyry"
Limestone beds
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
MONZ
MDIO
HSYN
QTMZ
PMNZ
MZDI
DIOR
grained dykelets
CHRT
SLST
LMST
PMBX
WCKE
PBAS
BATF
MIN
ER
AL
IZE
D Z
ON
E
6391300mN
6391400mN
6391500mN
6391700mN
6391600mN
6391800mN
6391900mN
6392000mN
1500m Elev.
1600m Elev.
1400m Elev.
1200m Elev.
1300m Elev.
1100m Elev.
6391200mN
0.008
CGH-06-115189.0m
CGH-0
6-11
5
0.010.011
OVBD
0.007
0.010.0070.011
0.0110.016
0.007
0.0190.012
0.0090.016
0.018
0.0070.008
0.010.009
0.031
0.0280.020.0150.02
0.006
0.0090.0190.0250.019
0.008
0.0230.0350.015
0.016
0.017
0.0230.0130.0130.011
0.017
0.0170.0220.020.022
0.017
0.0140.010.009
0.016
0.011
0.0160.005
0.0180.004
CHRT
CHRT
MZD
ICHRTM
ZDI
0.07
0.040.110.060.04
0.1
0.03
0.050.050.070.05
0.07
0.050.050.050.11
MZD
I
MZD
ICHRTM
ZDIC
HRT
0.11
0.070.080.050.05
0.09
0.130.10.160.09
0.05
0.05
0.07
0.070.230.220.2
0.1
0.110.070.10.12
0.07
0.390.110.110.08
0.06
0.060.160.10.15
0.07
0.140.070.110.080.1
1620
1580
1590
)
)
CGH-05-022187.8m
CGH-04-002287.1m
CGH-05-070244.4m
CGH-05-024345.9m
CGH-06-115189.0m
CGH-05-068
CGH-06-115
Fig.
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Scale:
Date: NTS: 104G/9,16
BRITISH COLUMBIA, CANADA
BCGS: 104G069,70,79,80,90
0 100 m
SADDLE ZONE
CROSS-SECTION 424960 E
1:1000
Mar. 2007
(LOOKING WEST)
interbedded mudstone, siltstone & volcanic ash
layers are typically <= 1cm thick; cherts may be
recrystallized into fine to medium grained quartzite;
includes minor chert pebble (slump ?) breccias
Massive to thinly bedded; black; minor interbedded
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Fine to medium grained volcanic wackes & lithic
& wacke beds; locally limestone olistoliths; varies
Dark olive green to black; typically clinopyroxene
argillites to siltstones; includes minor interbedded
volcanic wackes, lithic wackes, basaltic tuffs &
Polymictic, pebble to cobble conglomerates and
sub-angular to sub-rounded fragments include a
variety of Stuhinni sediments, basalt volcanics
Very fine to medium grained, hornblende phyric
hornblende crystals; late alteration phase of MZDI
Debris flows (includes hot & cold slump breccias
& lahars); Material consists of green to maroon
Undifferentiated flows, dykes, sills and tuffs;
coloured, plagioclase-hornblende porphyritic,
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
UNCONFORMITY
Black, massive to thinly bedded, fissile shales
with minor siltstone and fine sandstone intervals
Fine to coarse grained, generally poorly sorted
volcanic sandstone to pebbly sandstone;
includes massive wacke intervals
siltstone and fine sandstone matrix
Heterolithic pebble conglomerate; dark shale,
Late stage, equigranular, medium grained,
Undifferentiated flows and high-level intrusives
Leucocratic, equigranular, medium grained diorite
Dacite tuffs, lapilli tuffs & tuff breccias;
Undifferentiated flows, dykes, sills and tuffs;
phyric varieties
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
microbrecciated, crackle brecciated and brecciated intervals
DRILL HOLE LEGEND
Ro
ck T
yp
e C
od
e
Fine to medium grained basaltic tuff, lapilli tuff
Medium grained, plagioclase phyric, mesocratic
leucocratic interbbed tuffs and crystal tuffs of
breccias; includes coarse sandstone interbeds;
phyric phases; likely represents intense K-spar
calcareous and "skarn" altered sections; slump
breccia and debris flow textures are common
White to black, massive to thinly bedded;
aphanitic groundmass; 10-15%, 1-2mm altered
monzodiorite; includes minor diorite phases; is
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
Equigranular, medium grained, mesocratic
hornblende &/or biotite bearing
siltstone & basaltic tuff horizons; varies from
non mineralized monzodiorite to diorite;
postdates most copper mineralization
Groat Stock; fine to medium grained, weak to
latite to monzonite; typically pale pink, tan to
pale green coloured; hornblende crystals
commonly leached & replaced by carbonate;
Medium grained syenite; includes hornblende
alteration of monzonite; locally occurs as fine
grained dykelets; alteration phase of MZDI
Hornblende-feldspar porphyry; fine grained to
to leucocratic, "crowded porphyry" monzonite;
calcareous beds; intervals are often silicified
coarse sandstone or chert (< 5cm) beds
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
Red brown, tan, light grey to pale green silty
possible latite composition
phyric; includes flows, flow top breccias,
irregular high-level plugs and dykes
from massive to thinly bedded units; graded
wackes; includes minor interbedded argillite,
flow textures are common; includes minor,
and monzodiorite intrusives.
alteration phase of MZDI
bedding is common
DIOR
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
includes crudely reworked equivalents
typically plagioclase +- hornblende phyric
Andesite to microdiorite dykes; includes
equigranular and hornblende+-plagioclase
STRUCTURE LEGEND
Fault Zone: includes faults, shears & crushed intervals
Brecciated Zone: includes strongly fractured, shattered,
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
ASSAY LEGEND
assay color codes
GEOLOGY LEGEND
CASE
mislatch, grinding, etc.
Hydrothermal & Intrusive (injection) Breccias
> 0.50
0.30 - 0.50
0.20 - 0.30
0.10 - 0.20
0.05 - 0.10
< 0.05
Cu
(%
)
X.XXXXXXX
Ro
ck T
yp
e
Str
uct
ure
Overburden; includes rubble and
LOWER JURASSIC VOLCANICS
RECENT
unconsolidated glacial till & alluvium
least two different rock types
LDIO
X.XX
Au
(g
/t)
OVBD
FAUL
DACT
LOST
DATF
ANDS
MDRT
MONZ
alteration phase of MZDI
HBPO
HSYN
QTMZ
PMNZ
GRST
PMBX
MDST
WCKE
BATF
CHRT
SLST
MZDI
PBAS
MIN
ER
AL
IZE
D Z
ON
E
mafic, hornblende diorite
typically amygdaloidal
MDIO
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
DBFL
SNDS
SHAL
CONG
HBAS
CHER Chert
PO
ST
MIN
ER
AL
IZA
TIO
N
8.3.8
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Dark olive green to black; typically clinopyroxene
& wacke beds; locally limestone olistoliths; varies
interbedded mudstone to siltstone beds, typically
argillites to siltstones; includes minor interbedded
Fine to medium grained volcanic wackes & lithic
siltstone & basaltic tuff horizons; varies from
wackes; includes minor interbedded argillite,
and monzodiorite intrusives.
