l32O04NWD247 2.15636 GAUTHIER 010
REPORT ON LINE CUTTING,MAGNETOMETER ANDVLF-EM GEOPHYSICAL SURVEYS ON THECTL, LAC GAUTHIER, SUDBURY CONTACTAND TCALHANNA PROPERTIES,VICTORIA LAKE GRIDGAUTHIER TWP.,-KIRKLAND LAKE AREA,NORTHERN ONTARIO
On Behalf Of : 2.1563 6CONTACT MIMES UTD.
c/o W.A. Hubacheck Consultants Ltd. Suite 1401, 141 Adelaide St. West Toronto, Ontario M5H 3L5
Contact: Peter Hubacheck, Dave ChristieTelephone: (416) 364-2895Fax : (416) 364-5384 01^=7————
RECEIVED
By:
JVZ IiXMXTXD60 West Wilmot St., Unit f22 Richmond Hill, Ontario L4B 1M6
OCT l 8 1994
Contact: Blaine Webster Telephone: (905) 731-0972 Fax: (905) 731-9312
JVX Ref: 9401-C July, 1994
J V X ————~ 010C
TABU OF
1. INTRODUCTION
2. SURVEY LOCATION MD OJO* GROUP 2
2.1 Survey Location 22.2 Claim Group 2
3. SUKVEf GRID MD COVERAGE 2
5. GEOPHYSICAL JJUTKUMENTATION 4
5.1 Magnetometer/VLF Receiver 4
6. SUKVEZ METHOD AND FIELD PROCEDURES 4
6.1 Field Procedures (Mag/VLF) 46.2 Magnetic method 56.3 Very Low Frequency EM 6
7. DATA PROCESSING AND PRESENTATION 7
7. l Summary 77.2 Magnetics/VLF-EM 77.3 Anomaly Classification (Mag./VLF-EM) 7
8. DISCUSSION OF RESULTS AND RECOMMENDATIONS 7
8.1 Description of magnetic and VLF anomalies 8
9. CONCLUSIONS AND II H1'H iNHHHUT 11 Hill 9
JVX
FIGURES
Figure l Location Map, scale 1:600 000
Figure 2 Grid Map, Scale 1:20,000
Figure 2a Grid Map, with topography. Scale 1:50,000
Figure 3 Claim Map
Table l
TABLES
Mag/VLF Production Summary
APPENDICES
Appendix A Instrument Specification Sheets
Appendix B Plates l to 4
Plate l:
Plate 2:
Plate 3:
Plate 4:
PLATES
HUBS LTD., VICTORIA
Total Field MagneticContoursScale 1:5000
Profils/Posted Values Scale 1:5000
VLF Profiles Scale 1:5000
Compilation/Anomaly Plan Map Scale 1:5000
CRKBK PROJXCT
JVX
REPORT ON LINE CUTTING,MAGNETOMETER AND
VLF-EM GEOPHYSICAL SURVEYS CTL, LAC GAUTHIER/ SUDBURY CONTACT
AND WALHANNA PROPERTIES, ___ VICTORIA LAKE GRID
GAUTHIER TWP., KIRKLAND LAKE AREA, NORTHERN ONTARIO
On Behalf Of
SUDBURY CONTACT NINES LTD.
TIOS
From January 2nd to January 30th, 1994, Line Cutting, Total Field Magnetics, and VLF Electromagnetic surveys were conducted by JVX Ltd. on behalf of Sudbury Contact Nines Ltd. c/o W.A. Hubacheck Consultants Ltd.,(Suite 1401, 141 Adelaide St. West, Toronto, Ontario, M5H 3L5) on the CTL, Lac Gauthier, Sudbury Contact and Walhanna properties. Victoria Lake grid. Gauthier Twp., Kirkland Lake area. Northern Ontario.
The objective of the survey was to outline Vlf conductors and Magnetic trends which may help define areas of disseminated and massive metallic sulphides. The final products of this survey are recommendations concerning targets which are thought to be areas for further exploration. The targets are summarized in section "conclusions and Recommendations*.
The total field magnetics and VLF-EN surveys were taken at a nominal 12.5 meter station separation on 100m spaced lines. A total of 99.158 km of total field magnetics was read including crossline and baseline. Crossline ranging in length from 637.5 to 3,300 meters were cut at 100 meter intervals with baselines and tielines of 9.36 line km. Mag/VLF surveys were conducted on all 45 lines (incl. base and tie lines). The line distances are outlined in table 1.
