Document:

DON 1-2 Claims

SUMMARY GEOLOGY REPORT

 

DON CLAIMS 

Lillooet Mining Division

N.T.S. Mapsheets 92J/10W, 11E

Centred Approximately

50°36’00” N Latitude

123° 05’ 00” W Longitude

 

 

Owner: 

Hurley Exploration Inc.

Suite #1200

1600 Golf Road

Rolling Meadows, Illinois

USA

60008

 

 

Author: 

 

John A. Nicholson

April, 2005

 

 

 

Table of Contents

	
            Table of Contents
 	
            ii
 	
             

	
            List of Figures
 	
            iii
 	
             

	
            Summary
 	
            iv
 
	
            Chapter 1:  Introduction
 	
            1
 	
             

	
             
	
            1.1
 	
            Introduction
 	
            1
 	
             

	
             
	
            1.1a
 	
            Disclaimer
 	
            1
 	
             

	
             
	
            1.2
 	
            Location and Access
 	
            2
 	
             

	
             
	
            1.3
 	
            Claim Description
 	
            4
 	
             

	
             
	
            1.4
 	
            Physiography
 	
            6
 	
             

	
             
	
            1.5
 	
            Regional Geology
 	
            7
 	
             

	
            Chapter 2:  Property Geology
 	
            9
 	
             

	
             
	
            2.1
 	
            Summary
 	
            9
 	
             

	
             
	
            2.2
 	
            Lithology Descriptions
 	
            9
 	
             

	
             
	
            2.3
 	
            Mineralization
 	
            12
 	
             

	
            Chapter 3:  Geochemical Programme
 	
            14
 	
             

	
             
	
            3.1
 	
            Discussion of Previous Geochemical Results, DON Claims
 	
            14
 	
             

	
            Chapter 4:  Conclusions and Recommendations
 	
            17
 	
             

	
             
	
            4.1
 	
            DON Group
 	
            17
 	
             

	
            Budget
 	
            18
 	
             

	
             
	
            Phase 1
 	
            18
 	
             

	
             
	
            Phase II
 	
            18
 	
             

	
            References
 	
            19
 	
             

	
            Statement of Qualifications
 	
            20
 	
             

	
            Appendix 1: Claim Information
 	
            22
 	
             

											

 

 

	
            DON 1–2 Claims
 	
            ii
 

 

 

 

List of Figures

	
            Figure 1:  Location Map       
 	
            3
 
	
            Figure 2:  Claim Map       
 	
            5
 
	
            Figure 3:  Regional Geology Map       
 	
            8
 
	
            Figure 4:  Geological Areas of Interest    
 	
            15
 

 

 

	
            DON 1–2 Claims
 	
            iii
 

 

 

 

Summary

Mineralization on the DON 1-2 mineral claims is dominated by intense shear-controlled pyritization of rhyolitic-andesitic volcanic and volcaniclastic units hosted as roof pendants within granodiorite intrusives. Previous geochemical anomalies obtained on a regional scale appear to be a result of sporadic sulphide mineralization within altered volcanics and along quartz veins within the intrusive. The best potential for economic mineralization exists as massive sulphides within the rhyolitic units encountered on the DON 1 and 2 claims. Field work should be concentrated on these claims.

 

 

	
            DON 1–2 Claims
 	
            iv
 

 

 

 

Chapter 1:  Introduction

	
            1.1
 	
            Introduction
 

The DON group of mineral claims comprises 655.996 hectares staked to cover heavily pyritized volcanic and volcaniclastic roof pendants within granodiorite to diorite intrusive bodies. Preliminary work during 1983 on the claims defined two gossanous zones with which were associated interesting geochemical values. During the 1984 season, detailed geology was carried out over gossan #2, reconnaissance geology was conducted along major ridges and valleys of all claims, and regional silt samples were collected.