variety of Stuhinni sediments, basalt volcanics
sub-angular to sub-rounded fragments include a
breccias; includes coarse sandstone interbeds;
Polymictic, pebble to cobble conglomerates and
Fine to medium grained basaltic tuff, lapilli tuff
phyric; includes flows, flow top breccias,
volcanic wackes, lithic wackes, basaltic tuffs &
quartzite; includes minor chert pebble breccias,
likely related to "slumping"
leucocratic interbbed tuffs and crystal tuffs of
recrystallized into fine to medium grained
<= 1cm thick are common; cherts may be
White to black, massive to thinly bedded;
breccia and debris flow textures are common
calcareous and "skarn" altered sections; slump
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
flow textures are common; includes minor,
calcareous beds; intervals are often silicified
Red brown, tan, light grey to pale green silty
from massive to thinly bedded units; graded
irregular high-level plugs and dykes
Very fine to medium grained, hornblende phyric
phyric phases; likely represents intense K-spar
Black, massive to thinly bedded, fissile shales
& lahars); Material consists of green to maroon
latite to monzonite; typically pale pink, tan to
Medium grained syenite; includes hornblende
commonly leached & replaced by carbonate
pale green coloured; hornblende crystals
to pebbly sandstone
Poorly sorted volcanic (andesitic) sandstone
coloured, plagioclase-hornblende porphyritic,
Late stage, equigranular, medium grained,
UNCONFORMITY
flows and high-level intrusives
equigranular and hornblende+-plagioclase
Andesite to microdiorite dykes; includes
andesite flows and tuffs
Leucocratic, equigranular, medium grained diorite
Debris flows (includes hot & cold slump breccias
Cream coloured dacite; includes undifferentiated
phyric varieties
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
Equigranular & plagioclase+-hornblende phyric
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
calc
ula
ted
%cp
y
calc
ula
ted
%p
y
Chert pebble conglomerates and dark grey
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
UNCONFORMITY
UNCONFORMITY
least two different rock types
includes strongly fractured, shattered, microbrecciated,
mislatch, grinding, etc.
to black siltstones to mudstones
unconsolidated glacial till & alluvium
GEOLOGY LEGEND
Ro
ck T
yp
e
Str
uct
ure
XXXXX.XX X.XX
DRILL HOLE LEGEND
crackle brecciated and brecciated intervals
Fault Zone
CASE
LOST
FAUL
Brecciated Zone
Hydrothermal & Intrusive (injection)
Breccias
includes faults, shears & crushed intervals
X.XX
STRUCTURE LEGEND
Overburden; includes rubble and
MIDDLE JURASSIC BOWSER LAKE GROUP SEDIMENTS
un
ityN
P :
MP
A
Ro
ck T
yp
e C
od
e
Dacite lapilli tuffs
LOWER JURASSIC VOLCANICS
LDIO
ANDS
OVBD
BOWR
DACT
DATF
MDRT
DBFL
SNDS
SHAL
RECENT
PO
ST
MIN
ER
AL
IZA
TIO
N
to leucocratic monzonite. Often occurs as a
alteration of monzonite; locally occurs as fine
Medium grained, plagioclase phyric, mesocratic
possible latite composition
Equigranular, medium grained, mesocratic
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
mafic, hornblende diorite
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
monzodiorite; includes minor diorite phases; is
hornblende &/or biotite bearing
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
bedding is common
"crowded porphyry"
Limestone beds
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
MONZ
MDIO
HSYN
QTMZ
PMNZ
MZDI
DIOR
grained dykelets
CHRT
SLST
LMST
PMBX
WCKE
PBAS
BATF
MIN
ER
AL
IZE
D Z
ON
E
6391300mN
6391400mN
6391500mN
6391700mN
6391600mN
6391800mN
6391900mN
6392000mN
1500m Elev.
1600m Elev.
1400m Elev.
1200m Elev.
1300m Elev.
1100m Elev.
6391200mN
CGH-06-112207.3m
0.00
40.00
3
0.00
4
0.00
40.00
50.00
7
0.00
5
MZDI
0.01
0.01
0.01
0.01
0.00
8
0.00
7
0.01
0.03
0.01
0.01
0.01
0.010.
25
0.01
CHRT
0.01
0.01
0.03
0.07
MZDI
0.01
0.01
0.01
0.05
CHRT
MZDI
0.03
0.07
0.04
0.02
0.02
0.01
0.01
0.03
0.03
0.04
0.04
0.03
CHRT
0.05
0.08
0.07
0.02
SLST
0.07
0.02
0.02
0.02
MZDI
0.04
0.03
0.04
0.05
0.04
0.02
0.03
0.05
0.03
0.09
0.04
0.03
0.03
0.03
0.00
6
0.01
2
0.00
7
0.01
2
0.00
7
0.00
4
0.01
1
0.00
5
0.00
6
0.01
0.00
3
0.01
6
0.00
9
0.00
8
0.00
9
0.01
2
0.01
7
0.00
4
0.01
1
CGH-0
6-11
2
OVBD
0.00
3
0.00
8
0.00
80.
012
0.01
2
0.02
2
0.01
0.00
8
0.00
4
0.00
4
0.00
5
0.01
0.01
0.01
1
0.00
5
0.01
3
0.01
0.00
6
0.00
4
0.00
6
0.01
3
0.01
0.01
5
0.01
6
0.01
2
0.00
8
0.00
7
0.00
6
0.00
8
0.00
8
1.34
0.03
CGH-06-128100.6m
CGH-0
6-12
8
0.56
10.
401
0.39
60.27
0.27
10.
371
0.29
70.
283
0.27
9
87.3
090.
21
MZD
IGRST
0.00
40.
002
0.01
3
BATF
0.24
30.
324
0.16
60.
015
0.23
1
CHRT
FAUL
0.23
20.28
10.
329
0.17
2
SLST
0.23
0.46
2
0.28
0.31
0.46
0.25
0.18
OVBD
MZD
I
0.67
0.57
0.37
0.45
0.38
0.47
0.4
0.56
0.63 M
ZDI
0.25
SLST
0.57
0.69
PMNZ
0.82
0.75
0.2
0.87
0.33
0.53
0.26
0.31
0.01
0.06
50.
011
0.01
1
0.12
40.
145
0.10
20.
126
0.24
30.
087
0.12
70.
116
0.31
1
0.64
30.
353
0.37
9
0.52
74.49
1.5
0.39
8
0.11
0.07
4.043.
64
0.80
20.
95
0.33
5.21
2.83
0.35
0.16
0.15
0.14
0.13
0.54
2
0.69
61.
29
0.76
20.
52
5.52
0.6
0.8
0.78
4.66
1.63
0.66
0.44
0.69
1.6
PMNZ
BATF
SLST
0.16
0.36
0.4
0.36
2.33
0.33
0.22
SLST
0.21
0.2
0.21
0.26
0.31
0.3
WCKE
SLST
FAUL
CGH-05-029509.0m
0.01
70.01
3
0.01
50.
012
0.01
50.
01
0.01
70.
013
0.01
60.
016
0.01
GR
ST
0.01
0.01
0.01
0.01
0.01
1
0.02
30.02
6
0.00
60.
023
0.010.
01
0.01
0.01
0.02
0.010.
007
0.00
60.
006
0.12
0.01
0.04
0.03
0.01
0.00
80.
008
0.00
9
0.01
0.00
50.01
1
0.00
30.
004
0.01
0.01
0.01
0.01
0.01
0.01 C
HR
T
0.01
0.01
0.46
30.
392
0.24
0.48
90.
407
0.40
60.
503
0.37
7
0.61
0.94
70.
546
0.34
8
0.80
5
0.65
30.
442
0.45
90.
697
0.44
4
0.47
90.
544
0.44
50.
531
0.21
5
0.48
90.
448
0.49
60.
413
0.42
0.37
40.
