Assessment Report On Trenching and Trench Mapping

On

Mantle Lake Trenching Pro{~ram #3

Marsh Township, Claim 4201386 and 4201395 Sault Ste. Marie Mining Division

Northeastern Ontario NTS 42 B/4

Written by:

Claudia Wilck RR#1 Parry Sound Ontario P2A 2W7

June 30, 2009

For

Chalice Diamond Corp Chapleau Diamond ProjE~ct -

RECEIVED

JUl 202009 GEOSCIENCE ASSESSMENT

OFFICE

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2 - 4217 ,

COVER LETTER

This report contains reference to samples that were taken, but were not used for assessment credits at this time. The reason for this is that the samples in question are on hold at the lab waiting to be processed when the decision is made by Chalice Diamond

Corp. They have been included in the text of the report so that when the results are in they can

be submitted without re-writing the report. For the purposes of this report, only the physical work to excavate the trench and conduct

the mapping was used for assessment credit.

All samples marked in RED on page 12 were not used.

TABLE OF CONTENTS

Introduction - Ownership, description and overview..... ... ...... ......... ..... ......... 1 Location and Access ......... '" " .............. ' ... .... . .. '" .. ' '" " .. " ........ '" .. 1 General Geology... .. . . . . . . . .. . ........ ... ......... . . . .. . . . . .. .. . .............................................. 1 Personnel .......... ' ....... " ................. " .. ' '" ." ......... ' '" .................... ' ......... 2 Sampling Procedure ..................... " .. ' ...................... ' ..................... " ........... 2 Analytical Procedures Discussion ..................... " ...................................................... 2 Trenching Discussion and Recommendations ........................................................ 11

Figures (in back pocket of report)

Figure 1: Key Location Map Figure 2: Trench Location and Access Map Figure 3: Trench and Sample Location Map

Appendices: Appendix 1 - Trench Photographs. .. '.' .................................................... 13 Appendix 2 - Trench Sketches ....... " ............................................................... 17 Appendix 3 - Field Logs... .. ..... ...... .... ................. ' ................ " .. , ................ 21 Appendix 4 - Actlabs: Geochemical Analysis Results with Certificate of Analysis ......... 23

Introduction - Ownership, Description and Overview

Golden Chalice Resources Inc. of Vancouver, British Columbia ho!lds 100% interest in 2 claims being numbers: 420 1395( 16 units/256ha) and 420 1386( II units/176ha). This report covers work conducted on claims 4201395 and 4201386. Golden Chalice Resources Inc and Chalice Diamond Corp. have an approved Plan of Arrangement in place since September 21,2006 and as a result. work may be filed by Chalice Diamond Corp on behalf of Golden Chalice Rt:sources Inc claims. As part of an ongoing exploration program focusing on diamond bearing rocks, a large area of Marsh Township was selected for a detailed ground magnetic survey. The purpose of this survey was to find narrow ultramafic dikes that do not appear in the airborne geophysics, but do appear when surveyed at higher resolution. Once these targets were interpreted, the more favorable ones were then selected for trenching and sampling.

Location and Access

The claims described in this report are located in Marsh Township, Sault Ste Marie Mining Division and both claims are contiguous. The claims are located about 16 km southeast of the town of Missanabie in northeastern Ontario. From the tuwn of Missinabi, travel 27 km South on Highway 651 to the village of Dalton. From Dalton, travel northeast on the Dora Jones logging Rd for approximately 15 km until the road ends. Continue East for approximately 2 km on rough A TV bush trail.

General (;eology (Modified from AFRI 42CO I NE2005, A Prospe.~ting Report Prepared by Paul W. Jones for Mike Tremblay)

The regional geology includes Nco to Meso Archean supercrustal rocks of mafic to intermediate metavolcanic nature with some felsic to intermediate metavolcanic inliers. Similar age and foliated to massive to gneissic tonalite suite rocks are also reported. Nco to Meso Archean mafic to ultramafic gabbro, anorthosite and other ultramafic: rocks are present. The regional fabric trends north east to east and parallels major struaures. The northeast trend is coincident with the Kapuskasing Structural Zone (KSZ), which is thought to have a deep-seated origin. This type of regional structUf<~ has the potential to tap the mantle lithosphere boundary where the diamond stability field is theorized to exist. These structural zones and associated faults are fertile features "ithin stable cratonic regions where kimberlite clusters have been discovered throughout the world. The local geology includes mafic to intermediate metavolcanic rocks, with local dioritic intrusions and lamprophyres dykes occurring in outcrop and are concordant with the regional foliation.

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Personnel

The following personnel worked on this property and conducted the field-work related to the trenching:

Personnel Josh Guthrie Brian Lentz Martel Contracting

Sampling Procedure

Activity trench mapping and sampling trench mapping and sampling excavating

Dates Worked August 4, 5 2008 August 4, ~i 2008 August 4, 5 2008

Man Days 2 2 2

Sampling methods of the rock is standard as with most methods of precious and base metal sampling. The objective is to collect a large enough sample to allow a complete geochemical analysis and retain a hand specimen. When enough rock was obtained, a sample number tag was enclosed within the sample bag and the bag securely closed using double wraps of flagging tape or zip ties. Sample sites were flagged with sample number. UTM coordinates were entered into a hand held GPS unit, and general sample comments were noted(see field logs). Samples were taken to the field office and secured in a locked building until shipped to the lab for analysis. The Excavator used was owned and operated by Martel Contracting of Missanabie Ont., POM 2HO. Phone: (705) 234-2486 The equipment used was a John Deere 120C Track excavator.

Analytical Procedures Discussion

True North Mineral Laboratorit~s Inc. located at 475 Railway Street, Timmins Ontario, P4N 2P5, telephone (705) 268-0303 was engaged to analyse the rock samples(to be crushed - RX2) for I E I. True North Mineral Laboratorie Inc. / Actlabs _. geochemical proc~~dure is as follows:

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Sample Preparation To obtain meaningful analytical results, it is imperative that sample collection and preparation be done properly. ACTLABS can

advise on sampling protocol for your field program if requested. Once the samples arrive in the laboratory, ACTLABS wilt

ensure that they are prepared properly. As a routine practice with rock and core, the entire sample is crushed to a nominal

minus 10 mesh (1.7 mm), mechanically split (riffle) to obtain a representative sample and then pulverized to at least 95% minus

150 mesh (106 microns).

As a routine practice, we will automatically use cleaner sand between each sample at no cost to the customer. Quality of crushing and pulverization is routinely checked as part of our quality assurance program. Randomization of samples in larger

orders (>100) provides an excellent means to monitor data for systematic errors. The data is resorted after analysis acc:::rding

to sample number. Please request Code Random (additional $1.00/sample) if you prefer randomization.

Samples submitted in an unorganized fashion will be subject to a sorting surcharge and may substantially slow tumarouno time

Providing an accurate detailed sample list bye-mail will also aid in improving turnaround time and for Quality Control purposes

Additional charges may apply for poorly organized batches. Code CP2 - Sample list not provided for orders over 25 samples

($O.25/sample): Code CP3 - Sorting chaotic shipments ($O.50/sample).