This report describes the survey logistics, field procedures, and data processing/presentation. An interpretation of the results is included. The results are presented as a compilation/anomaly plan map, contour plan maps and profiles/posted values plan maps.
LOCATION MAP
SUDBURY CONTACT MINES LTD. VICTORIA CREEK PROJECT
GAUTHIER TWP.. ONT. N.T.S. 32 D/4
GROUND GEOPHYSICAL SURVEY
SURVEY BY JVX LTD.
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JVX2. UURVM LOCATION AHD CLAIM OROOP
2.1 SURVEY LOCATION
Figure l shows the location of the survey area with respect to nearby population centres at a scale of 1:600 000. The survey grid is located on the entire Victoria Grid cut to date which is situated approximately 15 km east of Kirkland Lake, Ontario across Northwestern Gauthier Township.
2.2 CLAIM GROUP
The property is composed of four groups of claims for a total of 69 claims.(Figure 3).The four groups are:
1.) Lac gauthier Option ( 23 single unit claims }:Consisting of: 821260 - 821274 incl.; 821351 - 831358.
2.) Malnanna Option ( 6 single unit claims ):Consisting of: 37310 - 37312 incl.; 37259 - 37260.
3.) Sudbury Contact ( 2 claims consisting of 3 units ):Consisting of: 1200506 ( 2 units ), 1186618 ( l unit )
4.) CTIi Option ( 38 single unit claims ):Consisting of: 30800 - 30803 incl.; 30806; 30809 - 30814 incl.; 30883; 9338 - 9353 incl.; 599071 - 599079 incl.; 16134.
3. UURVKX ORID AND COVERAGE
Approximately 99.158 line kilometres of magnetometer/VLF data were acquired over the grid at a station spacing of 12.5 meters. All north-south trending lines utilized the VLF transmitter frequency of 24.0 kHz generated from Cutler, Maine (NAA). A detailed production summary of the magnetometer/VLF coverage is given in Table l below.
TABLE l
TOTAL FIELD MAGNETIC l VLF PRODUCTION SUMMARY
VLF station NAA, Cutler, HA
12.5-meter station separation
Lin*
2000W1900W1800W1700W1600W1500W1400W1300W1200W1100W
StationFrom To
2500S2315S2312S2325S2450S2280S2275S2575S2825S2750S
SOON825NSOONSOONSOONSOONSOONSOONSOONSOON
Length(metres )
3300.003140.003112.503125.003250.003080.003075.003375.003625.003450.00
Btambar of Headings
264253250251261249248271291277
J VX
TABUS l (Cont'd)
TOTAL FIELD MAGNETIC l VLF PRODDCTIOH SUMMARY
VLF station NAA, Cutler, MA
12.5-roeter station separation
Lin*
1000W900W800W700W600W500W400W300W200W100W00
100E200E300E400E500E600E700E800E900E1000E1100E1200E1300E1400E1500E1600E1700E1800E1900E2000EBLOO
TT.1450STL 600STL 400S
StatFrom
2675S2200S2175S2150S2300S2300S2300S2300S1875S1825S1825S1825S1625S1600S1600S1600S1550S1562S1575S1550S1175S1200S1150S1100S1125S1125S1100S1100S1125S1100S1100S2000W2000W1400W1400W
ionTo
850NSOONSOONSOONSOONSOONSOONSOON737N0000000000SON
200S250S200S200S212S350S400S462S462S400SSOONSOONSOON800NSOONSOON100W
1612E700W700W
Length(metres )
3525.003000.002975.002950.003100.003100.003100.003100.002612.501825.001825.001825.001625.001600.001650.001400.001300.001362.501375.001337.50825.00800.00687.50637.50725.001925.001900.001900.001925.001900.001900.001900.003612.50700.00700.00
HUnbar of Readings
28424224023825025022324921014714714724812913311490
1111111086765555259
15515215315515315383
2915757
Total t 99.158 3886
JVX
Mr. Fred Moher - Geophysical Technician - Party Chief. Mr. Moher operated the IGS mag/vi f instrumentation, compiled the data with the IBM 486 microcomputer GEOPAK software for plan map plotting and was responsible for the data quality, day to day operation and direction of the surveys.