On the east site of the DON claims is an area underlain by mafic to felsic pyritic volcaniclastics which may be host to volcanogenic massive sulphides. Regional silt sampling during 1983 defined several significant Au-Cu-Pb-Zn anomalies originating from the volcanics. Preliminary follow-up in 1984 consisted of geological prospecting and reconnaissance soil lines over the length of the claims.

The current Don 1-2 claims cover the identified anomalous zones and further work is recommended to follow these up.

	
            1.1a
 	
            Disclaimer
 

This report was prepared at the request of Chet Kurzowski, President of Hurley Exploration Inc. and the focus was to make recommendations to advance the mineral potential of the DON 1, 2 mineral claims. To prepare this report, the author reviewed all pertinent and available government and technical papers and previously released assessment reports. Based on these and the author’s personal knowledge of the area formed the opinions contained herein.

 

	
            DON 1–2 Claims
 	
            1
 

 

 

 

	
            1.2
 	
            Location and Access
 

Situated approximately 34.3 kilometres from the Pemberton townsite on a bearing of 330 degrees, the DON claims are accessible along their eastern boundary via the Pemberton-Bralorne gravel road over Railroad Pass (Figures 1 & 2). Due to the steep, rugged terrain, field work is best accomplished utilizing a helicopter, either directly flying from Pemberton (approximately 30 minutes return), or via set-outs from a camp on the claims themselves. The eastern third of the claims are accessible by road.

Traverses on the DON claims range from relatively easy along the valley floors to extremely difficult along the upper ridges and valley walls. Many areas are inaccessible. Good climbing skills are necessary for field crews.

Air photograph coverage of the claims is excellent and provides the most accurate method of orientation. The flight lines and air photographs which cover the DON claims are:

	
            a)
 	
            Flight line BC-81905, photographs 070-075, 082-088, at a scale of 1:20 000.
 

 

	
            DON 1–2 Claims
 	
            2
 

 

 

 

 

Figure 1:  Location Map

 

	
            DON 1–2 Claims
 	
            3
 

 

 

 

	
            1.3
 	
            Claim Description
 

The following claims comprise the DON mineral claim group:

	
            Name
 	
            Record Number
 	
            Units
 	
            Anniversary Date
 
	
            DON 1
 	
            510119
 	
            245.958
 	
            April 3, 2006
 
	
            DON 2
 	
            510123
 	
            410.038
 	
            April 3, 2006
 

 

A total of 655.996 hectares make up the DON group.

For assessment purposes in British Columbia, assessment work of $4.00 per hectare per year is applicable for years 1 through 3, increasing thereafter to $8.00 per hectare. In addition, filing fees of $0.40 per hectare are due in years 1-3 rising to $0.80 thereafter.

 

	
            DON 1–2 Claims
 	
            4
 

 

 

 

 

Figure 2:  Claim Map

 

	
            DON 1–2 Claims
 	
            5
 

 

 

 

	
            1.4
 	
            Physiography
 

The DON claim group covers an extremely mountainous area characterized by numerous glaciers, well-defined U-shaped valleys, steep valley walls and ridges, hanging valleys, cirques and remnant snow and ice which covers approximately 30% of the claims. The Hurley Pass road marks the eastern boundary; Mount Sampson the west. Elevation varies from 1250 m (4100’) to 2391 m (7845’), with slopes varying from 10-90 degrees. The average slope of the valley walls and cirques would approximate 30-90 degrees. Outcrop exposure is approximately 60%.

Drainage of the property is both to the north and south. The major system to the north is Donelly creek which flows into the Hurley River. Drainage south is affected by Railroad Creek which flows into the Hurley River. Drainage south is affected by Railroad Creek and several unnamed streams flowing into the Lillooet River approximately 1.5 km west of Pemberton. Streams tend to be of moderate to high velocity and although major streams are laden with rock flour, the small tributaries are surprisingly clear. Stream sediments are well developed and readily attainable.

Vegetation on the upper 70-80% of the property is spartan at best, consisting of small flowers, grasses, willows and clumps of dwarfed juniper and pine. Areas below approximately 1676 m (5500’) are covered with various grasses, bushes and trees, the distribution of which is highly sporadic. Access in the treed areas is generally good especially along the valley walls. Vegetated valley floors tend to be swampy.