Rock, Core and Drill Cuttings

COde RX1 crush up to 75% passing 2 mm, split (250 g) and pulverize (hardened steel) to 85% passing 751.1 « 5 kg)

code RX1 crush up to 90% passing 2 mm, split (250 g) and Terminator pulverize (hardened steel) to 85% passing 75j.i « 5 kg)

code RX2 crush, split and pulverize with mild steel (100 g) (best for low contamination)

code RX3 oversize charge per kilogram (if reQuired)-

code RX4 pulverization only (mild steel) (coarse pulp or crushed rock)

code RX5 pulverize ceramic (100 g)

code RX6

$7.75

58.50

58.00

51.75 $5.75

51 4.00 514.00

Pulverization Contaminants Added (amount added depends on hardness of material and particle size required)

Mill Type

Mild Steel (best choice) Hardened Steel

Contaminant Added

Fe (UD to 0.2"101 Fe (uP to 0.2%), Cr (up to 200 ppm). Irace Ni, SI. Mn and C AI (up to 0_2%), Ba. trace REE hand pulverize small samples

(allate mortar & pesHe) COde RX7 crush only (split) code RX8 samole cree on Iv surcharlle no analvses

$4.00 $3.00

Ceramic Tungsten Carbide Agate

we up to 0.1%), Co. C. Ta. Nb and Ti Si (up to 0.3%). AI. Na. Fe. K, Ca. Mil . Pb

code RX9 compositing (oer composite) $2.00 code RX1 0 <try drill cuttinas in clastic baas $1 .75 code RX11 checking quality of pulps or reiects 57.50

prepared by other labs and issuing report

Note: Larger sample sizes than listed above can be pulverized at additional cost

Soils, Stream and Lake Bot~om Sediments BI.ogeochemical Samples

code Sl drying (6O"C) and sieving (-SO mesh) save aU portiOns 53.25 code 61 dryina and blending humus code S l DIS drying (60OC) and Sieving (-80 mesh), discard oversize 52.75 code 62 drying and macerating vegetation code S1 -230 dryina (60OC) and sieving (-230 mesh). save oversize $4.25 code 63 dry ashing code 8 1-230 DIS drying (60OC) and sieving (-230 mesh). discard oversize $4 .00 code 54 washing vegetation code S2 lake bottom sediment preparation crush & sieve (~O mesh} 56.50 code B5 samples submitted in plastic bags. add code S3 altemate size fractians and bracket sieving, add $2.00 code 54 Enzyme leach" or SGH drying (40OC) & sieving (-60 mesh) 53.50 code 5 5 wet or damp samples submitted in plastic bags. add $1 .50

code S6 separating -2 micran material 565.00 Special Digestion Procedures

code S7 methylene iodide heavy mineral separation 550_00 specific gravity of 3.3 (250 grams) code MOl Microwave digestion - dosed vessel

Sample Storage and Disposal All soil, sediment and vegetation coming from outside Canada require incineration prior to disposal under CFIA regulations. All pulps and rejects will be retumed to the client at cost. Disposal costs are additional. Pulps and rejects will incur a storage fee after 6 months.

-RTRN Return of aU reject portions andlor pulps At cost tNCIN Incineration of soil. sediment and vegetation samples from outside Canada $0.25

(for samoles uo to 0.5 ka; samoles over 0.5 kg will have higher incineration costs) STORE 1 Monthly storage of reject after 6 months SO.20 STORE 2 Monthly storage of pulps after 6 months SO.08 STORE 3 Monthly starage of sieve rejects after 6 months SO.10

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$4.00 55.25 57.50 $3.50 $ 1.50

535.00

PAGE

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"AGE

Precious Metal Geochemistry Gold and Silver Analyses

Code Method

lAl Au Fire Assay-INAA (geochem) l A2 Au Fire Assay-AA (geochem)

lA2-50 Au Fire Assay-AA (Qeochem)

1A3-30 Au£ire Assay-I'::, . (AssaY)

lA3-50 Au Fire Assily-Gravimetric (AssayJ lA3-Ag Au, Ag Fire Assay-Gravimetric (Assay)

"lA4 Au Fire Assay-Metallic Screen (Assay) "lM -l000 Au Fire Assay-Metallic Screen (Assavl lAS Au BLEG-ICPfMS (aeocneml lA8 Au ~ua Regia-ICP-MS (geochem) lE Ag Aqua Regia-ICP (geochem) B-Ag Ag Fire Assay-Gravimetric (assay)

Sample Weight

30g 30 g 50 g

_29.tlla.

50 !t 2916 9

500 g 1000 g

1000 a 30g

5 9 29.16 9

Imperial Range

0.001-30 ozlt

0.001-30ozlt 0.001-30 ozIt (Au)

0.1-30 ozlt (Ag) 0.001-30ozlt 0.001-30 ozlt

0.1-30 ozIt

Metric Range

1-20 000 ppb 5-3,000 ppb 5-3000 ppb 0 03-1000 almT

0. 03-1000 gimT 0.03-1,000 glmT (Au) 3-1,000 gfmT (Ag) 0.03-1 000 glmT 0.03-1 000 glmT

0. 1-10000 ccb 0.2-2 ,000 ppb 0. 2-100 ppm 3-1,000 glmT

Price

$1 6.00 $13.50 $1 5.00

£1 7.50 $1 8.50 $20.00

$75.00 $100.00

$4S.00 $15.00

$5.00 $14.00

Note: Use of 50 gram sample for fire assay may not provide optimum recovery.

We partiCipate in numerous proficiency testing programs including the CANMET PTP-MAL for ISO 17025. Blanks duplicates ?nd standards are reported in all sample batches.

Sample size used for analysis can be varied. The price may be higher or lower depending on sample size. For gold and silver by INAA - see Codes 1 D, 10 enhanced, 1 EPI, 1EPlfMS, 1H or 1H2.

Gold, Platinum, Pa.lladium and Rhodium· aU ppb

Code Method

1 C-exploration Fire Assay-lCPfMS 1C-EXP 2 Fire Assay-ICPfMS IC-research Fire Assay-tCPfMS lC-Rhodium Fire Assay-ICPfMS

Rangll of u1UIIS for Yartuus gold _1ysI1 mill/lads ,-IODCiD

I I ':.111 .. ____________ ......

Sample Weight Detection Limit Pnce

Au PI Pd Rh

30 9 2 5 4 $1750

30 g 1 0.5 0. 5 520.00

30 9 1 0.1 0.1 $2B.00

30 9 5 ;35.00

Platinum Group Elements (NIS Fire Assay - 50 g) • all ppb

Os Ir Ru Rh Pt Pd Au Re Price

Code 181 1-2 samples 5275.00 lNAA Finish 2 0.1 5 0.2 5" 2 0.5 5 3+ samples $150.00 Code 182 1-2 samples $275.00 ICP/MS Finish - 1 1 1 1 1 1 1 3+ samples $150.00

Notes: " " Gode 1M or 1A4-1000 • A representative 500 gram or 1000 gram sample split is sieved at 100 mesh (149 micron) .

with assays performed on the entire +100 mesh fraction and two splits of the -100 mesh fraction. It is important not to overpulverize the sample too finely. as tests have shown gold will plate out on the mill and be losl. W11en assays have been completed on the coarse and fine portions of the bulk sample, a final assay is calculated based on the weight of each fraction. Price includes sample screening but not crus ing and pulverizing .

• . Code 1B - Detection limits tor Pt are increased with high Au/Pt ratios and limits for other elements will be affected by abnormally high Au, Sb and Cu content. Samples with high Au can be reanalyzed by Code 1C exploration or research. Zn concentrates are not amenable to the nickel sulphide fire assay.

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Assay Products Code 8 - A.ssay Products

Assays provide quantitative determinations of elements in non-processed geological materials. Assays are usually required only when the dient knows or suspects higher levels of metals in samples. Geochemical methods generaUy provide lower detection limits than assays. For lower levels, geochemical methods should be used. All assays are traceable to international reference standards. Prices listed in our fee schedule are for normal geologic malerials and are not for metanurgical products. Metallurgical products such as heads and concentrates are handled separately 10 prevent contamination in the laboratory. These materials are charged at five times the prices listed in our fee schedule.

Element Price

Alumina - AI,O. $20.00 Anlimony - Sb $20.00

Atsenic -As $20.00 Barium (Instrumental) - Ba $20.00 Barium (Gravimetric) - Ba S30.00 Beryllium - Be 525.00 Bismuth - BI S20.OO Boron - B $25.00

Bromine - Br $20.00 Cadmium - Cd 51 8.00 Calcium (oxide) - CaO $20.00

Cerium -Ce $20.00 Chlorine - CI $25.00 Chromium - Cr $20.00 Cobalt - Co $1 0.00

Copper (total) - Cu $10.00 Copper (CN soluble) $1 1.00 Copper (Acid soluble) 510.00

Copper (Ferric sul fate soluble) $11.00 Copper (Sequential Oxide Analysis) $30.00 Fluorine - F $25.00 Gold -Au See Gode l A3 Gold-Silver (Au-Ag) See Code lA3-Ag Gallium - Ga $25.00

Germanium - Ge $35.00 Insolubles $18.00 Iron (oxide) - Fe.O. $1 5.00

Lanthanum - La $15.00 Lead (total) - Pb $10.00 Lead (oxide) - PbO $20.00 Uthium - U 520.00 Loss on ignition - LOI 59.00 Mercury - Hg $20.00 Manganese (oxidel - MnO $20.00

Assay Package For Base Metals - aqau regia

Copper-Cu Cobalt-Co

Lead-Pb Nickel-Ni

Assay Package for Base Metals - 4 acid digestion

Code 8 Peroxide Fusion

Sodium peroxide fusion, acid dissolution followed by ICP/OES.