Mr. Dean Fraser - Geophysicist, B.Se. Mr. Fraser operated the magnetometer/VLF instrumentation, edited the data and prepared this report.
Mr. Steve Bortnick - Geophysical Technician. Mr. Bortnick cut the base line and supervised the linecutting.
Three field assistants were also engaged by JVX.
Mr. Albert Vickers - Geophysicist. B.Se. Mr. Vickers compiled the data in Larder Lake and assisted in the data compilation.
Mr. Jan Kozel - Geophysicist, M.Se. Mr. Kozel compiled the data in Richmond Hill and prepared the plan maps.
Mrs. Dagmar Pi ska - Cartographer. Prepared the merged compilation maps and assembled the reports with all plates and colored pseudosections plates.
Mr. Slaine Webster - Geophysicist, B.Se. - President, JVX Ltd. Mr. Webster provided overall supervision of the survey and this report.
5. GBOPHTSICAL IH8TKOMENTATION
JVX supplied the following geophysical instruments, accessories and software.
5.1 MAGNETOMETER/VLF RECEIVER
The Scintrex IGS-2/MP-4/VLF-4 proton precession magnetometerlVLF microprocessor-based receiver system was employed to measure the total magnetic field and VLF field components (Vertical in-phase, vertical quadrature, and horizontal field components) over the grid. Measurements were taken along the line at 12.5 meter station intervals. The geophysical measurements, time and position information are recorded in the instrument's solid state memory. A second base magnetometer was used to monitor the diurnal change, the base magnetometer was set to take readings at 10 second intervals. At the end of each day the correction for the diurnal shift was made automatically by either linking the base station magnetometer to the field magnetometer or by dumping each magnetometer to a IBM compatible computer auld running appropriate JVX software for the drift correction.
Specification sheets for the Scintrex IGS-2 are appended to this report (appendix A).
6. ttUKVEX METHOD AHD FIELD PROCEDURES
6.1 FIELD PROCEDURES
The total field component of the magnetic field was measured along line at 12.5 meter intervals. The base station monitor was taking readings at a fixed locale at 10 second intervals. At the completion of each days work the two magnetometers were linked and the diurnal correction proceeded automatically.
JVX
The In-phase and quadrature components of the Vertical field and the Horizontal field strength ( Primary Field ) were read along line at 12.5 meter intervals. The transmitter used on the survey lines was Cutler. Maine (NAA) with a frequency of 24.0 KHz.
6.2 MAGNETIC METHOD
The magnetic method consists of measuring the magnetic field of the earth as influenced by rock formations having different magnetic properties and configurations. The measured field is the vector sum of primary, induced and remanent magnetic effects. Thus, there are three factors, excluding geometric factors which determine the magnetic field. These are the strength of the earth's magnetic field, the magnetic susceptibilities of the rocks present and their remanent magnetism.
The earth's magnetic field is similar in form to that of a bar magnet. The flux lines of the geomagnetic field are vertical at the north and south magnetic poles where the strength is approximately 60,000 nT (or gammas). In the equatorial region, the field is horizontal and its strength is approximately 30,000 nT.
The primary geomagnetic field is, for the purposes of normal mineral exploration surveys, constant in space and time. Magnetic field measurements may, however, vary considerably due to short term external magnetic influences. The magnitude of these variations is unpredictable. In the case of sudden magnetic storms, it may reach several hundred nT over a few minutes. It may be necessary therefore, to take continuous readings of the geomagnetic field with a base station magnetometer while the magnetic survey is done.
The intensity of magnetization induced in rocks by the geomagnetic field F is given by:
where:
I is the intensity of magnetisationk is the volume magnetic susceptibilityH is the magnetic field intensity
The susceptibilities of rocks are determined primarily by their magnetite content since the it is strongly magnetic and widely distributed.
The remanent magnetization of rocks depends both on their composition and their previous history. Whereas the induced magnetization is nearly always parallel to the direction of the geomagnetic field, the natural remanent magnetization may bear no relation to the present direction and intensity of the earth's field. The remanent magnetization is related to the direction of the earth's field at the time the rocks were last magnetized. Interpretation of most magnetometer surveys is normally done by assuming no remanent magnetic component.
Since the distribution of magnetic minerals (magnetite, phyrrhotite) will, in general, vary with different rock types, the magnetic method is often used to aid in geologic mapping. In gold exploration, the magnetic survey is of particular importance because it may map areas of structural complexity, carbonization, and silicification.