314
0.34
2
0.2
0.22
0.35
0.36
2.49
0.36
60.
255
0.22
10.
186
CGH-04-018188.1m
MZD
ISLS
TG
RST
0.01
0.03
0.03
FAUL
0.24
0.29
0.18
0.05
CGH-04-003279.2m
0.28
9
0.16
4
0.19
1.250.
63
0.27
0.33
0.45
0.18
0.19
0.15
0.16
0.16
0.23
0.14
MZDI
2
0.18
.31
0.2
LST
0.27
0.31
6
0.35
4
0.38
9
0.23
3
0.15
5
0.16
6
0.17
0.21
5
0.26
6
0.17
8
0.15
3
0.27
1
0.19
2
0.16
5
0.24
9
0.22
4
0.29
6
0.35
4
0.51
7
.179
2
0.01
0.01
20.
010.
01
0.04
4
0.32
50.
376
0.16
90.
241
CH
RT
DAC
T
260.
060.
020.
010.
020.
020.
07
0.32
3.3
07
0.12
0.07
0.08
0.03
0.06
0.12
0.18
0.12
0.13
0.72
0.06
0.07
0.04
1610
1600
)
)
CGH-06-110470.9m
CGH-04-003279.2m
CGH-04-018188.1m
CGH-06-128100.6m
CGH-06-112207.3m
CGH-06-128
CGH-06-112
Fig.
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Scale:
Date: NTS: 104G/9,16
BRITISH COLUMBIA, CANADA
BCGS: 104G069,70,79,80,90
0 100 m
SADDLE ZONE
CROSS-SECTION 425110 E
1:1000
Mar. 2007
(LOOKING WEST)
interbedded mudstone, siltstone & volcanic ash
layers are typically <= 1cm thick; cherts may be
recrystallized into fine to medium grained quartzite;
includes minor chert pebble (slump ?) breccias
Massive to thinly bedded; black; minor interbedded
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Fine to medium grained volcanic wackes & lithic
& wacke beds; locally limestone olistoliths; varies
Dark olive green to black; typically clinopyroxene
argillites to siltstones; includes minor interbedded
volcanic wackes, lithic wackes, basaltic tuffs &
Polymictic, pebble to cobble conglomerates and
sub-angular to sub-rounded fragments include a
variety of Stuhinni sediments, basalt volcanics
Very fine to medium grained, hornblende phyric
hornblende crystals; late alteration phase of MZDI
Debris flows (includes hot & cold slump breccias
& lahars); Material consists of green to maroon
Undifferentiated flows, dykes, sills and tuffs;
coloured, plagioclase-hornblende porphyritic,
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
UNCONFORMITY
Black, massive to thinly bedded, fissile shales
with minor siltstone and fine sandstone intervals
Fine to coarse grained, generally poorly sorted
volcanic sandstone to pebbly sandstone;
includes massive wacke intervals
siltstone and fine sandstone matrix
Heterolithic pebble conglomerate; dark shale,
Late stage, equigranular, medium grained,
Undifferentiated flows and high-level intrusives
Leucocratic, equigranular, medium grained diorite
Dacite tuffs, lapilli tuffs & tuff breccias;
Undifferentiated flows, dykes, sills and tuffs;
phyric varieties
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
microbrecciated, crackle brecciated and brecciated intervals
DRILL HOLE LEGEND
Ro
ck T
yp
e C
od
e
Fine to medium grained basaltic tuff, lapilli tuff
Medium grained, plagioclase phyric, mesocratic
leucocratic interbbed tuffs and crystal tuffs of
breccias; includes coarse sandstone interbeds;
phyric phases; likely represents intense K-spar
calcareous and "skarn" altered sections; slump
breccia and debris flow textures are common
White to black, massive to thinly bedded;
aphanitic groundmass; 10-15%, 1-2mm altered
monzodiorite; includes minor diorite phases; is
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
Equigranular, medium grained, mesocratic
hornblende &/or biotite bearing
siltstone & basaltic tuff horizons; varies from
non mineralized monzodiorite to diorite;
postdates most copper mineralization
Groat Stock; fine to medium grained, weak to
latite to monzonite; typically pale pink, tan to
pale green coloured; hornblende crystals
commonly leached & replaced by carbonate;
Medium grained syenite; includes hornblende
alteration of monzonite; locally occurs as fine
grained dykelets; alteration phase of MZDI
Hornblende-feldspar porphyry; fine grained to
to leucocratic, "crowded porphyry" monzonite;
calcareous beds; intervals are often silicified
coarse sandstone or chert (< 5cm) beds
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
Red brown, tan, light grey to pale green silty
possible latite composition
phyric; includes flows, flow top breccias,
irregular high-level plugs and dykes
from massive to thinly bedded units; graded
wackes; includes minor interbedded argillite,
flow textures are common; includes minor,
and monzodiorite intrusives.
alteration phase of MZDI
bedding is common
DIOR
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
includes crudely reworked equivalents
typically plagioclase +- hornblende phyric
Andesite to microdiorite dykes; includes
equigranular and hornblende+-plagioclase
STRUCTURE LEGEND
Fault Zone: includes faults, shears & crushed intervals
Brecciated Zone: includes strongly fractured, shattered,
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
ASSAY LEGEND
assay color codes
GEOLOGY LEGEND
CASE
mislatch, grinding, etc.
Hydrothermal & Intrusive (injection) Breccias
> 0.50
0.30 - 0.50
0.20 - 0.30
0.10 - 0.20
0.05 - 0.10
< 0.05
Cu
(%
)
X.XXXXXXX
Ro
ck T
yp
e
Str
uct
ure
Overburden; includes rubble and
LOWER JURASSIC VOLCANICS
RECENT
unconsolidated glacial till & alluvium
least two different rock types
LDIO
X.XX
Au
(g
/t)
OVBD
FAUL
DACT
LOST
DATF
ANDS
MDRT
MONZ
alteration phase of MZDI
HBPO
HSYN
QTMZ
PMNZ
GRST
PMBX
MDST
WCKE
BATF
CHRT
SLST
MZDI
PBAS
MIN
ER
AL
IZE
D Z
ON
E
mafic, hornblende diorite
typically amygdaloidal
MDIO
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
DBFL
SNDS
SHAL
CONG
HBAS
CHER Chert
PO
ST
MIN
ER
AL
IZA
TIO
N
8.3.9
CGH-0
6-12
6
0.0090.0090.008
OVBD
0.0090.009
0.0110.010.009
DATF
CGH-06-126179.8m
0.010.010.01
0.010.01
0.010.010.01
CHRT
0.01
0.01
0.01
0.01
0.01
0.010.010.01
CHRT
MD
STCHRT
0.0070.0120.009
0.02
0.010.010.010.01
0.01
0.010.010.010.01
CGH-0
6-12
0
0.0070.005
OVBD
LOST
MZDI
0.005
0.0040.0070.0090.004
0.0030.003
0.01
0.01
0.010.010.010.01
0.0050.006
0.0040.004
0.010.010.010.030.01
0.006
0.0050.0060.005
0.01
0.010.010.030.01
0.0030.0060.003
MD
ST
CHRT
MD
ST
0.006
0.0070.0070.006
0.0090.005
0.005
0.0060.005
MDST
CGH-06-120149.3m
0.0050.006
CHRT
CHRT
MDST
CHRT
MDST
6392100mN
6392500mN
6392600mN
6392700mN
6392800mN
6392900mN
1700m Elev.
1600m Elev.
1500m Elev.