Element Detection Umit ("!o)

AI 0.01 As 0.01 Ca 0.01 Co 0.002 Cr 0.01 Cu 0.005 Fe 0.05 K 0.1

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Element Price

Magnesium (oxide) - MgO $20.00 Moiswre - H,O 510.00 Molybdenum (total) - Mo $10.00 Molybdenum (oxide) $20.00 Molybdenum (sul!ide) $20.00

Nickel - Ni $10.00 Nickel - Ni Sulphide $20.00 Niobium - Nb $20.00 Phosphorous (oxide) - P,O. $20.00 Platinum-Palladium-Gold (Pt-Pd-Au) $40.00 Potas-,sium (oxide) - K.O $20.00 Rhenium - Re (Mo concentrates) $38.00 Rhodium - Rh Selenium - Se Silicon (oxide) - SiC, Silver - Ag Sodium (oxide) - Na.O Specirtc Gravity - S. G. Strontium - Sr Sulfur (Infrared) Sulfur (Grav/metric) - S Sulfate - SO. Tanta mo Ta TeUunum - Te Thallium - TI Thorium - Tn lin - Sn litanium (OXide) - liC, Tungs.ten (oxide) - WQ,

Uranium (oxide) - U.o. Vanadium (oxide) - v,o, l inc (total) - I n l inc (oxide) - lnO

lincOln Molybdenum-Mo

Element

Mg Mn Ni Pb S Si li Zn

See Code le· Rh 520.00 $20.00 51 4.00 520.00 522.00 $1 5.00 $25.00 $25.00 $20.00 $20.00 5,20.00 $20.00 ._-520.00 $20.00 $20.00 $20.00 520.00 $20.00 $10.00 $20.00

Price

One element $1 0.00 Each ~ditiona l $3.00

Add $3.oo/sample

One element Each additional

$14.00

$3.00

Oetect~n limit ("!o)

0.01 0.01 0.005 0.01 0.01 0.01 0.01 0.01

PAGE

PAGE

Trace Element Geochemistry All elements are in ppm except where noted.

Aq ua Regia Extraction Near Total Metals

Au+14 Au+23 Au+34 ICP/OES ICPIMS ICP+ICPIMS Near Total Au+48 Au+53 Au+63 ICP/MS

Code 1EPI 1EPIIMS 10 10 enh. 1E 1 El 1 E2 1 E3 UIIratnJce 1 UJtratrace 2 1 F 1 F2 1H 1H2 Ultratraoe 3 Ultratrace 4 Ultratrace 5

Ag AI As Au B Ba Be Bi Br Ca Cd Ce Co Cr Cs Cu Dy Er Eu Fe Ga Gd Ge Hf Hg 'Hg-C,

Ho In Ir K La Li Lu Mg Mn Mo Na Nb Nd Ni P Pb Pr Rb Re S Sb Sc Se Sm Sn Sr Ta Tb Te Th TI n Tm U V W Y Yb Zn Zr Price

0.2 0.2 5 5 0.2 0.2 0.2 0.2 0.002 '0.01% '0.01% "0.01% '0.01%

2 2 2 0.5 '10 '3 ' 2 '0.1 5 ppb 5 ppb 5 ppb 2 ppb '05 ppb

'5 '10 '1 100 100 100 50 '1 '1 '10 '0.5

' 1 '1 '0.5 "0.1 0.1 10 2 2 0.02

1 0.5 "0.01% 1% 1% '0.01% '0.01% '0.01% '0.01%

0.5 0.5 0.5 0.5 0.5 0.5 0.01 3 3 '0.01 5 1 '1 '1 '1 '0.1 10 5 '2 "2 '1 '0.5

0.05 2 1 '002 1 1 1 1 1 1 0.Q1

'01 '01

0.2 0.2 ' 0.1 0.02% 0.02% 0.01 % ' 0.01% '0.01% ' 0.01% '001% '1 '10 '0.02

'01 0.1 '0.1

1 1 '0.1 1 1 1 1 1 5rpb, 5 pob '5ppb (5 ppbl 15 ppb 5 prb) 15 Pot! 15 rpb) (5 pobl

'0.1 '0.02

5 .Ql)b_ 5ppb ·0.01°~ '0.01% '0.01% '0.01% '0.01%

1 0.5 '1 ' 10 0.5 '0.1

0.05 0.05 '0.1 '0.01% '0.01% '0.01% '0.01%

2 2 ' 2 "2 '1 ' 5 '1 2 2 5 1 '2 '2 '2 '1 '0.01

0.05% 0.01% '0.01% '0.001% '0.001% '0.001 % '0.1

5 5 ' 0.02 '1 '1 50 20 ' 1 ' 1 '1 '1 '0.1

'0.001'11 '0.001% '0.001% 2 2 2 2 2 2 ' 0.01

'0.1 30 15 ' 0.1

0.001 +100 +100 +100 +100 +100 +0.01';. 0.2 0.2 0.2 0.1 '10 '5 ' 2 '0.02

0.1 0.1 ' 1 '0.1 ' 1 '0.1 0.1 5 3 '0.1

0. 1 0.1 ' 0.1 0.05% 0.02% ' 10 '5 '0.05 0.1% 0.05% '1 '1 '1 ' 0 .5 1 0.5 '0.05 0.5 0.5 '0.1

0.1 '1 '1 0.02 0.5 0.2 '0.1

'0.1 '2 '2 '0.02 '0.01% '0.01% ' 0.01%

'0.1 0.5 0.5 10 '0.1

'1 '1 '1 '1 4 4 4 1 '10 '1 '10 '0.1

"1 '1 '1 '0.01 0.2 0.2 '0.1

' 1 '1 50 50 '1 '1 '1 "2 '0.1 ' 1 '1 '1 '0.1

521.00 S29.00 515.75 518.00 59.25 59.75 510.75 510.75 S18.00

, Panial extraction only Hg add 01' to cold v pVur AA (CODE lG) add $7.25

Code 1EPI

0.002 0.3 '0.01% ' 0.01% '0.1 '0.5 ppb '1 '0.5 '0.1 1 0.02 2

'0.01% 0.01% 0.01 0.3 '0.01 '0.1 1 '0.5 '0.02 0.01 1 '0.1 '0.1 '0.1 '0.01% ' 0.01% '002 '0.1 '0.1 '0.1

,S p"b (5 PPb) '0.1 '0.02

'0.01% 0.01% '0.5 '01 '01 '0.01% 0.01% '1 1 '001 1 '0.001% 0.01 % '0.1 '0.02 '0.1 1 '0.001% 0.001% '0.01 3 '0 1 '0.1 0.001 +10 "00 '0.02 '0.1 '0.1 '0.1 ' 005 "05 1 ' 0.05 '0.1 0.02 '0.1 '002 '001% 0.01% "01 '0.1 '1 2 '0.1 '0.01 '1 '0.1 '0.1 1 '01 523.00 51 3.75

0.3 0.3 0.3 0.05 0.05 0.05 '0.01% '0.01% "0.01% ' 0.01% '0.01% 3 0.5 0.5 0.5 '0.1 '0.5

2 ppb 2 ppb 2 ppb 2 ppb '1 '7 50 50 '1 '1 '1 1 1 1 0.1 0 .1 0.1 2 2 0.1 0.02 0.02 0.02