JVX
6.3 Very Low Frequency (VLF - EM)
The Very Low Frequency (VLF) Electromagnetic Method measures variations in the components of the electromagnetic fields set up by communication stations operating in the 15 to 25 kHz frequency range. These stations, located around the world, generate signals for the purposes of navigation and communication with submarines.
Above a uniform earth, the groundwave of the vertically polarized VLF radiowave has three field components:
1) a radial, horizontal electrical field,2) a vertical electrical field, and3) a tangential, horizontal magnetic field.
When these three fields meet conductive bodies in the ground, eddy currents are induced causing secondary fields to radiate outwards from the conductors.
The primary field from a VLF station can vary considerable. For the most part, the field fluctuates moderately during the course of the day due to changes in atmospheric conditions. More dramatic changes are however possible. Towards evening there is a large upward swing in the field strength. At several points during the day, both partial and total drops in the field amplitude can be observed. In the light of these irregularities, the horizontal field data should always be considered with reservation as it is difficult to know whether changes are caused by conductors or by variations in the station's signal. If the primary field strength is constant, changes in the amplitude of the horizontal magnetic field reflect variations in the conductivity of the earth.
Normally there will be no vertical magnetic field. However, near a conductor, a vertical field will be observed. The relative amplitudes of the in-phase and quadrature components may be used to interpret the conductivity-size characteristics of the conductor.
A normalized Horizontal Field (Hn) may be derived as follows:
Hn = [(H-background)/background] x 100*
where H is the observed Horizontal Field. The computation of Hn provides a first pass removal of the diurnal component on an individual line basis only. The resulting profile map may be used to outline major conductive linear trends and differentiate between relative high and low conductive units. The use of a VLF base station would give a more accurate Hz as well as survey line to survey line continuity of the Hz. resulting with a data set reliable enough to contour.
JVX
7. DATA PROCESSOR AMD PRESENTATION
7.1 MAGNETICS/VLF-EM
To allow for the computer processing of the Magnetic and VLF data, the data resident in the IGS-2/MP-4 system's memory was transferred via a serial communication link to the Compaq 286 computer - thereby facilitating editing, processing and presentation operations. All data was archived on floppy disk.
In the JVX office at Richmond Hill, ON all data was. reviewed and necessary editing performed. The corrected data was ink-plotted in plan map format as contour and profiles with posted values on a Nicolet Zeta drum plotter and in colour with a Fujitsu dot matrix and/or Tecktronics printer plotter, interfaced to an IBM PC compatible 486DX-66MHZ microcomputer.
Contours and profiles with posted values and plan maps of the corrected data were computer generated and fine-drafted on mylar at the Richmond Hill office, at a scale of 1:5000 with appropriate contour intervals.
A list of all final maps can be found in Appendix B
The ACAD drawing files of the plates and a complete data set including all the field measurements made and any calculated products is available, on floppy disk or printed listing, upon request from JVX Ltd. on a time and material basis.
7.2 ANOMALY CLASSIFICATION (Maonetic/VLF-EM)
The total field magnetic data have been studied for lateral changes of the strength of the magnetic field. The representative contours have been chosen and included into Compilation Maps, expressing the physical boundaries that are thought to be related to local geology and/or lithology.
Assuming the background level of 58200 nT, the values above are to be considered local magnetic highs and values below the base level, as magnetic lows.
The VLF-EM crossovers and Hz highs anomalies are generally considered to be local conductors. The conjunction with the geological sources, is more less depending on the local topography, because VLF method is often responding to the topographical changes in the area, wet spots (swamps, creeks ...) and the culture (powerlines, roads ...). Therefore the classification of VLF responses should be modified according to the specific grid conditions.
8. DISCUSSION OF RESULTS
The total field Magnetic data is of uniform good quality and helps outline geological trends and structural dislocations. The Vlf coverage has enabled the mapping of conductors of variable sources and orientation. This discussion is based on the combined evaluation of the grid areas within the Victoria Creek Project.
JVX
8.1 DK8CRIPTIOH OF MUagTIC AMD VET
The Mag/VI f survey located 5 major magnetic features and 11 Vlf trends. These features are outlined on the MagXVIf compilation map.
MAGNETIC TRENDS
The first series of small east-west trending magnetic anomalies labelled MH-la to MH-ld are located in the northeast corner of the grid. The anomalies range in length from 100 to 800 meters and 100 to 1000 nT in strength.