1300m Elev.
6392400mN
6392300mN
6392200mN
1400m Elev.
1640
)
)
CGH-06-126179.8mCGH-06-120
149.3m
CGH-06-120
CGH-06-126
Fig.
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Scale:
Date: NTS: 104G/9,16
BRITISH COLUMBIA, CANADA
BCGS: 104G069,70,79,80,90
0 100 m
SADDLE ZONE
CROSS-SECTION 425110 E
1:1000
Mar. 2007
(LOOKING WEST)
interbedded mudstone, siltstone & volcanic ash
layers are typically <= 1cm thick; cherts may be
recrystallized into fine to medium grained quartzite;
includes minor chert pebble (slump ?) breccias
Massive to thinly bedded; black; minor interbedded
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Fine to medium grained volcanic wackes & lithic
& wacke beds; locally limestone olistoliths; varies
Dark olive green to black; typically clinopyroxene
argillites to siltstones; includes minor interbedded
volcanic wackes, lithic wackes, basaltic tuffs &
Polymictic, pebble to cobble conglomerates and
sub-angular to sub-rounded fragments include a
variety of Stuhinni sediments, basalt volcanics
Very fine to medium grained, hornblende phyric
hornblende crystals; late alteration phase of MZDI
Debris flows (includes hot & cold slump breccias
& lahars); Material consists of green to maroon
Undifferentiated flows, dykes, sills and tuffs;
coloured, plagioclase-hornblende porphyritic,
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
UNCONFORMITY
Black, massive to thinly bedded, fissile shales
with minor siltstone and fine sandstone intervals
Fine to coarse grained, generally poorly sorted
volcanic sandstone to pebbly sandstone;
includes massive wacke intervals
siltstone and fine sandstone matrix
Heterolithic pebble conglomerate; dark shale,
Late stage, equigranular, medium grained,
Undifferentiated flows and high-level intrusives
Leucocratic, equigranular, medium grained diorite
Dacite tuffs, lapilli tuffs & tuff breccias;
Undifferentiated flows, dykes, sills and tuffs;
phyric varieties
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
microbrecciated, crackle brecciated and brecciated intervals
DRILL HOLE LEGEND
Ro
ck T
yp
e C
od
e
Fine to medium grained basaltic tuff, lapilli tuff
Medium grained, plagioclase phyric, mesocratic
leucocratic interbbed tuffs and crystal tuffs of
breccias; includes coarse sandstone interbeds;
phyric phases; likely represents intense K-spar
calcareous and "skarn" altered sections; slump
breccia and debris flow textures are common
White to black, massive to thinly bedded;
aphanitic groundmass; 10-15%, 1-2mm altered
monzodiorite; includes minor diorite phases; is
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
Equigranular, medium grained, mesocratic
hornblende &/or biotite bearing
siltstone & basaltic tuff horizons; varies from
non mineralized monzodiorite to diorite;
postdates most copper mineralization
Groat Stock; fine to medium grained, weak to
latite to monzonite; typically pale pink, tan to
pale green coloured; hornblende crystals
commonly leached & replaced by carbonate;
Medium grained syenite; includes hornblende
alteration of monzonite; locally occurs as fine
grained dykelets; alteration phase of MZDI
Hornblende-feldspar porphyry; fine grained to
to leucocratic, "crowded porphyry" monzonite;
calcareous beds; intervals are often silicified
coarse sandstone or chert (< 5cm) beds
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
Red brown, tan, light grey to pale green silty
possible latite composition
phyric; includes flows, flow top breccias,
irregular high-level plugs and dykes
from massive to thinly bedded units; graded
wackes; includes minor interbedded argillite,
flow textures are common; includes minor,
and monzodiorite intrusives.
alteration phase of MZDI
bedding is common
DIOR
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
includes crudely reworked equivalents
typically plagioclase +- hornblende phyric
Andesite to microdiorite dykes; includes
equigranular and hornblende+-plagioclase
STRUCTURE LEGEND
Fault Zone: includes faults, shears & crushed intervals
Brecciated Zone: includes strongly fractured, shattered,
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
ASSAY LEGEND
assay color codes
GEOLOGY LEGEND
CASE
mislatch, grinding, etc.
Hydrothermal & Intrusive (injection) Breccias
> 0.50
0.30 - 0.50
0.20 - 0.30
0.10 - 0.20
0.05 - 0.10
< 0.05
Cu
(%
)
X.XXXXXXX
Ro
ck T
yp
e
Str
uct
ure
Overburden; includes rubble and
LOWER JURASSIC VOLCANICS
RECENT
unconsolidated glacial till & alluvium
least two different rock types
LDIO
X.XX
Au
(g
/t)
OVBD
FAUL
DACT
LOST
DATF
ANDS
MDRT
MONZ
alteration phase of MZDI
HBPO
HSYN
QTMZ
PMNZ
GRST
PMBX
MDST
WCKE
BATF
CHRT
SLST
MZDI
PBAS
MIN
ER
AL
IZE
D Z
ON
E
mafic, hornblende diorite
typically amygdaloidal
MDIO
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
DBFL
SNDS
SHAL
CONG
HBAS
CHER Chert
PO
ST
MIN
ER
AL
IZA
TIO
N
8.3.10
6392500mN
6392100mN
6392200mN
6392300mN
6392400mN
1300m Elev.
6392000mN
6391700mN
6391800mN
6391900mN
1400m Elev.
1500m Elev.
1600m Elev.
1700m Elev.
CGH-06-114249.9m
0.00
1
0.00
2
0.00
3
0.00
3
MDST
0.00
4
MZDI
MDST
0.01
MZDI
0.01
0.01
0.01
0.01
HBTF
0.00
50.00
6
0.00
3
0.00
3
0.00
2
0.00
3
0.00
3
0.00
50.01
0.01
1
0.00
1
MDST
0.02
MZD
I
0.01
0.06
0.01
0.01
0.01
0.01
0.00
4
0.00
9
MDST
0.01
0.01
0.04
0.01
0.01
0.01
0.00
20.01
0.01
6
MDST
MZD
I
MZD
I0.
01
0.01
0.11
MDST
0.00
5
0.00
9
0.00
6
0.00
5
0.00
4
0.01
0.01
0.01
0.00
4
0.01
0.00
6
0.00
4
0.00
5
0.00
9
0.00
5
0.00
6
0.00
7
0.00
7
0.01
0.01
0.02
0.01
0.01
0.02
HBTF
0.00
6
CGH-0
6-11
4
WCKE
0.00
5
0.00
7
0.00
6
0.00
1
0.00
1
0.01
0.01
0.01
0.01
0.01
MZDI
0.00
70.00
50.00
6
0.00
6
0.00
6
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
WCKE0.
01
0.01
0.01
0.00
5O
VBD
Fig.