Soil development is excellent in the heavily vegetated main valley of Donelly Creek with distinct, thick ‘A’ and ‘B’ horizon development. However, over the vast majority of the claim, ‘soils’ are restricted to talus fines and weathered bedrock. Although highly fragmental, the source of these ‘soils’ in the upper regions should be of local derivation and hence provide an accurate measurement of bedrock geochemistry.

 

 

	
            DON 1–2 Claims
 	
            6
 

 

 

 

	
            1.5
 	
            Regional Geology
 

(Figure 3) (From Open File 482, 1977)

The area covered by the DON claims is underlain by Upper Triassic Cadwallader Group lying as NW-SE trending linear roof pendants within quartz diorite to granodiorite intrusives of probably Jurassic age. The Cadwallader Group is dominated by andesitic breccia, tuff, flows and greenstone with lesser slate, argillite, phyllite, conglomerate, limestone, rhyolitic breccia and flows. Major faults, major lithological units, and strong topographical features conform to the regional NW-SE trend. In the vicinity of Donelly Pass, Tertiary dykes (quartz monzonite, dacite) have intruded both the Jurassic intrusives and the Triassic volcanic/sedimentary package.

To the north and south of the DON claims, the regional geology is dominated by quartz monzonite quartz diorite and granodiorite which have incorporated, or are overlain by, a variety of volcanic/sedimentary units.

	
            MIOCENE
 	
             

	
            17
 	
            Andesitic to basaltic flows and breccia, minor dacite.
 
	
            LOWER CRETACEOUS
 	
             

				

	
            11
 	
            Gambier Group:  Andesitic to dacitic tuff, breccia, agglomerate; andesitic, argillite, conglomerate, lesser marble, greenstone, and phyllite.
 

UPPER TRIASSIC

	
            6
 	
            Hurley Formation:  Thin bedded argillite, phyllite, limestone, tuff, conglomerate, andesite, minor chert.
 

	
            PALEOZOIC (?)
 

	
            2
 	
            Metasedimentary rocks, mainly micaceous quartzite, biotite hornblende schist; minor garnet and staurolite schist.
 

 

	
            DON 1–2 Claims
 	
            7
 

 

 

 

 

Figure 3:  Regional Geology Map

 

	
            DON 1–2 Claims
 	
            8
 

 

 

 

Chapter 2:  Property Geology

	
            2.1
 	
            Summary
 

Dominant units on the DON claims consist of altered andesites (chloritized) and dacitic lapilli tuff roof pendants hosted within medium to coarse-grained granodiorite and diorite intrusives. Aplite and mafic dykes plus numerous narrow quartz veins dissect both the intrusive and volcanic units.

Gossanous zones within the volcanics are a result of pyrite rich shear structures with up to 20% very fine to coarse grained pyrite. Intense acid leaching produces areas bleached yellow-white composed of a quartz-relict skeleton and pyrite. Shear zones vary in width from <1 to 30 m with a dominant orientation of S-110-140°, D-60-90°N. Chalcopyrite occurs in quartz veins and altered volcanics while rhodonite is commonly associated with the quartz veins.

	
            2.2
 	
            Lithology Descriptions
 
	
             
	
            a)
 	
            Granodiorite (Unit 1)
 	
             

The granodiorite is a variable unit that on the average is medium grained, salt and pepper coloured weathering light to medium shades of green, grey and brown with a composition approximating 30-40% sub-euhedral hornblende, 30-40% an-subhedral feldspar and 10-30% anhedral quartz with accessories of magnetite and biotite.

Along the contact with the overlying volcanics, the granodiorite is fine-grained, intensely sheared, fractured and contains numerous andesitic xenoliths. Aplite, andesite, quartz and epidote dykes, veins and veinlets are prevalent. With increasing distance from the contact, grain size increases and crystals attain euhedral geometry. Felsic/mafic separation, flow banding and phase variations from granite to diorite are observed.