Anomaly MH-lb appears to be shallow and may dip to the south. When plotted in profile form this anomaly looks like the closure of a nose fold and therefore should be carefully mapped.
Anomaly MH-2, MH-2a, MH-2b and MH-2c are a series of weak to moderate magnetic responses crossing the entire grid about 600 meters south of the northern claim boundary.
Magnetic anomaly MH-3 is a broad weak north-south magnetic response occurring in the northwestern part of the grid. The anomaly may be associated with a dike.
Magnetic anomaly MH-4 is a broad 500 to 750 nT magnetic response located near the central-southern boundary of the property. The source of MH-4 is a deep mafic body dipping steeply to the south.
Magnetic anomaly MH-5 is a 750 to 1000 nT south dipping magnetic response located in the southwestern part of the grid. The anomaly appears to be shallow ( 25 to 50 meters ) and is likely mafic in composition. The contours suggest the response ( MH-5 south ) may merge with MH-5 east as it continues to the east.
VLF TRENDS
Listed below are the Vlf trends which have been grouped with associated magnetic highs or magnetic lows. The strengths of the anomalies have been given as well.
Vlf trends associated with magnetic highs:
1 VLF-la2 VLF-lb3 VLF-lc4 VLF-Id5 VLF-le6 VLF-lf7 VLF-lf8 VLF-lf9 VLF-lg
ModerateWeak-moderateWeak-StrongModerate-StrongModerate-StrongModerateWeakWeak-ModerateModerate
10 VLF-lh11 VLF-2C12 VLF-2d13 VLF-2f14 VLF-3a15 VLF-7b16 VLF-7c17 VLF-11
StrongWeak-moderate Moderate . Weak-Strong Moderate-Strong Weak-Strong Weak-Strong Moderate
JVXVIf trends associated with magnetic lows:
1 VLF-2a2 VLF-2b3 VLf-2b'4 VLF-2e5 Vlf-2e'6 VLF-3b7 VLF-3C8 VLF-4a9 VLF-4b10 VLF-5a11 VLF-5b12 VLB-5b f
Weak-ModerateWeak-StrongWeak-StrongModerateWeakWeakWeakWeakModerateWeakModerateWeak
13 VLF-Sc14 VLF-615 VLF-7a16 VLF-7a'17 VLF-8a18 VLF-8b19 VLF-Sc20 VLF-921 VLF-9a22 VLF-9b23 VLF-10
Weak-ModerateStrongWeakWeakModerate-StrongWeakWeak-ModerateModerateWeak-ModerateWeak-ModerateModerate
9. CONCLUSIONS AND LTIOKS
From January 2nd to January 30th, 1994, Line Cutting, Total Field Magnetics, and VLF Electromagnetic surveys were conducted by JVX Ltd. on behalf of Sudbury Contact Mines Ltd. c/o W.A. Hubacheck Consultants Ltd.,(Suite 1401, 141 Adelaide St. West, Toronto, Ontario, M5H 3L5) on the CTL, Lac Gauthier, Sudbury Contact and Walhanna properties. Victoria Lake grid. Gauthier Twp., Kirkland Lake area. Northern Ontario.
The total field magnetics and VLF-EM surveys were taken at a nominal 12.5 meter station separation on 100m spaced lines. A total of 99.158 km of total field magnetics was read including crossline and baseline. Crossline ranging in length from 637.5 to 3,300 meters were cut at 100 meter intervals with baselines and tielines of 9.36 line km. Mag/VLF surveys were conducted on all 45 lines (incl. base and tie lines). The line distances are outlined in table l.
The results are presented as a compilation/anomaly plan map, contour plan maps and profiles/posted values plan maps.
The anomaly compilation map includes the magnetic trends and the Vlf conductors.
Data from the mag/vif survey helped to define several targets for further investigation. Five (5) major magnetic highs were mapped as well as an area of low magnetic signature. The mag low region which occurs between the baseline and 2100 south could be a region of acid volcanics. Associated with the magnetic highs are seventeen (17) vlf trends which are good targets for further work.
We recommend to assess geologically/geochemically all Vlf zones that are marked on the compilation map. If the following anomalies are favourable geologically/geochemically we suggest following the entire VLF zone.