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Scale:
Date: NTS: 104G/9,16
BRITISH COLUMBIA, CANADA
BCGS: 104G069,70,79,80,90
0 100 m
SADDLE ZONE
CROSS-SECTION 425625 E
1:1000
Mar. 2007
(LOOKING WEST)
1670
1650
1660
1670
) CGH-06-114249.9m
CGH-06-114
interbedded mudstone, siltstone & volcanic ash
layers are typically <= 1cm thick; cherts may be
recrystallized into fine to medium grained quartzite;
includes minor chert pebble (slump ?) breccias
Massive to thinly bedded; black; minor interbedded
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Fine to medium grained volcanic wackes & lithic
& wacke beds; locally limestone olistoliths; varies
Dark olive green to black; typically clinopyroxene
argillites to siltstones; includes minor interbedded
volcanic wackes, lithic wackes, basaltic tuffs &
Polymictic, pebble to cobble conglomerates and
sub-angular to sub-rounded fragments include a
variety of Stuhinni sediments, basalt volcanics
Very fine to medium grained, hornblende phyric
hornblende crystals; late alteration phase of MZDI
Debris flows (includes hot & cold slump breccias
& lahars); Material consists of green to maroon
Undifferentiated flows, dykes, sills and tuffs;
coloured, plagioclase-hornblende porphyritic,
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
UNCONFORMITY
Black, massive to thinly bedded, fissile shales
with minor siltstone and fine sandstone intervals
Fine to coarse grained, generally poorly sorted
volcanic sandstone to pebbly sandstone;
includes massive wacke intervals
siltstone and fine sandstone matrix
Heterolithic pebble conglomerate; dark shale,
Late stage, equigranular, medium grained,
Undifferentiated flows and high-level intrusives
Leucocratic, equigranular, medium grained diorite
Dacite tuffs, lapilli tuffs & tuff breccias;
Undifferentiated flows, dykes, sills and tuffs;
phyric varieties
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
microbrecciated, crackle brecciated and brecciated intervals
DRILL HOLE LEGEND
Ro
ck T
yp
e C
od
e
Fine to medium grained basaltic tuff, lapilli tuff
Medium grained, plagioclase phyric, mesocratic
leucocratic interbbed tuffs and crystal tuffs of
breccias; includes coarse sandstone interbeds;
phyric phases; likely represents intense K-spar
calcareous and "skarn" altered sections; slump
breccia and debris flow textures are common
White to black, massive to thinly bedded;
aphanitic groundmass; 10-15%, 1-2mm altered
monzodiorite; includes minor diorite phases; is
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
Equigranular, medium grained, mesocratic
hornblende &/or biotite bearing
siltstone & basaltic tuff horizons; varies from
non mineralized monzodiorite to diorite;
postdates most copper mineralization
Groat Stock; fine to medium grained, weak to
latite to monzonite; typically pale pink, tan to
pale green coloured; hornblende crystals
commonly leached & replaced by carbonate;
Medium grained syenite; includes hornblende
alteration of monzonite; locally occurs as fine
grained dykelets; alteration phase of MZDI
Hornblende-feldspar porphyry; fine grained to
to leucocratic, "crowded porphyry" monzonite;
calcareous beds; intervals are often silicified
coarse sandstone or chert (< 5cm) beds
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
Red brown, tan, light grey to pale green silty
possible latite composition
phyric; includes flows, flow top breccias,
irregular high-level plugs and dykes
from massive to thinly bedded units; graded
wackes; includes minor interbedded argillite,
flow textures are common; includes minor,
and monzodiorite intrusives.
alteration phase of MZDI
bedding is common
DIOR
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
includes crudely reworked equivalents
typically plagioclase +- hornblende phyric
Andesite to microdiorite dykes; includes
equigranular and hornblende+-plagioclase
STRUCTURE LEGEND
Fault Zone: includes faults, shears & crushed intervals
Brecciated Zone: includes strongly fractured, shattered,
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
ASSAY LEGEND
assay color codes
GEOLOGY LEGEND
CASE
mislatch, grinding, etc.
Hydrothermal & Intrusive (injection) Breccias
> 0.50
0.30 - 0.50
0.20 - 0.30
0.10 - 0.20
0.05 - 0.10
< 0.05
Cu
(%
)
X.XXXXXXX
Ro
ck T
yp
e
Str
uct
ure
Overburden; includes rubble and
LOWER JURASSIC VOLCANICS
RECENT
unconsolidated glacial till & alluvium
least two different rock types
LDIO
X.XX
Au
(g
/t)
OVBD
FAUL
DACT
LOST
DATF
ANDS
MDRT
MONZ
alteration phase of MZDI
HBPO
HSYN
QTMZ
PMNZ
GRST
PMBX
MDST
WCKE
BATF
CHRT
SLST
MZDI
PBAS
MIN
ER
AL
IZE
D Z
ON
E
mafic, hornblende diorite
typically amygdaloidal
MDIO
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
DBFL
SNDS
SHAL
CONG
HBAS
CHER Chert
PO
ST
MIN
ER
AL
IZA
TIO
N
8.3.11
6392500mN
6392100mN
6392200mN
6392300mN
6392400mN
1300m Elev.
6392000mN
6391700mN
6391800mN
6391900mN
1400m Elev.
1500m Elev.
1600m Elev.
1700m Elev.
CGH-0
6-11
7
0.0060.068
0.0270.018
0.046
0.0560.079
MZD
I
OVBD
MDST
0.1
0.140.130.06
0.1
0.020.080.04
MDST
CHRT
BATFCHRTM
ZDI
0.14
0.02
0.040.070.01
0.0090.0360.1120.077
0.1220.011
0.0530.033
0.020.012
CHRTM
ZDICH
RT
0.060.110.080.030.12
HBASCH
RTM
ZDIHBAS
MZDIHBAS
0.15
0.09
0.160.050.060.01
0.05
0.010.010.010.04
0.09
0.010.10.210.03
0.060.030.11
0.04
0.0240.0230.011
0.0290.0070.020.0070.009
0.0040.0170.031
0.0060.089
0.2950.009
0.0560.0160.006
HBAS
MZDICH
RTM
ZDI
0.014
CHRT
0.04
0.019
0.0130.0110.011
0.023
0.0110.0110.0090.006
0.0080.0080.017
0.06
0.060.110.080.06
0.040.0130.002
0.0330.009
0.02
0.040.020.010.010.01M
ZDI
CGH-06-117155.4m
0.0050.008
0.033
0.05M
DST
0.010.030.010.010.010.010.01M
ZDI
MZDICH
RTCHRT
Fig.