Alteration is prevalent with approximately 90% of the hornblende altered whole or in part to very fine-fine grained chlorite. The volcanic xenoliths tend to be totally chloritized. 

 

	
            DON 1–2 Claims
 	
            9
 

 

 

Epidote is also common and, although it may occur pervasively, tends to be restricted to veins and veinlets often associated with anhedral smokey or milk quartz. The degree of alteration increases toward the contact zone.

Diorite comprises the major phase variation of the granodiorite intrusive. Dark green-black, mottled white weathering same, grey, green, brown and beige, the diorite is medium to coarse grained and composed of 50-70% sub-euhedral hornblende, 30-40% quartz and feldspar with up to 5% magnetite. Flow banding is prevalent and the unit is often cut by quartz rich pods, veins and veinlets. Contacts with host granodiorite tend to be gradational.

	
            b)
 	
            Metamorphosed Andesite  (Feldspar Porphyry)  (Unit 2)
 

Intense, pervasive chlorite alteration has masked the vast majority of the original crystal and structural features. In weakly altered areas the andesite is fine to medium grained, in part porphyritic with plagioclase feldspar ( quartz phenocrysts to 4 mm (10-40%), and coloured light to medium grey weathering same plus green, brown and pale cream. The phenocrysts tend to be an-subhedral and are best observed on weathering surfaces where they sand out from the matrix.

The majority of the andesite encountered is light to dark green black in colour (weathered same), as a result of the massive fine grained chlorite in the matrix. Dark green mottling evident on weathering and fracture surfaces is due to very fine grained chlorite clots 6-8 mm in size. Quartz and epidote, pervasively and along microfractures, occur as very fine crystals throughout the matrix giving the unit a hardness greater than appearance would dictate.

Textural variations are numerous but tend to be very local in occurrence; schistosity, gneissosity, massive chloritic andesite brecciation, well-defined porphyry and “skarn.”  Perhaps the most interesting occurs along a contact zone whereby the metamorphosed andesite has been brecciated by an anostomosing stockwork of granodiorite veins.

 

 

	
            DON 1–2 Claims
 	
            10
 

 

 

 

Magnetite is a common accessory mineral and may attain grades up to 10% in highly altered “skarnified” zones of andesite. These areas tend to be poddy and sporadic. Generally the magnetite represents less than 1% of the rock.

	
            c)
 	
            Lapilli-Tuff  (Unit 4)
 	
             

	
            Overlying and intruded by the granodiorite, the lapilli-tuff forms a distinctive unit.
 

Matrix:  Light to dark green, grey-green, medium green weathers light olive green, light green, beige and minor grey. Stained variably rusty brown. Probably of andesitic composition however, intense silicification and chloritization has masked original mineralogy.

Clasts:  Multi-variate, angular to subrounded fragments of andesite to rhyolite composition, averaging 1 to 20 mm in size but attain lengths greater than 4 cm. various shades of greens, grey, brown all weathering lighter. Often highly siliceous/chloritic which masks original composition. Most distinctive fragments are smokey blue-grey quartz crystals, angular to sub-rounded and generally 1-3 mm in size. Fine grained pyrite (1-3%) occurs throughout, but especially in the more siliceous class. In part clasts are stretched and show a parallel orientation.

Shearing of the lapilli-tuff is variable and often intense. These zones are distinctive due to bright red-brown Fe-staining, strong yellow-white leaching pattern along the shear structures, dramatic increase in pyrite content (to 30%), and an increase in epidote, chlorite and silica alteration. Stockwork of quartz-pyrite veinlets ( epidote often associated. Shears are generally parallel to sub-parallel and when abundant give rock a foliated texture.

As illustrated in Figure 3, the granodiorite is the dominant lithology south of the DON claims. The volcanic and volcaniclastics form a broad NW-SE package that sweeps through the DON claims to end in the Donelly Creek Valley. For the most part the volcanics are topographically high, occupying upper ridges and are considered to be relatively thin (less than 200 m). The southern boundary of the volcanics is well defined however, their extension to the north is still open.