0.5 0.5 0.5 0.5 0.01 % 0.01% 0.01% 0.01% 0.01 % 0.01 % 0 .3 0.3 0 .3 0.1 0.1 0.1

3 3 '0.1 '0.1 '0.1 1 1 1 0.1 0.1 1 1 2 2 1 '0.5 '2

1 1 0.05 0.05 0.05 1 1 1 0.2 0.2 0.2

"0.1 ' 0.1 ' 0. 1 '0.1 '0.1 '0.1

0.2 0. 2 ' 0.05 ' 0.05 '0.05 0.01 % 0.01% 0.01 % 0.01 % '0.01% ' 0.01% '1 0.1 0.1 0.1

'0.1 ' 0 .1 ' 0 .1 0. 1 0.1 0.1 0.1 1 1 '0.1 '0.1 ' 1

1 1 1 1 1 5 pcb) 50pb) (5 DOb) '50pb) 5 QQtl). 15 {'pill

'0.1 '0.1 ' 0.1 0.2 0.1 0.1 0.1 5 ppb 5 pob 5 ppb

0.01 % 0.01% 0.01% 0.01% 0.01% 0.01% 0.5 0.5 '0.1 '0.1 0.1

0.5 0.5 0.5 0.05 0.05 '0.1 ' 0.1 '0.1

0.01 % 0.01 % 0.01% 0.01% 0.01 % 0.0 1% 1 1 1 1 1 1 1 1 1 1 0.1 0.2 0.01 % 0.01% 0.01% 0.01% 0.001 % 0.01%

' 0.1 '0.1 '0.1 5 5 ' 0.1 ' 0.1 '0.1

1 1 1 0.5 0.5 0.5 0.001% 0.001 % 0.001 % 0.001% 3 3 3 0.5 0.5 0.5

'0.1 ' 0 .1 ' 0 .1 15 15 0.2 0.2 0.2

0.001 0.001 0.001 +100 +100 +100 +100 5 0.1 0.1 0.1 0.1 0.1 4 0.1 0. 1 0.1 0.1

3 3 0.1 0.1 0.1 0. 1 0.1 ' 0.1 '0.1 '0.1 0.01% ' 1 ' 1 ' 1 '1

1 1 1 0.2 0.2 0.2 0.5 0.5 ' 0.1 ' 0.1 ' 0. 1 0.5 0.5 ' 0.1 '0.1 '0.1

2 0.1 0.1 0.1 0. 1 0.2 0.2 '0.1 '0.1 '0.1

5 0.1 0.05 0.05 0.05 0.01% 0.01% 0.01 % 0.01%

'0.1 '0.1 ' 0 .1 '10 0.5 0.5 0.1 0.1 0.1 2 2 2 1 1 1 '5 1 1 1 '0.1 ' 1 '1 '1 '1 ' 0 .1 '0.1 ' 0 .1

0.2 0.2 ' 0.1 '0. 1 ' 0 .1 1 1 1 0.5 0.2 0.5 ' 5 '1 '1 ' 1 515.75 526.00 $37.00 539.00 $20.00 S30.00

Elements in brackets are optiona l - see noles, page 10-11 + only sulphide sulphur IS elClracled

The "Au+14" group of elements provides a high quati ty, low cost package for epithermal gold exploration (by INAA (Au, As, Sb, Ba, Hg and \/11), aqua regia ICP (base melals and sulphur) and optional cold vapour FIMS (Hg)J. A sample of -30 9 is used for Au anCllysis. An enhanced package (Code 1EPI enhanced) with beUer detection limits for Au (2 ppb) and As (0.5 ppm) also is available for an additional $2.00 per sample. (35 g required). Sulphur (+) from barite win not be reported. If lolal S is required, see Code 4F-S. See Code 1E for noles on base metals. .-,-

Trace Element Geochemistry Which digestion do I use?

1. AQUA REGIA DIGESTION - This leach uses a combination of concentrated hydrochloric and nitric acids to leach sulphides, some oxides and some silicates. Mineral phases which are hllrdly (if at all) attacked include barite, zircon, monazite, sphene, chromite, gahnite, gamet, ilmenite, rutile and cassiterite. The balance of silicates and oxides are only slightly to moderately attacked, depending on the degree of alteration. Generally, but not always, most base metals and gold are usually dissolved if the sample is ground finely enough.

2. "TOTAL" DIGESTION - This acid attack is the most vigorous used in geochemistry. It will employ hydrochloric, nitric, perchloric and hydrofluoric acids. Even with this digestion, cl~rtaln minerals (barite, gahnite, chromite and cassiterite) may not go into solution. Other minerals including zircon, sphene and magnetite may not be totally dissolved. Most other silicates will be dissolved, however some elements will be erratically volatilized, including Si, As, Sb, Cr and Au. Total digestions cannot be used for accurate determination of REE, Ta, Nb, As, Sb, Sn, Hf, Cr, Au and SI.

3. FUSION TECHNIQUE - The most aggressive fusion technique employs a lithium metaborate/tetraborate fusion. The resulting molten bead Is rapidly digested in a weak nitric acid solution. The fusion ensures that the entire sample Is dissolved. It is only with this attack that major oxides including SiO, , REE and other high field strength elements are put into solution. High sulphide bearing rocks may require different treatment, but can still be adequately analYzed.

NOTE: Results from aqua regia or total digestions may be lab dependent or lab operator dependent. ActJabs has automated this aspect of digestion using a microprocessor designed hotbox to accurately reproduce digestion conditions every time.

Code 1 EPIIMS • The "Au+23' group of elements is similar to Code l EPI but indudes a suite of elements by ICP(MS to provide virtually ali elements used for epithermal gold exploration. The multielement acid attack will only dissolve the soluble forms of bC!rium, while INAA will provide the total barium concentration. The total Sa to soluble Sa ratio will be a direct indicator of barite concentration. · Code 1EPIIMS Enhanced is available which offers Au - 2 ppb, As - 0.5 ppm, Sb - 0.1 ppm for an additional $2.00 per sample (35 g required). See Code 1 E for notes on base metals,

Code 10 - The sample is encapsulated, irradiated and measured in a multielement mode by INAA for Au+34 elements. The elements in this package are determined non-destructively and the total metals help the geologist determine rock Iypes. alteration and pathfinder elements. The 30 g aliquot provides a representative sample size for gold analysis (0.5 to 30 g required).

Code 10 enhanced - This INAA package is similar to Code lD but has enhanced detection limits. This packag~ has become very popular for rod<, soli, lake sediment and stream sediment samples (0.5 to 30 9 required).

Code 1E - This package determines a base metal suite and sulphide sulphur by an aqua regia extraction with an ICP/OES finish. If accuracy better than +/-10-15% is required for higher level samples we recommend assays (Code 8) (+I- 3%) for Cu, Zn and Ni over 10,000 ppm and certainly over 50,000 ppm. Assays are also recommended for Pb >5000 ppm and Ag >100 ppm due to potential solubilily problems. values exceeding these limits are estimates and are provided for information only. (0.5 g of sample required). Prices: first element $5,00; each additional element $2.00.

Code 1E1 - This analytical package uses the same digestion as Code lE. The same comments apply as in Code lE for base metals. In addition, a variety of other elements are obtained non-quantitatively since chromite, barite, silicates, magnetite, sphene and some other mineral phases are not soluble with this digestion. Zinc in gahnite or sphene wiil not be soluble in aqua regia and all Ni In silicate phases may nol be totally leachable. (0.5 g of sample required).

Code1E2, 1E3 - These are similar to Code 1 E1, but offer an enhanced list of analytes. (0.5 9 of sample is required). Code 1 F, 1 F2 - These packages uses a "near total" digestion employing HF, HCIO., HNO. and HCI to get as much of tre sample into solution as

possible without fuSing the sample. The resulting meta.ls are determined by ICP/OES. Sulphide sulphur is included. The sulphur associated with bame will not be dissolved. Other phases which may not be totally digested include zircon: monazite, sphene, gahnite, chromite, magnetite, barite, cassiterite, Ilmenite and rutile. The same comments apply as in Code 1 E for base metals. (0.25 9 of sample required).