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Scale:
Date: NTS: 104G/9,16
BRITISH COLUMBIA, CANADA
BCGS: 104G069,70,79,80,90
0 100 m
SADDLE ZONE
CROSS-SECTION 425885 E
1:1000
Mar. 2007
(LOOKING WEST)
)
CGH-06-117155.4m
CGH-06-117
interbedded mudstone, siltstone & volcanic ash
layers are typically <= 1cm thick; cherts may be
recrystallized into fine to medium grained quartzite;
includes minor chert pebble (slump ?) breccias
Massive to thinly bedded; black; minor interbedded
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Fine to medium grained volcanic wackes & lithic
& wacke beds; locally limestone olistoliths; varies
Dark olive green to black; typically clinopyroxene
argillites to siltstones; includes minor interbedded
volcanic wackes, lithic wackes, basaltic tuffs &
Polymictic, pebble to cobble conglomerates and
sub-angular to sub-rounded fragments include a
variety of Stuhinni sediments, basalt volcanics
Very fine to medium grained, hornblende phyric
hornblende crystals; late alteration phase of MZDI
Debris flows (includes hot & cold slump breccias
& lahars); Material consists of green to maroon
Undifferentiated flows, dykes, sills and tuffs;
coloured, plagioclase-hornblende porphyritic,
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
UNCONFORMITY
Black, massive to thinly bedded, fissile shales
with minor siltstone and fine sandstone intervals
Fine to coarse grained, generally poorly sorted
volcanic sandstone to pebbly sandstone;
includes massive wacke intervals
siltstone and fine sandstone matrix
Heterolithic pebble conglomerate; dark shale,
Late stage, equigranular, medium grained,
Undifferentiated flows and high-level intrusives
Leucocratic, equigranular, medium grained diorite
Dacite tuffs, lapilli tuffs & tuff breccias;
Undifferentiated flows, dykes, sills and tuffs;
phyric varieties
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
microbrecciated, crackle brecciated and brecciated intervals
DRILL HOLE LEGEND
Ro
ck T
yp
e C
od
e
Fine to medium grained basaltic tuff, lapilli tuff
Medium grained, plagioclase phyric, mesocratic
leucocratic interbbed tuffs and crystal tuffs of
breccias; includes coarse sandstone interbeds;
phyric phases; likely represents intense K-spar
calcareous and "skarn" altered sections; slump
breccia and debris flow textures are common
White to black, massive to thinly bedded;
aphanitic groundmass; 10-15%, 1-2mm altered
monzodiorite; includes minor diorite phases; is
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
Equigranular, medium grained, mesocratic
hornblende &/or biotite bearing
siltstone & basaltic tuff horizons; varies from
non mineralized monzodiorite to diorite;
postdates most copper mineralization
Groat Stock; fine to medium grained, weak to
latite to monzonite; typically pale pink, tan to
pale green coloured; hornblende crystals
commonly leached & replaced by carbonate;
Medium grained syenite; includes hornblende
alteration of monzonite; locally occurs as fine
grained dykelets; alteration phase of MZDI
Hornblende-feldspar porphyry; fine grained to
to leucocratic, "crowded porphyry" monzonite;
calcareous beds; intervals are often silicified
coarse sandstone or chert (< 5cm) beds
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
Red brown, tan, light grey to pale green silty
possible latite composition
phyric; includes flows, flow top breccias,
irregular high-level plugs and dykes
from massive to thinly bedded units; graded
wackes; includes minor interbedded argillite,
flow textures are common; includes minor,
and monzodiorite intrusives.
alteration phase of MZDI
bedding is common
DIOR
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
includes crudely reworked equivalents
typically plagioclase +- hornblende phyric
Andesite to microdiorite dykes; includes
equigranular and hornblende+-plagioclase
STRUCTURE LEGEND
Fault Zone: includes faults, shears & crushed intervals
Brecciated Zone: includes strongly fractured, shattered,
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
ASSAY LEGEND
assay color codes
GEOLOGY LEGEND
CASE
mislatch, grinding, etc.
Hydrothermal & Intrusive (injection) Breccias
> 0.50
0.30 - 0.50
0.20 - 0.30
0.10 - 0.20
0.05 - 0.10
< 0.05
Cu
(%
)
X.XXXXXXX
Ro
ck T
yp
e
Str
uct
ure
Overburden; includes rubble and
LOWER JURASSIC VOLCANICS
RECENT
unconsolidated glacial till & alluvium
least two different rock types
LDIO
X.XX
Au
(g
/t)
OVBD
FAUL
DACT
LOST
DATF
ANDS
MDRT
MONZ
alteration phase of MZDI
HBPO
HSYN
QTMZ
PMNZ
GRST
PMBX
MDST
WCKE
BATF
CHRT
SLST
MZDI
PBAS
MIN
ER
AL
IZE
D Z
ON
E
mafic, hornblende diorite
typically amygdaloidal
MDIO
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
DBFL
SNDS
SHAL
CONG
HBAS
CHER Chert
PO
ST
MIN
ER
AL
IZA
TIO
N
8.3.12
6391900mN
6392000mN
6391700mN
6391600mN
6391800mN
6391400mN
6391500mN
1400m Elev.
6391300mN
6391200mN
1500m Elev.
1600m Elev.
1700m Elev.
1300m Elev.
CGH-0
6-11
8
0.0110.0250.01
0.015
0.0030.0160.0230.018
OVBD
0.01
0.10.010.01
0.02
0.03
BATF
PMBX
BATF
0.40.06
0.013
0.007
0.0040.0130.0140.008
MZDI
0.0070.0040.0040.001
0.005
0.007
0.0060.0040.004
0.01
0.010.01
0.010.01
0.0060.0050.0050.0110.0130.0170.0060.0020.0050.0160.0150.0160.0180.010.009
0.01
PBAS
0.030.02
0.01
0.01
0.040.01
0.010.01
0.02
BATF
0.040.01
0.01
0.01
0.01
0.010.01
0.01
0.010.01 0.004
0.010.003
0.0120.011
CGH-06-118137.2m
0.014
0.01
0.010.01
0.010.01
0.010.01
0.010.01
0.010.01
1650
1600
159
0
1630
1580
1570
)
CGH-06-118137.2m
CGH-06-118
Fig.
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Scale:
Date: NTS: 104G/9,16
BRITISH COLUMBIA, CANADA
BCGS: 104G069,70,79,80,90
0 100 m
NORTH ZONE
CROSS-SECTION 426085 E
1:1000
Mar. 2007
(LOOKING WEST)
interbedded mudstone, siltstone & volcanic ash
layers are typically <= 1cm thick; cherts may be
recrystallized into fine to medium grained quartzite;
includes minor chert pebble (slump ?) breccias
Massive to thinly bedded; black; minor interbedded
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Fine to medium grained volcanic wackes & lithic
& wacke beds; locally limestone olistoliths; varies
Dark olive green to black; typically clinopyroxene
argillites to siltstones; includes minor interbedded
volcanic wackes, lithic wackes, basaltic tuffs &
Polymictic, pebble to cobble conglomerates and
sub-angular to sub-rounded fragments include a
variety of Stuhinni sediments, basalt volcanics
Very fine to medium grained, hornblende phyric
hornblende crystals; late alteration phase of MZDI
Debris flows (includes hot & cold slump breccias
& lahars); Material consists of green to maroon
Undifferentiated flows, dykes, sills and tuffs;
coloured, plagioclase-hornblende porphyritic,
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
UNCONFORMITY
Black, massive to thinly bedded, fissile shales
with minor siltstone and fine sandstone intervals
Fine to coarse grained, generally poorly sorted
volcanic sandstone to pebbly sandstone;
includes massive wacke intervals
siltstone and fine sandstone matrix
Heterolithic pebble conglomerate; dark shale,
Late stage, equigranular, medium grained,
Undifferentiated flows and high-level intrusives
Leucocratic, equigranular, medium grained diorite
Dacite tuffs, lapilli tuffs & tuff breccias;
Undifferentiated flows, dykes, sills and tuffs;
phyric varieties
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
microbrecciated, crackle brecciated and brecciated intervals
DRILL HOLE LEGEND
Ro
ck T
yp
e C
od
e
Fine to medium grained basaltic tuff, lapilli tuff
Medium grained, plagioclase phyric, mesocratic
leucocratic interbbed tuffs and crystal tuffs of
breccias; includes coarse sandstone interbeds;
phyric phases; likely represents intense K-spar
calcareous and "skarn" altered sections; slump
breccia and debris flow textures are common
White to black, massive to thinly bedded;
aphanitic groundmass; 10-15%, 1-2mm altered
monzodiorite; includes minor diorite phases; is
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
Equigranular, medium grained, mesocratic
hornblende &/or biotite bearing
siltstone & basaltic tuff horizons; varies from
non mineralized monzodiorite to diorite;
postdates most copper mineralization
Groat Stock; fine to medium grained, weak to
latite to monzonite; typically pale pink, tan to
pale green coloured; hornblende crystals
commonly leached & replaced by carbonate;
Medium grained syenite; includes hornblende
alteration of monzonite; locally occurs as fine
grained dykelets; alteration phase of MZDI
Hornblende-feldspar porphyry; fine grained to
to leucocratic, "crowded porphyry" monzonite;
calcareous beds; intervals are often silicified
coarse sandstone or chert (< 5cm) beds
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
Red brown, tan, light grey to pale green silty
possible latite composition
phyric; includes flows, flow top breccias,
irregular high-level plugs and dykes
from massive to thinly bedded units; graded
wackes; includes minor interbedded argillite,
flow textures are common; includes minor,
and monzodiorite intrusives.
alteration phase of MZDI
bedding is common
DIOR
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
includes crudely reworked equivalents
typically plagioclase +- hornblende phyric
Andesite to microdiorite dykes; includes
equigranular and hornblende+-plagioclase
STRUCTURE LEGEND
Fault Zone: includes faults, shears & crushed intervals
Brecciated Zone: includes strongly fractured, shattered,
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
ASSAY LEGEND
assay color codes
GEOLOGY LEGEND
CASE
mislatch, grinding, etc.