The following 17 VLF trends (with associated strength) appear to be good exploration targets and warrant further investigation. The Vlf conductors lie on magnetic highs or occur on the flanks of the magnetic anomalies.
JVX in
EXPLORATION TARGETS:
1 VLF-la2 VLF-lb3 VLF-lc4 VLF-ld5 VLF-le6 VLF-lf7 VLF-lf8 VLF-lf"9 VLF-lg
ModerateWeak-moderateWeak-StrongModerate-StrongModerate-StrongModerateWeakWeak-ModerateModerate
10 VLF-lh11 VLF-2c12 VLF-2d13 VLF-2f14 VLF-3a15 VLF-7b16 VLF-7c17 VLF-11
StrongWeak-moderateModerateWeak-StrongModerate-StrongWeak-StrongWeak-StrongModerate
To determine the anomaly source (geological contact, shear zone, sulphide or graphite zone) we recommend further geophysical exploration in the area. Particularly Max-Min and/or Spectral IP/Resistivity surveys would further quantify character of anomalies.
If you have any questions regarding the data processing or the data compilation, please call the undersigned at JVX LTD.
Respectfully submitted
LIMITED
aser, B.Se.
•fine Webster, B.Se. President
SECIFICATION SHEETS
Scintrex has used low power con sumption microprocessors and high density memory chips to create the IGS Integrated Portable Geophysical System; instrumentation which will change the way you do ground geophysics.
Here are the main benefits which you will derive from the IGS family of in strumentation:
1. Depending on your choice of optional sensors you can make one. two or all of: magnetic. VLF and electromagnetic measurements. Thus, you may optimize the IGS system for different geophysical conditions and production requirements.
2. You will save time and money in the acquisition, processing and presen tation of ground geophysical survey data.
3. You will achieve an improvement in the quality of data through enhanced reading resolution, an increase in the number of different parameters measured and/or a higher density of observations. Further, errors which occur in manual transcription and calculation will be eliminated.
4. Your operator will appreciate the simplicity of operation achieved through automation.
5. Since add-on sensors are relatively less expensive, your investment in a range of IGS instrumentation may be much less than it would.be with a number of different instruments, each dedicated to a different measurement.
Jne Scintrex IGS2/MP4/VLF4/EM4 permits one operator to efficiently measure magnetic. VLF and EM fields and to record data m computer compatible solid-state memory
PLATES
SDDBORT CONTACT MOBS MD., VICTORIA CRBEK PROJECT
Plate 1: Total Field Magnetic Contours Scale 1:5000
Plate 2: Total Field MagneticProfiles/Posted Values Scale 1:5000
Plate 3: VLF Profiles Scale 1:5000
Plate 4: Compilation/Anomaly Plan Map Scale 1:5000
Ministry of Northern Dev and Mines
opment
Ontario
Report of Work Conducted After Recording Claim
Mining Ad
3sraonsl Information coRsctsd on this term is oMsinsd undsr Ilw sulhortty of ttwMb* his coltction should b* directed lo Hw Provincial Manager. MWng Lands. MlmstP Sudbury. Ontario. P3E 6A5. telephone (705) 670-7264.
nstructlons: - Please typo or print and submit in duplicate.- Refer to the Mining Act and Regulations for requirv
Recorder.- A separate copy of this form must be completed for each Work Group.- Technical reports and maps must accompany this form in duplicate.- A sketch, showing the claims the work is assigned to. must aooompany this
900
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Work Performed (Check One Work Group Only)WorkGroup Typ*
Geotechnical Survey
Inducing Ortting -r-,
Other Authorized OC1 " 5 -
Assays
Assignment from
Total Asssosmont Work CtsJmsxl on ttM Attschsd ststsmsfit of Costsl Rtt wOfholder cannot verify expendHures daimed In
Persona and Survey Company Who Perfonaed the Work (OK* Name and
30 days of a request
Address of Author ofAddress
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l certify that st Hw HIM tne work we* performed, me dshns conrad In Ms work report were recorded in the current hoktor's name or hsU undsr a benefcW l by Hw curffejnt rsoofdsd noldsr.
n l/ , iT3l MM l MjuutA^
CsrtHlcatlon of Work Rsportl l cejtUy tnat l neve a psfSjonal knowwdos of tha facts sat fm ill in tnia work ropon, ' ita completion and annexed report is true.
n0P* l Ilw work or during sndtor sftoi
and Oddrns of Penon praying
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Credits you are claiming in this report may be cut beck. In order to minimize the adverse effects of such deletions, please Indicate from which claims you wish to priorize the deletion of credits. Ptssse mark (**) one of the following:
1. C Credits are to be cut back starting with the deJm Nsted lest, working backwards.: O (rf /*rA*4Sftei m r* tn KA j*, rf Kei^ir Afiiieilfw — - —— mU r4*if**m nnaiteihisirl in t* * ' -***^ fiJ •••ritir
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3. G Credits ars to be cut back as priorized on the attached appendbi.