Code ULTRATRACE-1 - This partial extraction is analyzed by ICP/MS to provide lower detection limits. Upper limits are up to 20,000 times the detection limits. (O.S g of sample is required).

Code ULTRATRACE-2 - This combines ULTRATRACE-1 with Code lE2 to provide a few additional elements from the ICP/OES as well as extend the upper limits of the ULTRATRACE-2 elements. (0.5 g of sample is required).

Code 1H "Au+48"· This package provides a trace element scan for virtually al types of economic mineralization. It also provides useful information on alteration, rock types, and pathfinder elements. The Code 1 D enhanced (lNAA) and Code 1 F (4-acid digestion ICP technique) provide 49 elements. The elements determined by INAA are Au, As, Sa, Sr, Ce, Co. Cr, Cs, Eu, Fe, Hf, Hg, Ir, La, Lu, Na, Nd, Rb, Sb, Sc, Se, Sm, Sn, Ta, Th, Th, U, W, Vb and Lu. The remaining elements are determined by the 4 acid ICP (Code IF above) technique. SiCh is not analyzed due to volatilization. (0.75 - 35 g required depending on sample size you wish to be analyzed for Au).

Code 1H2 "Au+53" - This package is similar to Code 1H bul also uses ICPIMS on an acid digest solution to obtain additional elements. If Au is important, a larger sample size (up to 35 g) should be submitted.

Code ULTRATRACE-3 - This combines INAA, 4-acid digestion ICP and ICPIMS analysis to provide the mosl comprehensive near total metal package available using an acid digestion. Nole that this package is not suitable for chrondrite plots as not all REE are quantitatively extracted from zircon, monazite, etc. (1.0 to 35 g of sample required) .

Code ULTRATRACE-4 - Near lotal digestion employing HF, HCIO., HNO> and HCI with ICP/MS finish (0.5 g of sample required) This digestion nay not be completely total if resistate minerals are preS(~nt As, Sb and Cr may be partially volatilized.

Code ULTRATRACE-S - Combines INAA with a 4-acid digestion (HF, HCIO., HNO. and HCij to attempt to give as total metal as is possible with acids. Some of the resistate elements are provided by INAA.

-1-PAGE

Lithogeochemistry for Exploration and Research All elements are in ppm except where noted.

XRF

tt ) Optional elements. see Code 4A

(++) Optional elements by INAA. Code 4BIN'AA

( ) Optional elemems by muluacid dlgestio ICP Code 4Bl

PAGE

Code

AbO,

CaO Cr.Ch CuO FeaO, 1(,0 MgO MnO Na.O NiO P,O,

5iO. Ttc, LOI Ag As Au Sa Be Bi Sr Ca Cd Co Cr Cs Cu Fe Ga Ge Hf In Ir Mo Na Nb Ni Pb Rb 5 Sb Sc Se Sn Sr Ta Th Tt U V W Y Zn Zr La Ce Pr Nd Sm Eu Gd Tb Dy Ho Er Tm Yb Lu

# Samples 1·1 0 11+

INAA INAA WRA-ICP Trace Element WRA+trace Trace Element WRA+trace WRA-X.RF XRF pressed pellet 4A1!xpl 4A-research 4B 4B2-std 4Lltho 4B2 -research 4Lithoresearch 4C 4C Laterite 4Cl

0.01% 0.01% 0.01% 0.01%

0.01% 0.01%

0.01% 0.01% 0.01% 0.01 %

0.001% 0.001 % 0.01% 0.01% .

0.01% 0.01% 0.01% 0.01% 0.001% 0.001% 0.01% 0.01%

5 2 (05+1 0.5 0 5

2 1 (0.5++) 5 (0.5++) 5 (0.5++)

5 ppb 2 ppb (2 ppb++ (2 ppb++) (2 ppb++)

100 20 3 3 3 1 1 ~10+) 0.4 0.4

1 0.5 (0.5++) (0.5++) (0.5++)

0.5% 0.2% (0.5 ) (05 105-

1 0.1 (1++) 1 1

2 0.5 (5++) 20 (5++) 20 (5++) 0.5 0,2 (1++) 0.5 0.5

('" 10 1, 10 1

0.02% 0.005% (0.01%++) 1 1 1 1

0.5 0.2 (1++) 0.2 0.2 0.2 0.2

5 ppb 2ppb . (5 ppb++ (5 ppb++) (5 ppb++) 5 2 (5++) 2 2 0.01% 0.001% (0.01 %++)

1 1 100 50 (1 ) 20 I 1 20 +,

15+) 5 5 20 10 (20++) 2 2

(100+) (100+) 100+ 0.2 0.1 (0.2++) 0.5 (0.2++) 0.5 (0.2++) 0.1 0.01 1 (0.1++) 1 (0.1 ++) 3 0.5 (3++) (3++) (3++)

1 1 500 100 2 2 2 1 0.3 (0.5++) 0. 1 0.1 0.5 0.1 (0.2++) 0.1 0.1

0.1 0. 1 0.5 0 .1 (0.5++) 0.1 0.1

5 5 5 3 1 (1++) 1 1

2 1 1 40 10 . ) 30 dl 30 1·

4 5 5 0.2 0.05 (0.5++) 0.1 0.1 3 1 (3++) 0.1 0.1

(t o 01 ) 0.05 0.05 5 1 (5++) 0.1 0.1 0 .1 0,01 (0.1 ++) 0.1 0.1 0.1 0.05 (0.2++) 0.05 0.05

(t OOl) 0.1 0.1 0.5 0.1 (0.5++) 0.1 0.1

(to Ol) 0.1 0.1 (to 01 ) 0.1 0.1 (t OOl) 0.1 0.1 (to 01 ) 0.05 0.05

0.1 0.05 . (0.2++) 0.1 0.1 0.05 0.01 I (0.05++) 0.01 0.04

$26.00 S60.00 $35.00 $50.00 $68.00 524.00 $5700 $30.00 $45.00 $58.00

~-

0.01% 0.01%

0.01% 0.01% 0.01% 0.001% 0.01%

0.01% 0.01% 0.001% 0,01%

0.5 0.5 5 (0.5++) 5 (0.5++) (2 ppb++) (2 ppb++) 3 3

1 0.1 0.1 (0.5++) (0.5++)

(05+) (05+)

1 1 20 (5++) 20 (5++) 0.1 0.1 10 (1 ") 10 11.

(0.01 %++) 1 1 0.5 0.5 0.1 0.1 0.1 0.1 (5 ppb++) (5 ppb++) 2 2 (0.01 %++) 0.2 0.2 20 . +) 20 \1 )

5 5 1 1 (100. lOO~

0.2 0.2 (0.1++) 1 (0.1++) (3++-) (3++) 1 1 2 2 0.01 0.01 0.05 0.05 0.05 0.05 0.01 0.01 5 5 0.5 0.5 0.5 0.5 30 ". 30 I )

1 1 0.05 0.05 0.05 0.05 0.01 0.01 0.05 0.05 0.01 0.01 0.005 0.005 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.005 0.005 0.01 0.01 0.002 0.002

$80.00 $97.00 $70.00 $82.00

0.01% 0.01% 0.01%

I 0.01%1 0.01% 0.01% 0.001% 0.01%

O.Ol"1.;T 0.01%1 0.010/. 0.01%

1 1

I

I

, I

I

I

536.000 $31.00

0.01 % 0.01% 0.01% 0.01% 0.01% 0.01% 0.01% 0.01% 0.01 % 0.01 % 0.01% 0.01% 0.01% 0.01%

$43.50 $38.50

5

5 •

5"

5"

. 4" 5 2

5 ~

'l

2 5

I ~

See Code4Cl adjacen t page

Lithogeochemistry for Exploration and Research

AhO,

CaO SiC), Fe,Q, K>O TlO, MgO MnO Na>o P,o. LOI Ag As Au Ba Be Bi Br Cd Co Cr Cs Cu Ga Ge Hf In Ir Mo Nb Ni Pb Rb Sb Sc Se Sn Sf Ta Th TI U V W Y Zn Zr La Ce Pr Nd Sm Eu Gd Tb Dy Ho Er Tm Yb Lu

# Samples 1·10 11+

Total IDENT Total IDENT Code 4E-expl. Code 4E·research

0.01 % 0.01% 0.01 % 0.01 % 0.01% 0.005% 0.01% 0.01% 0.01% 0.01% 0.01% 0.5 2 5 ppb 3 1 10 1 0.5 1 1 0.5 1

1(5-)

0.5

5 ppb 5 (2·-) 1 5 20 (2~j

0.2 0.1 3 (5-) 2 1 0.5

0.5 5 3 1 1

4 0.5 3

5 0.1 0.1

0.5

0.1 0.05

$49.00 $45.00

0.01% 0.01% 0.01% 0.01% 0.01% 0.005% 0.01% 0.01 % 0.01% 0.01% 0.01% 0.5 1 1 ppb 1 1 10 0.5 0.5 0.1 0.5 0.2 1 (5-)

0.2

1 ppb 2 (2-) 1 5 10(2·, 0.1 0.01 0 5 (5-)

2 0.3 0.1

0.1 5 1 1 1 4 0.05 1

1 0.01 0.05

0.1

0.05 0.01

$106.00 $100.00

. .