Hydrothermal & Intrusive (injection) Breccias
> 0.50
0.30 - 0.50
0.20 - 0.30
0.10 - 0.20
0.05 - 0.10
< 0.05
Cu
(%
)
X.XXXXXXX
Ro
ck T
yp
e
Str
uct
ure
Overburden; includes rubble and
LOWER JURASSIC VOLCANICS
RECENT
unconsolidated glacial till & alluvium
least two different rock types
LDIO
X.XX
Au
(g
/t)
OVBD
FAUL
DACT
LOST
DATF
ANDS
MDRT
MONZ
alteration phase of MZDI
HBPO
HSYN
QTMZ
PMNZ
GRST
PMBX
MDST
WCKE
BATF
CHRT
SLST
MZDI
PBAS
MIN
ER
AL
IZE
D Z
ON
E
mafic, hornblende diorite
typically amygdaloidal
MDIO
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
DBFL
SNDS
SHAL
CONG
HBAS
CHER Chert
PO
ST
MIN
ER
AL
IZA
TIO
N
8.3.13
CGH-06-137179.8m
0.01
1
0.00
2
WCKE
0.01
0.01 PM
BX
SLST
PMBX
SLST
0.00
7
0.00
5
0.00
3
BATF
PMBX
WCKE
PMBX
ANDS0.01
0.02
0.01
PMBX
0.01
6
PMBX
MZDI
0.01
0.00
6
PMBX
SLST
PMBX
SLST
PMBX
SLST
0.01
0.01
7
0.01
4
0.02
4
PMBXSLS
T
SLST
0.01
SLST
PMBX
PMBX0.
03
0.04
0.02
7
CGH-0
6-13
7
0.03
4
0.04
4
MZDI
0.02
MZD
I
BATF
MZD
I
BATF
0.02
0.05
9
0.01
3
0.01
7BATF
OVBD
BATF
MZD
I
0.03
0.06
0.06
0.09
6391900mN
6392000mN
6391700mN
6391600mN
6391800mN
6391400mN
6391500mN
1400m Elev.
6391300mN
6391200mN
1500m Elev.
1600m Elev.
1700m Elev.
1300m Elev.
1690
1670 )
CGH-06-137179.8m
CGH-06-137
Fig.
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Scale:
Date: NTS: 104G/9,16
BRITISH COLUMBIA, CANADA
BCGS: 104G069,70,79,80,90
0 100 m
NORTH ZONE
CROSS-SECTION 426900 E
1:1000
Mar. 2007
(LOOKING WEST)
interbedded mudstone, siltstone & volcanic ash
layers are typically <= 1cm thick; cherts may be
recrystallized into fine to medium grained quartzite;
includes minor chert pebble (slump ?) breccias
Massive to thinly bedded; black; minor interbedded
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Fine to medium grained volcanic wackes & lithic
& wacke beds; locally limestone olistoliths; varies
Dark olive green to black; typically clinopyroxene
argillites to siltstones; includes minor interbedded
volcanic wackes, lithic wackes, basaltic tuffs &
Polymictic, pebble to cobble conglomerates and
sub-angular to sub-rounded fragments include a
variety of Stuhinni sediments, basalt volcanics
Very fine to medium grained, hornblende phyric
hornblende crystals; late alteration phase of MZDI
Debris flows (includes hot & cold slump breccias
& lahars); Material consists of green to maroon
Undifferentiated flows, dykes, sills and tuffs;
coloured, plagioclase-hornblende porphyritic,
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
UNCONFORMITY
Black, massive to thinly bedded, fissile shales
with minor siltstone and fine sandstone intervals
Fine to coarse grained, generally poorly sorted
volcanic sandstone to pebbly sandstone;
includes massive wacke intervals
siltstone and fine sandstone matrix
Heterolithic pebble conglomerate; dark shale,
Late stage, equigranular, medium grained,
Undifferentiated flows and high-level intrusives
Leucocratic, equigranular, medium grained diorite
Dacite tuffs, lapilli tuffs & tuff breccias;
Undifferentiated flows, dykes, sills and tuffs;
phyric varieties
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
microbrecciated, crackle brecciated and brecciated intervals
DRILL HOLE LEGEND
Ro
ck T
yp
e C
od
e
Fine to medium grained basaltic tuff, lapilli tuff
Medium grained, plagioclase phyric, mesocratic
leucocratic interbbed tuffs and crystal tuffs of
breccias; includes coarse sandstone interbeds;
phyric phases; likely represents intense K-spar
calcareous and "skarn" altered sections; slump
breccia and debris flow textures are common
White to black, massive to thinly bedded;
aphanitic groundmass; 10-15%, 1-2mm altered
monzodiorite; includes minor diorite phases; is
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
Equigranular, medium grained, mesocratic
hornblende &/or biotite bearing
siltstone & basaltic tuff horizons; varies from
non mineralized monzodiorite to diorite;
postdates most copper mineralization
Groat Stock; fine to medium grained, weak to
latite to monzonite; typically pale pink, tan to
pale green coloured; hornblende crystals
commonly leached & replaced by carbonate;
Medium grained syenite; includes hornblende
alteration of monzonite; locally occurs as fine
grained dykelets; alteration phase of MZDI
Hornblende-feldspar porphyry; fine grained to
to leucocratic, "crowded porphyry" monzonite;
calcareous beds; intervals are often silicified
coarse sandstone or chert (< 5cm) beds
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
Red brown, tan, light grey to pale green silty
possible latite composition
phyric; includes flows, flow top breccias,
irregular high-level plugs and dykes
from massive to thinly bedded units; graded
wackes; includes minor interbedded argillite,
flow textures are common; includes minor,
and monzodiorite intrusives.
alteration phase of MZDI
bedding is common
DIOR
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
includes crudely reworked equivalents
typically plagioclase +- hornblende phyric
Andesite to microdiorite dykes; includes
equigranular and hornblende+-plagioclase
STRUCTURE LEGEND
Fault Zone: includes faults, shears & crushed intervals
Brecciated Zone: includes strongly fractured, shattered,
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
ASSAY LEGEND
assay color codes
GEOLOGY LEGEND
CASE
mislatch, grinding, etc.