 

 

	
            DON 1–2 Claims
 	
            11
 

 

 

 

Within the volcanic belt itself, there is a strong separation between the andesite and the lapilli-tuff. The andesite appears to be stratigraphically (and topographically lower) than the lapilli-tuff which comes into prominence along the central boundary and extends to the north. There probably exists a gradational contact between the two units although it was not encountered. Andesitic clasts (porphyritic in part), within the lapilli-tuff relates the two units to a common volcanic cycle.

	
            2.3
 	
            Mineralization
 

The intensely gossanous zones readily observed on the claims are due to a preponderance of shear controlled pyritization. The pyrite occurs as disseminated to coarse grained an-euhedral crystals, as crystal aggregates, pods, coatings and individually along fractures, shears and within the host matrix. Strong gossans are related to well-developed, massively pyritized shears (usually less than 1 m wide), which generally have a preferred orientation of:  strike 110-140°, dip 60-89° N. The shears are best developed in the andesite and lapilli-tuff but also commonly occur in the granodiorite where they tend to be wider and form strong topographic features. Intense acid leaching along the pyretic shears produces a boxwork of quartz and pyrite supporting a residual yellow-white powder; the remnants of other minerals. Host rocks adjacent the shears are generally stained
deep rusty brown.

Pyrite concentration within the volcanics and volcaniclastics is usually from 2-20% (excluding shears). Occurring within the matrix and along micro-fractures, the pyrite tends to be finer grained in contrast to coarser material along the shears. In the lapilli-tuff, the pyrite can be found in both the clasts and matrix. The overall pyrite concentration in the granodiorite is less than 5%, generally fine grained and tends to be evenly distributed, often associated with mafic minerals.

Chalcopyrite, with associated malachite, occurs as very fine to fine grained crystals and coatings usually associated with quartz rich veins, veinlets and mafic dykes cutting both the 

 

	
            DON 1–2 Claims
 	
            12
 

 

 

granodiorite and andesite. It also occurs with magnetite in poddy, skarnified andesite close to the granodiorite contact but concentrations reach 1% at best. Overall, the copper occurrences, are poddy, widely spaced, small and of very low grade. However, they are of sufficient number and grade to produce the geochemical anomalies in the stream sediments and soils.

Magnetite occurs as a fine grained accessory mineral within the granodiorite, fine to medium grained sub-euhedral crystals to 5% in diorite and quartz rich veins, and variably pervasive throughout the andesite as very fine to fine grained anhedral crystals. Chalcopyrite generally has magnetite associated with it however, the converse does not apply.

Rhodonite is found as very fine grained, light pink anhedral crystals along quartz veins and aplite dykes predominantly within granodiorite. The manganese anomalies obtained in the regional silt samples are derived from these showings.

The intense chemical alteration (chlorite, epidote, silica), mechanical shearing, and pyritization of the volcanic pendant is considered to be a function of the underlying intrusive. Remobilisation of the pyrite from the volcanic pile with subsequent deposition along zones of weakness (shears, micro-fractures), undoubtedly created the strongly gossanous zones. Chalcopyrite mineralization probably formed the same way, however, a low initial copper content prohibited deposition on the scale observed by the pyrite.

 

	
            DON 1–2 Claims
 	
            13
 

 

 

 

Chapter 3:  Geochemical Programme

	
            3.1
 	
            Discussion of Previous Geochemical Results, DON Claims
 

From previous work, the most interesting geochemistry occurs in the glacial valley traversing northeast along the DON 2 claim. A strongly gossanous metamorphosed andesite appears to be the source of several silt/soil copper anomalies which peaked at 580 ppm. The area outlined extends for 1.2 km along the valley (Figure 4-a). Chalcopyrite occurring in “skarnified” andesite and associated with magnetite was observed in widely spaced, sporadic “showings.”  Grades were always less than 1% but still of sufficient quantity to explain the geochemistry.