• < ....

,

. ,-....

Notes: Code 4A • Both the exploration and research grades are determined by INAA.

A minimum sample weight of 2 g is recommended. REE chondrite plots are provided at no charge with the research grade or at $1.00 per s.ample for the exploration grade. For elements IndIcated with t (Code 4A RES/MS) by fusion ICPtMS, add $28.00.

Codes 48, 4B2-STD, 4B2-RESEARCH, 4UTHO, 4L1THORESEARCH • Actlabs has developed a lithium metaborate/tetraborate fusion ICP \I\tIole Rocl< Package Code 4B and a trace element ICPIMS package Code 4B2 which is unique for scope of elements and detection lim~s . The two packages are combil1ed for Code 4Litho and Code 4Lithoresearch. The Quality of whole rock data in Code 4B meets or exceeds quality of data by fusion XRF Code 4C, the old standard in whole rock analysis. The fusion process ensures total metals particularly for elements like REE in resislate phases. (This may not be the case for acid digestions, partIcularly for heavy rare earths and other elements contained in refractory minerals ~ke zircon, sphene, monazite, chromite, gahnite and several other phases. If refractory minerals are not digested. a bias may occur for certain REE and HFSE with acid digestions). Quality of data is exceptional and can be used for the most exacting applications. The trace element package by ICPIMS, Codes 4B2·STD or 4B2-RESEARCH, on the fusion solution provides research quality data whether using standard or research detection limits. Eu determinations are semiquantitative in samples having extremely high Ba concentrations (greater than 1 %). This package is intended primarily for unmineralized samples. Mineralized samples can be analyzed, however, data may be semiquantitative for chalcophile elements (Ag, As, Bi, Co, Cu, Mo, Ni, Pb, Sb, Sn, W and I n). When quantitative values for the chalcophile elements are raquired on mineralized samples, please indicate as Code 4B2-STDQUANT, 4B2-RESEARCHQUANT, 4LITHOQUANT or 4L1THORESfARCHQUANT, and a surcharge of $16.00 per sample will apply. A minimum sample weight of 5 g is requirad. Elements with (+) are available (Code 4B1) for an additional $8.25 per sample Those indicated with (++) are available by INAA (Code 4B-INAA) for an additional $15.00 per sample. Please add 0.5 to 30 g depending on sample size you prefer to analyze for Au with this option. Values on replicates and standards are provided at no cost, as are REE plots.

Code 4C - The tried and true fusion XRF whole rock package. Samples containing high barite or high sulphide (greater than 1%) should be analyzed with Code 4B. A minimum sample weight of 3 g is required. We reserve the right to change analytical method to Code 4B if required by the sample composition.

Code 4C1 . This XRF pressed pellet method requires a minimum sample weIght of 6 g. The XRF pressed pellet method is only suitable for low metal content of below 1 % for each element listed. Prices: 1" element - $10.00; each additional- $3.00; lot - S18.00; • lot· $18.00. Each element not In or ' , add $3.00 per element.

Code 4E • This unique package uses ICP, INAA. ICPIMS and XRF technologies to completely charaderize geological samples. Two different grades of analysis (exploration and research) are provided depending upon your requirements . This package is not suitable for analyzing concentrates or mill products. A minimum sample weight of 5 g is required) .

Code 4E Options • Ga, Pb, Sn, Nb and Rb (Code 4E-XRF) indicated by (m ) by Pressed Pellet XRF add $1 8.00. This package can be added to Code 4E exploration or Code 4E research (please add 6 g of sample). • The Code 4E ICPIMS add-on option (detection limits indicated by ) can only be added to Code 4E research grade at an additional cost of $30.00. • Any selections from Code 4F can be added to Code 4E exploralton or research

Code 4F • Other analyses associated with WRA (can be added to any Code 4 package). Add 1 gram for each option chosen.

FeO (0.1%) by Tltration $1 5.00 S (0.01%) by Infrared $15.00 SO, (0.05%) by Infrared $20.00 CI (0.01%) by INAA $22.00 Hg by Cold Vapour FIMS $7.50 F (0.01%) by ISE $1 0.00

CO, (0.01%) by Coulomelry H>O +/. (0.1%) by Gravimetric C. S (0.01%) by Infrared B (0.5 ppm) by PGNAA B (2 ppm) by PGNAA N (total) Thermal Conductivity

$1 5.00 $20.00 $20.00 $28.00 $1 8.00 $35.00

PAGE

General Information T"'rms and Conditions

All prices in this pricelist are exclusive of GST, are in Canadian dollars and apply only to clients submitting samples from Canada. These prices apply to most geological materials for rout ine analyses. A surcharge may apply for abnormal matrices or non routine analytical requirements. The client will be advised of any such conditions prior to performing the analytical work. A minimum charge of $75.00 will be effective on all orders. Payment should accompany the order unless credit has been established. Terms are net 30 days. Prices and packages are subject to change without notice. We reserve the right to subcontract work to affiliated laboratories . Clients can pay invoices by cheque, bank draft, Visa, Mastercard or direct bank deposit (EFT) .

For direct bank deposit, pay to the account of Activation laboratories Ltd. at:

Royal Bank of Canada 59 Wilson Street West Ancaster, Ontario CANADA L9G 1N1 Tel: (905) 648-4411 Transit # 00102 003 Account # 100 154 4

Quality Assurance/Quality Control (QAlQC) Activation Laboratories Ltd . has achieved the ultimate accreditation to international standards, the ISO 17025 standard for specrfic reg istered tests. ISO 17025 evaluates the quality system and specific analytical methodologies through proficiency testing and routine audits of the laboratory. In add ition , we have achieved accreditaiton to CAN-P-1579, specific to mineral analysis laboratories. We are one of the few commercial laboratories which have achieved this distinction. Activation Laboratories Ltd. can also advise on methods you can use to ensure security of samples during t~ansport to the laboratory. We have a rigorous chain of custody protocol in place to ensure security of your samples once we receive them.

Liability Any analysis, testing, inspection or investigation in connection with any work performed by Activation Laboratories Ltd, shall be conducted in accordance with recognized professional analytical standards, Neither Activation Laboratories Ltd., nor Its subcontractors, consultants, agents, officers or employees shall be held responsible for any loss or damage resulting directly or indirectly from any default, negligence, error or omission, Whl/e every effort will be taken to store the unused portion of your samples, Activation La'boratories Ltd. cannot bear any responsibility for Joss or damage, regardless of the cause. The liability, If any, of Activation Laboratories Ltd. shall be limited to the cost of performing the analyses.