Hydrothermal & Intrusive (injection) Breccias
> 0.50
0.30 - 0.50
0.20 - 0.30
0.10 - 0.20
0.05 - 0.10
< 0.05
Cu
(%
)
X.XXXXXXX
Ro
ck T
yp
e
Str
uct
ure
Overburden; includes rubble and
LOWER JURASSIC VOLCANICS
RECENT
unconsolidated glacial till & alluvium
least two different rock types
LDIO
X.XX
Au
(g
/t)
OVBD
FAUL
DACT
LOST
DATF
ANDS
MDRT
MONZ
alteration phase of MZDI
HBPO
HSYN
QTMZ
PMNZ
GRST
PMBX
MDST
WCKE
BATF
CHRT
SLST
MZDI
PBAS
MIN
ER
AL
IZE
D Z
ON
E
mafic, hornblende diorite
typically amygdaloidal
MDIO
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
DBFL
SNDS
SHAL
CONG
HBAS
CHER Chert
PO
ST
MIN
ER
AL
IZA
TIO
N
8.3.14
DBFL
SHAL
DATF
DATF
DACT
0.03
5
0.03
4
DATFDACTDATF
SHAL
0.01
0.01
CGH-0
6-12
4
CGH-06-121384.1m
CGH-06-124207.3mSHAL
ANDS
SNDS
HBAS
SNDS
ANDS
OVBD
DBFL
HBAS
0.03
5
0.00
6
DATF
0.01
0.03
40.
002
0.01
3
0.00
8HBAS
0.01
0.01
0.01
0.01
0.01
CGH-0
6-12
1
HBAS
DATF
OVBD
6393700mN
425000mE
6393400mN
6393500mN
6393600mN
1600m Elev.
1500m Elev.
1400m Elev.
1300m Elev.
6393300mN
6393200mN
425200mE
425100mE
6393000mN
6393100mN
1700m Elev.
1690
)
)
CGH-06-124207.3m
CGH-06-121384.1m
CGH-06-121
CGH-06-124
Fig.
KINASKAN LAKE PROJECT
Canadian Gold Hunter Corp.
Scale:
Date: NTS: 104G/9,16
BRITISH COLUMBIA, CANADA
BCGS: 104G069,70,79,80,90
0 100 m
YT ZONE
CROSS-SECTION CGH-06-121,124
1:1000
Mar. 2007
(LOOKING WSW)
interbedded mudstone, siltstone & volcanic ash
layers are typically <= 1cm thick; cherts may be
recrystallized into fine to medium grained quartzite;
includes minor chert pebble (slump ?) breccias
Massive to thinly bedded; black; minor interbedded
and volcanic breccia; interbedded argillite, siltstone
massive to thinly bedded; includes calcareous and
"skarn" altered sections; slump breccia and debris
Fine to medium grained volcanic wackes & lithic
& wacke beds; locally limestone olistoliths; varies
Dark olive green to black; typically clinopyroxene
argillites to siltstones; includes minor interbedded
volcanic wackes, lithic wackes, basaltic tuffs &
Polymictic, pebble to cobble conglomerates and
sub-angular to sub-rounded fragments include a
variety of Stuhinni sediments, basalt volcanics
Very fine to medium grained, hornblende phyric
hornblende crystals; late alteration phase of MZDI
Debris flows (includes hot & cold slump breccias
& lahars); Material consists of green to maroon
Undifferentiated flows, dykes, sills and tuffs;
coloured, plagioclase-hornblende porphyritic,
andesite pebble to cobble sized fragments within
a sandstone matrix of andesite composition
UNCONFORMITY
Black, massive to thinly bedded, fissile shales
with minor siltstone and fine sandstone intervals
Fine to coarse grained, generally poorly sorted
volcanic sandstone to pebbly sandstone;
includes massive wacke intervals
siltstone and fine sandstone matrix
Heterolithic pebble conglomerate; dark shale,
Late stage, equigranular, medium grained,
Undifferentiated flows and high-level intrusives
Leucocratic, equigranular, medium grained diorite
Dacite tuffs, lapilli tuffs & tuff breccias;
Undifferentiated flows, dykes, sills and tuffs;
phyric varieties
Casing; generally little to no core recovery
Lost core; no core recovery due to void,
microbrecciated, crackle brecciated and brecciated intervals
DRILL HOLE LEGEND
Ro
ck T
yp
e C
od
e
Fine to medium grained basaltic tuff, lapilli tuff
Medium grained, plagioclase phyric, mesocratic
leucocratic interbbed tuffs and crystal tuffs of
breccias; includes coarse sandstone interbeds;
phyric phases; likely represents intense K-spar
calcareous and "skarn" altered sections; slump
breccia and debris flow textures are common
White to black, massive to thinly bedded;
aphanitic groundmass; 10-15%, 1-2mm altered
monzodiorite; includes minor diorite phases; is
Equigranular, medium grained, mesocratic
monzonite to quartz monzonite.
Equigranular, medium grained, mesocratic
hornblende &/or biotite bearing
siltstone & basaltic tuff horizons; varies from
non mineralized monzodiorite to diorite;
postdates most copper mineralization
Groat Stock; fine to medium grained, weak to
latite to monzonite; typically pale pink, tan to
pale green coloured; hornblende crystals
commonly leached & replaced by carbonate;
Medium grained syenite; includes hornblende
alteration of monzonite; locally occurs as fine
grained dykelets; alteration phase of MZDI
Hornblende-feldspar porphyry; fine grained to
to leucocratic, "crowded porphyry" monzonite;
calcareous beds; intervals are often silicified
coarse sandstone or chert (< 5cm) beds
common in more silicified portions; includes
more typically well bedded; mottled textures
&/or hornfelsed; unit varies from massive to
Red brown, tan, light grey to pale green silty
possible latite composition
phyric; includes flows, flow top breccias,
irregular high-level plugs and dykes
from massive to thinly bedded units; graded
wackes; includes minor interbedded argillite,
flow textures are common; includes minor,
and monzodiorite intrusives.
alteration phase of MZDI
bedding is common
DIOR
UPPER TRIASSIC STUHINNI GROUP SEDIMENTS & VOLCANICS
Equigranular, medium to coarse grained,
hornblende+-biotite diorite
includes crudely reworked equivalents
typically plagioclase +- hornblende phyric
Andesite to microdiorite dykes; includes
equigranular and hornblende+-plagioclase
STRUCTURE LEGEND
Fault Zone: includes faults, shears & crushed intervals
Brecciated Zone: includes strongly fractured, shattered,
Fault zone; includes fault gouge, fault breccia
& crushed intervals; contains fragments of at
ASSAY LEGEND
assay color codes
GEOLOGY LEGEND
CASE
mislatch, grinding, etc.
Hydrothermal & Intrusive (injection) Breccias
> 0.50
0.30 - 0.50
0.20 - 0.30
0.10 - 0.20
0.05 - 0.10
< 0.05
Cu
(%
)
X.XXXXXXX
Ro
ck T
yp
e
Str
uct
ure
Overburden; includes rubble and
LOWER JURASSIC VOLCANICS
RECENT
unconsolidated glacial till & alluvium
least two different rock types
LDIO
X.XX
Au
(g
/t)
OVBD
FAUL
DACT
LOST
DATF
ANDS
MDRT
MONZ
alteration phase of MZDI
HBPO
HSYN
QTMZ
PMNZ
GRST
PMBX
MDST
WCKE
BATF
CHRT
SLST
MZDI
PBAS
MIN
ER
AL
IZE
D Z
ON
E
mafic, hornblende diorite
typically amygdaloidal
MDIO
LATE TRIASSIC to EARLY JURASSIC INTRUSIVES
DBFL
SNDS
SHAL
CONG
HBAS
CHER Chert
PO
ST
MIN
ER
AL
IZA
TIO
N
8.3.15