The traverse route along which these anomalies were obtained runs along the valley wall/lateral moraine interface. As illustrated on Figure 4-b, a large volume of gossanous andesite occurs stratigraphically and topographically higher than the traverse line. Since the sequence appears to be quite thick (400 m elevation), two field days should be utilized to outline the geology in this area. Within this gap, the contact between the andesite and the overlying lapilli-tuff should exist. This contact may be significant for exhalative mineralization.

 

	
            DON 1–2 Claims
 	
            14
 

 

 

 

 

Figure 4:  Geological Areas of Interest

 

 

	
            DON 1–2 Claims
 	
            15
 

 

 

 

To the northwest, pyritic lapilli-tuff is in direct contact with the granodiorite. Regional soils collected along this zone contained values reaching 290 ppm Cu and 33 ppm Mo. The source of these anomalies is considered to e sporadic, weakly mineralised quartz veins and altered volcaniclastic along the contact. These anomalies are not considered significant.

Regional sampling to the north on the DON claim (Figure 4b) suggests further work is warranted in the vicinity of a gossanous lapilli-tuff ridge from which a previous operator soil sample containing 400 ppm Cu, 42 ppm Pb, 10 ppm Mo and 160 ppm As was collected. The sample reportedly was collected during a quick helicopter stop which precluded any significant geological mapping. 

 

	
            DON 1–2 Claims
 	
            16
 

 

 

 

Chapter 4:  Conclusions and Recommendations

	
            4.1
 	
            DON Group
 

Roof pendants composed of altered andesites and lapilli-tuff (dacitic) with minor quartz eye rhyolite are contained within medium to coarse-grained granodiorite intrusives. Minor Aplite, mafic and quartz rich dykes, veins and veinlets cut all units.  Chlorite ( epidote alteration is prevalent in both the volcanics and intrusive units.

The gossanous pendants are a function of shear controlled pyretic mineralization. Fine to medium grained pyrite may form up to 20% of the “gossan” with massive pyrite occurring along the shears themselves. Shears are normally less than 1 m wide but may attain widths of 30 m. The preferred orientation is strike, 110-140°, dip 60-89° N. Acid leaching along shear zones creates distinct bright white-yellow coloured intervals of boxwork quartz and pyrite with other components reduced to a fine powder.

Copper and manganese anomalies originally defined in the regional silt and pan samples are due to chalcopyrite and rhodonite mineralization within narrow (less than 1 m), quartz veins in the granodiorite and from highly altered volcanics. Grades are less than 1.0%, mineralization is restricted and sporadic, and magnetite is generally associated. Although not confirmed, the gold anomalies are probably a result of these or similar quartz rich veins.

Two areas remain that warrant further field work; the gossanous, copper bearing andesite along the DON 2 drainage and the lapilli-tuff unit north of the drainage along the ridge between the DON 1 and 2 claims. Geological mapping and sampling over 4-5 field days should be sufficient to determine the potential of these areas. Success contingent, this would be followed up by ground geophysics to extend any zones of mineralization.

 

	
            DON 1–2 Claims
 	
            17
 

 

 

 

Budget

Phase 1

 

Phase II

 

 

	
            DON 1–2 Claims
 	
            18
 

 

 

 

References

Stewart, Craig. (1984). DON 1-6 Claim Report #2, Report on Geology and Geochemistry for Assessment Purposes, for Noranda Exploration Company, Limited (N.P.L.), A.R. 13004.

Cairnes, C.E. (1925):  Pemberton Area, Lillooet District, British Columbia; in Summary Report 1924, Part A, Geological Survey of Canada, pages 70-99.

Franklin, J.M. (1995):  Geology of Canada, No. 8, Geology of Canadian Mineral Deposit Types, DNAG, 158-183; Volcanic-associated Massive Sulphide Base Metals. 