Sample Packaging and Shipping Instructions For convenience and to improve turnaround time, a sample submittal sheet can be filled out on-l ine and e-mailed. Make sure to include date of shipment, carrier or shipment method and the waybill number so that we can track delayed shipments. An accurate sample list can be sent as a.n e­mail attachment and will speed up order processing. Please ensure all samples are identified clearly with sample numbers. This can be accomplished with waterproof ink on the sample bags or with sample tags in the sample bags. Tumaround time wi ll be improved by packaging samples in order, neatly in shipping containers and providing a list of all sample numbers, preferably with a hard copy or bye-mail. If using pop top vials or glass bottles, ensure that they are taped shut and protected from breakage. Sealed plastic bags are best for shipping pulps. If usmg Bus Parcel Express, the bus station of destination is Hamilton, Ontario. For most efficient delivery, we recommend the use of couriers, or transport companies for heavier shipments.

Samples should be shipped to: - Activation Laboratories Ltd. 1428 Sandhill Drive Aneaster, Ontario Canada L9G 4V5

Tel 1-888-ACTLABS (1-888-228-5227) or 1 (905)648-9611

Fax 1 (905) 648-9613 E-mail aneaster@aalabsint.com

Instructions for report and invoice distribution should be included with each shipment., or can be sent to our e-mail addressancaster@actiabsint.com. Complimentary shipping labels are available upon request. Heavy duty plastic sample bags , cloth sample bags, soil envelopes and sample books are available at cost. Filling out a Request for Analysis form will provide all of the information required. Sample submissions poorly labelled or packaged, or having incomplete or no submission sheets may not be processed until adequate written instrJctions are received from the client and may incur additional sorting charges.

Sample Storage When submitting samples please indicate on the Request for AnalysiS form if you require sample storage, disposal or if you require samples to be retumed after analysis. For returns, please include all necessary shipping information e.g ., courier, account number, etc. Return of samples is done at cost. The reject portion of samples prepared by ActJabs will be retained for a period of not more than 6 months from the date of final report. Pulps (prepared material) will also be kept for a period of 6 months. Crusher reject or oversized sieve rejects will be saved on request only. Pulps nd rejects stored at the customers request will be subject to a storage charge (see sample submittal sheet for charges) billed quarterly. Irradiated material will be discarded after 30 days unless prior arrangements are made. Return of radioactive material requires a Nuclear Safety Commission licence. Cost per shipment of radioactive materials is $100.00 plus shipping costs. Disposal of soil, sediment or vegetation samples, which have entered Canada under a CFIA permit, will incur a disposal cost for larger sample volumes.

Return of Data

Analytical reports can be returned via hard copy, CD-ROM, electronic mail (internet) or fax copy at the customers' discretion for no additional charge. Data is normally available in Excel format. Other formats are available on request. We have implemented a Laboratory Information Management System (UMS). Clients can track samples from sample reception and logging through to preparation , analysis and reporting.

- -naround Time

PAGE

Most analytical data is usually available within 2 weeks of receipt of samples. Certain analyses that may take longer periods of time. or abnormal volume of samples in the laboratory may also slow turnaround time. Excessively wet samples may slow turnaround time, as will undocumented and unorganized shipments. If you require analyses by a certain date, please ensure that ,this Is noted clearly on the request form. We will make every effort to meet your requirements, however, rush conditions may require payment of a surcharge and must be arranged in advance with the iab manager. We will contact you if we are unable to meet your requirements or if a surcharge is necessary.

-{ 0-

Target Name: Date: Claim#: Township: Name(s): Datum:

Equipment used:

Comments:

Tr'enching Discussion and Recommendations

M LR L_025, 026, 027, 028 August 4 & 5, 2008 4201.395 & 4201386 Marsh

Josh Guthrie, Brian Lentz, Martel Contracting NAD27

Truck( I), A TV(3), Excavator ( I), Magnetometer (J)

• The major anomaly trends of Mantle Lake Regional Line's northern section had been trenched prior to MLRL __ 025. The four trenches included in this report are anomalies that were dug as the e!(cavator headed south; with plans to focus on some more pronounced anomaly trends in the mid­section of the Mantle Lake grid. According to the regional-mag map, each of the four anomalies trenched appeared to be apart of its own subtle E- \V anomaly trend. The strongest signatures on the map were chosen as dig sites to improve the chance of a good dyke exposure (if such features are present there)

• P1eeceding any trenching activities, the immediate area surrounding the anomaly coordinates (derived from regional magnetic survey) were passed seveml times with a magnetometer in an attempt to locate peak signatures and, if possible, a strike ofthe high protile. Once this intormation was established, trenching would begin perpendicular to the magnetic features.

MLRL_025 • Bi'ack muck & jack-pine swamp. Trench was 1m x 3m x 2.5m deep. Upper 1m of overburden

was black muck and boulders. Bottom I-2m was green/grey clay with few 1-3cm horizons of coarse grained, sub-rounded pebbles [80% clears, 20% mafics). Till sample #200470 was taken of the green micacious, regalith soil at approximately 1 m depth. Till sample #200471 was taken off of the bedrock at approximakly 1.5m depth.

• Soil was super saturated with water and made exposure of the bedrock impossible. No indication of dyke feature; brief glimpses of bedrock indicated banded amphibolite unit. Trench was completely filled back in.

MLRL_026 • Same as previous trench; black muck & jack pine swamp. Trench was 1.5-2m width x 5m length

x 2.5-3m deep. Till stratigraphy the same as previous site (#025); bottom I-2m was green/grey clay with tew 1-3cm horizons of coarse grained, sub-rounded pebbles [80% clears, 20% mafics]. One till sample [#200472J was taken off bedrock, and one reference sample ofregalith was taken.

• Soil was super saturated with water allowing only a small exposure of bedrock visible. Bedrock was slightly magnetic, and appeared to be banded amphibolite. However, due to the very small exposure, and large amounts ofseep;ing & infill water made' bedrock mapping impossible. Trench was completely filled back in.

MLRL_027 • ThiS trench is well exposed and is approximately 2m wide x 4m long x <0.5m deep. The bedrock

outcrop is glacially polished and crops out under <O.Sm ofredlbrown, fine, sandy till soil. Sample 200473 was collected from thiS predominately sand till material. The bedrock exposed is banded amphibolite with the majority of the outcrop comprised of fi]int to moderately magnetic bands.

• At the north eastern most end of the trench, a granitic dyke wts through the bedrock at 1160 strike; other prominent stringers 3-5cm trend at 326 0 in the southern end of the trench. A faint foliation orientation of 100°- J 50° is measured from the amphibolite banding.

-I 1-

MLRL_028 • This outcrop is also well exposed on the southern slope of the ridge. The bedrock is b~nded

amphibolite that appears to be more schistose than other outcrops. It was easily exposed under <1m ofredibrown, fine sandy soil along the upper portion of the shallow slope. The trench is 6m wide x 8m long x <1m deep. TiU sample #200474 was taken at bedrock depth and consisted mainly of fine sand and clay.

• Rock sample #200475 was taken from the banded amphibolite bedrock exposure. The country rock outcrop has 1 % finely disseminated sulfides 1-3mm, and is composed of approximately 50-60% mica. These mafic micas are the result of weathered amphiboles from the more defonned amphibolite bands. Many C - shaped & S - sbaped fold & shear structures are present within bands and are often composed of a coarse grained, granitic material. However, even with the higher grade metamorphic features, no dyke is present here.

Recommendations: Although visibility in trenches MLRL_025 and 026 was poor, there was no indication ofa peridotite or kimberlitic dyke in the immediate area (no ultramafic boulders/regolith was found at bedrock depth) The cause of anomaly at trenches MLRL _027 and 028 was clearly due to magnetic banding in amphibolite bedrock. Under these circumstances, there was no need to conduct follow up trenches on any of the anomaly trends. No further work is recommended for this area unless the till, green-regolith or rock samples indicate otherwise.

Waypoint or SampJe# MLRL 025

200475

UTM NAD27 Zone Easting 17 028395 1

17

ASSAY TYPE

NAD27 KIMS IH lEI Caustic Northing 5345496

5345180 x

-12-

AQQendix 1 - Trench PhotograQhs

MLRL 025:

Photo 1:

This photo shows the excavation of trench MLRL _ 025 in-process. The site for this trench is in a black muck, jack-pine bog swamp. As noted in the photo, the upper 0.5m is boulder till and organic black muck. Approximately 1.5-2m of green/grey clay is exposed beneath the organics and boulders. Due to tbe super­saturation of the soil, water poured into the trench faster than it could be dug. Boulders & mud debris were examined as it was scooped out by the excavator, but no ultramafic dyke material of any kind was removed. No bedrock exposure was excavated after 25m depth. After taking a soil sample the hole was filled back in, and a GPS & Sample post placed.