In the event that you have not specified your choice of priority, option one will be implemented.
Note l: Examples of beneficial Interest ars unrecorded transfers, option agreements, memorandum of egreements. etc.. with respect to ths mining claims.
Note 2: If work has been performed on pstented or leased land, please complete the following:
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ts you are claiming in mie report may be cut back. In order lo minimize the adverse effecta of such deletions, please indicate from claims you wish to pnorize the deletion of credits. Please mark (^) one of the foaowing:
I Credits are to be cut back starting with the claim listed last, working backwards. l Credits are to be cut back equally over all claims contained in thia report of work. . Credits are to be cut back as pnorized on the attached appendix.
event that you have not specified your choice of priority, option one will be implemented.
Examples of beneficial Interest are unrecorded tranafera, option agreementa. memorandum of agreement!, etc.. with reapect to the mining claims.
if work -.as been performed on patented or leeaed land, please complete the following:
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Credits you are claiming in this report may be cut back. In order to minimize the adverse effects of such deletions, please indicate from ' which claims you wish to pnorize the deletion of credits. Please mark (.-) one of the following:
. 1 Z] Credits are to be cut back starting with the claim listed last, working backwards.
j 2. S- Credits are to be cut back equally over all claims contained m this report of work.
3. LJ Credits are to be cut back as pnorized on the attached appendix. ji iIn the event that you have not specified your choice of priority, option one will be implemented
Note 1: Examples of beneficial Interest are unrecorded transfers, option agreements, memorandum of agreements, etc., with respect to the mining claims.
Note 2: If work has been performed on patented or leased land, please complete the following:
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Credits you are claiming in this report may be cut back. In order to minimize the adverse effects of such deletions, please indicate trot wmch claims you wisn to prionze the deletion of credits. Please mark (^) one of the following:
i H Credits are to be cut back starting with the claim listed last, working backwards.
2. s&t Credits are to be cut back equally over all claims contained m this report of work.
3. '~ Credits are to be cut back as pnonzed on the attached appendix.
In the event that you have not specified your choice of priority, option one will be implemented. !l
Note 1: Examples of beneficial Interest are unrecorded transfers, option agreements, memorandum of agreements, etc.. with respect to the mining claims.
Note 2: If work has been performed on patented or leased land, please complete the following:
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Credits you are claiming m this report may be cut back. In order to minimize the adverse effects of such deletions, please indicate from which claims you wish to prionze the deletion of credits. Please mark (*~) one of the following:
-4i Credits are to be cut back starting with the claim listed last, working backwards.
2. -^"Credits are to be cut back equally over all claims contained in this report of work.
3. H Credits are to be cut back as priorized on the attached appendix.
In the event that you have not specified your choice of priority, option one will be implemented.
Note 1: Examples of beneficial interest are unrecorded transfers, option agreements, memorandum of agreementa, etc.. with respect to the mining claims.
Note 2: If work has been performed on patented or leased land, please complete the following:
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1 Credits you are claiming in this report may be cut back. In order to minimize the adverse effects of sucn deletions, please indicate from . which claims you wish to pnorize the deletion of credits. Please mark (v) one of the following:
i 1. C Credits are to be cut back starting with the claim listed last, working backwards. : 2. (^Credits are to be cut back equally over all claims contained in this report of work.
3. LJ Credits are to be cut back as priorized on the attached appendix.- i
In the event that you have not specified your choice of priority, option one will be implemented. |
Note 1: Examples of beneficial interest are unrecorded transfers, option agreements, memorandum of agreements, etc., with respect to the mining claims.
Note 2: If work has been performed on patented or leased land, please complete the following:
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Credits you are claiming in this report may be cut back. In order to minimize the adverse effects of such deletions, please indicate froi wnich claims you wish to pnorize the deletion of credits. Please mark (^) one of the following:
1. Z! Credits are to be cut back starting with the claim listed last, working backwards.
2. xSCredits are to be cut back equally over all claims contained in this report of work.