Huston, D.L., Large, R.R. (1989):  Ore Geology Reviews, 4 (1989) 171-200; A Chemical Model for the Concentration of Gold in Volcanogenic Massive Sulphide Deposits.

Journeay, J.M. (1990):  Structural and Tectonic Framework of the Southern Coast Belt:  A Progress Report; in Current Research, Part E, Geological Survey of Canada, Paper 90-1E, pages 197-204.

Ohmoto, H. (1996):  Ore Geology Reviews 10 (1996) 135-177; Formation of Volcanogenic Massive Sulfide Deposits:  The Kuroko Perspective

Payne, J.G., Bratt, J.A., Stone, B.C. (1980):  Economic Geology, Vol. 75, No. 5 700-721; Deformed Mesozoic Volcanogenic Cu-Zn Sulfide Deposits in the Britannia District, British Columbia

Riddell, J.M. (1991): Stratigraphy of Mesozoic rocks east of Pemberton, B.C. and the setting of the mineral showings (92J/2, 7, 10), B.C. Ministry of Energy, Mines and Petroleum Resources, Geological Fieldwork 1990, Paper 1991-1, pages 57-64.

Roddick, J.A. (1965):  GSC Memoir 335; The Geology of the Vancouver North, Coquitlam and Pitt Lake Map-Areas.

Roddick, J.A., Woodsworth, G.J. (1975). Coast Mountains Project:  Pemberton (92J West Half) Map Area, B.C., Geol. Surv. Can. Paper 75-1, Part A.

Roddick, J.A., Woodworth, G.J. (1979):  GSC Open File 611; Geology of Vancouver West Half and Mainland Part of Alberni, B.C.

Schroeter, T.G., et. al. (1989):  Open File 2000-2; Geological Survey Branch, British Columbia: Gold Production, Resources and Total Inventories in British Columbia (1858-1998).

Sinclair, A.J. (1980):  EMPR Fieldwork 1980, Paper 1981-1, 165-178; Interpretation of Lead Isotope Data, Southern Coast Mountains.

Woodsworth, G.J. (1977): Pemberton (92J) Map Area, British Columbia; Geological Survey of Canada, Open File 482.

 

 

	
            DON 1–2 Claims
 	
            19
 

 

 

 

Statement of Qualifications

I, John A. Nicholson, of 310-675 West Hastings St, Vancouver, BC hereby certify that:

	
            1. 
 	
            I am a graduate of the University of British Columbia with a BSc. (1985) in Geology (Honours) and have practiced my profession continuously since graduation.
 
	
            2. 
 	
            I have practiced my profession as a geologist in the private sector in Eastern and Western Canada, in parts of the United States and throughout Latin and South America reporting on and managing several projects in mineral exploration and mineral development.
 
	
            3.
 	
            I am a registered member of the Association of Professional Engineers and Geoscientists of British Columbia since 1992 with membership number #19933.
 
	
            4. 
 	
            I am a qualified person for the purposes of National Policy Instrument 43-101. With regards to the following report I have personally supervised and managed exploration programs directed at a number of base and precious metal targets in North and South America.
 
	
            5.
 	
            I have done mineral property evaluations in the area since 1985. I have driven through the claim area. I am familiar with the area.
 
	
            6.
 	
            I have prepared the report based on information and property assessment reports both in the public and private domain. All information is referenced and is deemed reliable and does not require independent verification.
 
	
            7.
 	
            Currently, I am unaware of any material fact and/or material change with respect to the subject matter of the forgoing report which would make the report misleading.
 
	
            8.
 	
            I am not currently, nor am I under agreement, arrangement or understanding or expect to become an insider, associate, affiliate or employee of Hurley Exploration Inc. 
 

 

 

	
            DON 1–2 Claims
 	
            20
 

 

 

 

	
            9. 
 	
            I do not own, directly or indirectly, nor am I under and agreement, arrangement or understanding or expect to acquire any securities of Hurley Exploration Inc. I hold no interest, directly or indirectly, in the mineral properties that are the subject of this report or in any adjacent mineral properties in the area.
 