-13-

MLRL 026

Pboto 2: This photo (above) shows the extent of the muddy trench at this site. The upper O.Sm was black muck and boulders. The lower 2-2.5m was a green/grey, very compact clay. The clay was weU sorted with notable horizons of sub-rounded clasts [80-90% mafics). This soil is super saturated with water making trenching impossible after 2.5-3m. After taking a soil sample, the hole was fi lled back in.

-]4-

Photo 3: This photo shows the regalith weathered rock. Note the predominant sparkle of the mafic minerals. mafics]. clears, 10% These minerals are more competent and weather away much less easily. The rock specimen was taken only as a reference sample, and easily breaks apart.

Photo 5: Stripped bedrock outcrop facing South in trench. Photo 4: 1. Guthrie closely examining bedrock while excavating the trench.

These photos help convey the relative 2m x 4m size area, & overall surficial & bedrock geology. The soil is 1-l.5m thick and consists mainly of red/brown sandy soil, poorly sorted. The lowest 20-30cm of sediment covering the bedrock is lighter grey in color, and of a very fine grain size, moderately sorted. The bedrock is covered in a 3-Scm very hard, compact layer of sandy clay. The bedrock is glacially polished smooth and provides an excellent exposure of banded amphibolite bedrock. The high magnetic readings were caused by the magnetite bands within the amphiboHte bedrock.

-15-

Photo 6: Felsic dyke in sharp contact with amphibolite country rock.

MLRL 028

Photo 8:

This photo shows the exposed outcrop after finishing excavating the site. The banded amphibolite rock crops out very notably along the hill slope. Note the A TV bikes on the top of the excavated site.

Photo 9 (right): This photo shows the location and specimen of the rock sample [#200475] taken from this site. The bedrock outcrop at this site is banded amphibolite with <1 % sulfide mineralization. The rock is heavily banded with felsic stringers & veins oriented generally between 150°-100°.

-16-

Photo 7:

J. Guthrie looks on as the excavator strips the overburden off ofthe outcrop. Note how the background of the photo slopes down away from the vit~wer. These slopes provide excellent exposures of bedrock, usually within I-2m of soil.

Appendix 2 - Trench Sketches

I- lM-----t

'1\1\ fI".~ ~UX)"fTO, :si:ZOO'tl'j

G~5 If U o1.~3151· 5"3"15'11"

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-17-

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- ~CI(; ~."? (I-3CWl) f ~\\ ~y ~l:.lJe~ - ,4It~,~ ceo"',:> rtAjJ.~~-tQ(",,) Ch""~S' Mte.J.

Notes -- T(U\e.~ wo..s q,ff("xJ\~(.~ 2.1)'-~ ~ .

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- Rc.li'ef be,~ hllf~ ~ 'rw f">}~"'" evf~ l~ '-'t.j,,,,,

I

N

Appendix 3 - Field Logs

Waypolntor Zone Notd27 Notd21 Rock or Magnetic Acid Test Twp Cloim dote Comments

Samp/el NAD27 Eating NortItIn9 &lmp/.Type Comments

micaious regolith with leached organics , dark green , 1 m depth, sand 0% • silt 50% davey, clay 45% , 200470 17 283951 53045496 till negative d asts 5% pebbles. clasts desaip1ion subangular, surface level, poorly drained , vegetation mixed to bog Marsh 4201395 4-Aug-08 On HDLD.t1HJlL

virgin slllte. Se. tmach map MLRL _025

d-V, gr-v in color, 2.5 m depth, •• nd)5, Silt 0%, CI-V 95%, Clasb 5% pebbles, clasts desaiption 200471 17 283951 53045496 till positive subangular. ,surface [evm, poorly drain6d , vegetation mixed to bog I virgin state,. See trench Marsh 4201395 4-Aug-08 OnHOUl.t1MlL

mapMLRL_025

200472 17 283972 5345443 liII positive day grey in color, 2.5 ~3m depth, sand 0% , Silt 0% , Clay 100% . clasts 0% . level surface, poorty draine<l

Marsh 4201395 4-Aug-08 On HOI.D It TNML , mixed to bog vegetation, virgin state . See trench map MLRL_026

basil till. brown in color, O.75m depth. Sand 50% medium to coarse grained . Silt 15% sandy I Clay 10% I

200473 17 283912 5345290 till negative Clasts 15% pebbles , Clast description subrounded . ,indined surface, slope~· aspect SW, mixed Marsh 4201395 5-Aug-08 On HOI.D 1t1MlL vegetation, and virgin stale. See trench map MLRL_ 027

basil till bf'OlM"l ln color, 1m depth , Sand 40% medium to fine grained, Silt 20% sandy , Clay 30% , Clast 200474 17 283940 5345177 till negative 10% pebbles to cobbles, Clasts description subangutar, indined surface, slope 10" aspect S, weill draine Marsh 4201386 5-Aug-08 On HDLD.t1NML

, grassy vegetation, virgin .tate .... trench map MLRL_028

200475 17 283941 5345180 banded weakly

negative banded amphibolite, black with pink, outcrop coarse 10 medium grained, djssemjnated suJfjde (pyrite)

Marsh 4201386 5-Aug-08 amphibolite magnetic banding jn~line wtth foliation of amphiboles Imicas I exhibits some iron staining taken from MLRL_028

MLRL_025 17 283951 5345496 Trench location Marsh 4201395

-

MLRL_026 17 283972 5345443 Trench location Marsh 4201395

17 283912 5345290 Trench location Marsh 4201395

17 283940 5345177 Trench location Marsh 4201386

Quality Analysis .. ,

Chalice Diamond Corp.

P.O. Box '1124 Timmins ON P4N 7J3 Canada

ATTN: Jum Laidlaw

Innovative Technologies

Date Submitted: 29-Sep-08

Invoice No.: {,08-6632 (i)

Invoice Date: 26-Nov-08

Your RIO!ference: MISSANABIE

CEJ{TIFICATE 01: ANALYSIS

1 Pulp sample and 55 Rock samples were submitted for analYSIS

The follOWing analytical packages were reque~,tec Code 1F1 Aqua F;~egla ICP(AQUAGEOi Code 1 C-Exp FiCE' Assay-ICPiMS

REPORT A08-6632 (i)

This report may be reproduced Without our consent I' :lilly sE!lected por1lons of the repo-1 are reprJduced permission must be obtained If no Instructions were given at tlmt~ of sample submittal regaldmg excess malenal II Will be discarded Within 90 days of this report Our Ilablhtv IS '1'Tllted solely to t~!o analytical cost of these analyses Test results are representative only (If matenal submitted for analYSIS

Notes. Values which exceed the upper I mit should be assayr!d fer accurate numbers We recommenj reanalysis by flf!~ assay AJ Pt pj Code 3 ,f values exceed upper Ilnl t

ACTIVATION LABORATORIES LTD.

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CERTIFIED BY

[Iltsa Hflscheva. F'h D

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KEY LOCATION MRP of' GOLbEN CHALIC~ 'REsouRcES TNC. PRo:reCT RREA.

@Gannin ltd. or its s. .aries 1995·2004

Trench Location and Access Mantle Lake Regional Lines

Chalice Diamond Corp August 2008

° 2,506,000 10,000 15,000 20,000 • c:::..-::J __ -======-__ MotorC!

.""'LV ~

N

A

CALAIS

LLOYD

BUSBY

LIPSETT

BRUTUS

MANNING FLORANNA

~. N i MAGEAU RACINE

Legend

¢ Samples

Trenches

Trench and Sample Location Map

4201386

Mantle Lake Regional Lines Chalice Diamond Corp August 2008

500 -==-:=-__ c=:====-__ Meters o 62.5 125 250 375

4201395

MARSH

4201387

N

A