	
            10. 
 	
            I hereby grant Hurley Exploration Inc. permission to utilize this report for normal corporate purposes. It may be used in whole or in part so long as any abbreviations do not change the context of the report or mislead the reader.
 

Dated at Vancouver, BC, this ______  day of April, 2005. 

 

 

 

John A. Nicholson, P.Geo

 

 

	
            DON 1–2 Claims
 	
            21
 

 

 

 

Appendix 1: Claim Information

Mineral Titles Online Viewer

Tenure Detail

	
            Tenure Number ID
 	
            510119   View Tenure   
 	
            
 
 
	
            Termination Type
 	
             
 	
             
 
	
            Title Type
 	
            MCX 
 	
             
 
	
            Tenure Sub Type
 	
            C 
 	
             
 
	
            Tenure Type
 	
            M 
 	
             
 
	
            Mining Division
 	
             
 	
             
 
	
            Good To Date
 	
            2006/APR/03 
 	
             
 
	
            Issue Date
 	
            2005/APR/03 
 	
             
 
	
            Termination Comments
 	
             
 	
             
 
	
            Termination Date
 	
             
 	
             
 
	
            Tag Number
 	
             
 	
             
 
	
            Claim Name
 	
            DON 1 
 	
             
 
	
            Old Tenure Code
 	
             
 	
             
 
	
            Area In Hectares
 	
            245.958 
 	
             
 

 

	
            Map Numbers:
 
	
             
 	
            092J 
 	
             
 
	
            Owners:
 
	
             
 	
            124748 
 	
            RICHARD STUART SIMPSON
 	
            100.0%
 
	
            Agents:
 
	
             
 	
            124748 
 	
            RICHARD STUART SIMPSON
 	
            CEXT (4025031)
 
						

 

 

 

	
            DON 1–2 Claims
 	
            22
 

 

 

 

Mineral Titles Online Viewer

Tenure Detail

	
            Tenure Number ID
 	
            510123   View Tenure   
 	
            
 
 
	
            Termination Type
 	
             
 	
             
 
	
            Title Type
 	
            MCX 
 	
             
 
	
            Tenure Sub Type
 	
            C 
 	
             
 
	
            Tenure Type
 	
            M 
 	
             
 
	
            Mining Division
 	
             
 	
             
 
	
            Good To Date
 	
            2006/APR/03 
 	
             
 
	
            Issue Date
 	
            2005/APR/03 
 	
             
 
	
            Termination Comments
 	
             
 	
             
 
	
            Termination Date
 	
             
 	
             
 
	
            Tag Number
 	
             
 	
             
 
	
            Claim Name
 	
            DON 2 
 	
             
 
	
            Old Tenure Code
 	
             
 	
             
 
	
            Area In Hectares
 	
            410.038 
 	
             
 
	
             
 	
             
 	
             
 
	
             
	
            Map Numbers:
 
	
             
	
             
 	
            092J 
 	
             
 
	
             
	
            Owners:
 
	
             
	
             
 	
            124748 
 	
            RICHARD STUART SIMPSON
 	
            100.0%
 
	
             
	
            Agents:
 
	
             
	
             
 	
            124748 
 	
            RICHARD STUART SIMPSON
 	
            CEXT (4025036)
 
							

 

 

 

 

	
            DON 1–2 Claims
 	
            23CONSENT OF INDEPENDENT GEOLOGIST

 

I have reviewed Hurley Exploration Inc. Form SB-2/A filing, I hereby provide my
consent for the reference to my reports on the DON Mineral Claims in Lillooet
Mining District British Columbia. I hereby consent to the use of my name as a
consultant to the Company.

 

/s/  John Nicholson  

John Nicholson P. Geo.

 

July 11, 2005

Source: [{"source": "alea-institute/alea-institute/kl3m-data-edgar-agreements/train-00088-of-00352.parquet"}, [{"source": "alea-institute/alea-institute/kl3m-data-edgar-agreements/train-00088-of-00352.parquet"}]]