3. Zj Credits are to be cut back as priorized on the attached appendix.
In the event that you have not specified your choice of priority, option one will be implemented.
Note 1: Examples of beneficial interest are unrecorded transfers, option agreements, memorandum of agreements, etc., with respect to the mining claims.
Note 2: If work has been performed on patented or leased land, please complete the following:
f
MWsttyolNortnem Oevefopmertand Mhws
Ministere du Oevetoppement du Nord et des mines
Statement of Costs for Assessment Credit
Etat des coOts aux fins du credit devaluation
Mining Act/Lol sur les mines 2*1563 6Personal information cotacted on this form la obtained under the authorityf^ *AVA Balbe^e^B al **e1 "^*—l— ta^bMWM^dltfM* ^^H **-~- A^MO' B** ^^ ftfn A a an nari - -*o* mv ewMnoj ACT. i ins Nkfuiiiienion WM 09 usoo ID fnaniivn s recora 800 ongoing status of the mWng cWm(a). OuesHona about this collection should be averted to the Provincial Manager. Minings Unds. MMgtry of Northern Development and Mines. 4th Floor. 158 Cedar Street. Sudbury. Ontario P3E 8A5. telephone (705) 670-7264.
Les rensetgnernents personnels contemn dana la presente formula sort recueHas en vertu de la Lot aur toe nrfnea at erviront a tank- a Jour un regiatre des concessions mlnieres. Adresaer tome quesNon aur la coiece da cee ronseignements au chef provincial dee terrains mMers. minister* du Devetoppement du Nord et des Mines. 159. ma Cedar. 4* etage. Sudbury (Ontario) P3E 8A5. telephone (705) 670-7264.
1. Direct Costs/CoOts directs
Setakee
Contractor's
Feee Drone de rentrepreneur et de ('expert-
SuppNeeUeed Foumrturee
Rental Location de
D09Cfiption
LabourMain-d'oeuvre
Field Supervision Supervision sur le terrain
Typs
Amount Montant
Total Direct Costs
Totals Total global
2. Indirect Costs/CoOts Indlrectsrk Indin us are not* * Note: When claiming Rehabilitation w
allowable as assessment work. Pour le remboursoinont dee travauc de renabMatton. lea oouts Indaects ne eont pea i (revaluation.
Type
TreneportatkNi
Food i
Description
Typs
OC" ;
MINING L ~
Amount
. |CH !
Sub Total of Total pertM das
Totals Total global
Note: The recorded holder wM be required to verily expendRures cWmedki Ms 8ttt6nwni of cosiB vNMn 30 olvys of n foojuMt tof vwMcflUoii. If vofMceVtflon to not nievtos ttw Mbeistor nwy f0|0ct for \ al or part of the aseeaament work MbmMed.
Note: Let itenuda Mpaito present Mat das count dans lee 30 Jours savant una A eat
ou une pern* dee travaux d'e
HHng Discount* Remlaea pour oepot
1. Work flled wHMn two years of completion is claimed at lOtWfc of the above Total Value of Assessment Credit.
l. Les travaux deposes dans lea deux am sutvant laur achevement soot reinboursesalOOHdslavatourtotatosusmertlonneeduo^old'evakaBon.
2. Work filed three, four or five years after completion is claimed at SOTfc of the above Total Value of Assessment Credit. See calculations below:
Total VahM o* Assessment Credit
x 0.50 *
2. Les travaux deposes trois. quatre ou dnq arts apres tour achevement sont rembourses a 50 U de la valeur totaJe du crMIt d*evaluation susmentionnA. Voir les cateuls ct-dessous.
ValMir total* du credit d**nluation
X 0.50 -
Certification Verifying Statement of Costs Attestation de I'etst des coOts
hereby certify:hat the amounts shown are as accurate as possible and these costs were incurred while conducting assessment work on the lands shown jn the accompanying Report of Work form.
hat asiRvcorded HoWer. Agent. Portion m Company)
c make this certification
J'atteste par la presente :que les montants indiques sont le plus exact possible et que ces depenses ont eld engagees pour effectuer les travaux d'evaluation sur les terrains indiques dans la formule de rapport de travail ci-joint.
l am authorized Et qu'a titre de je suis autoriseuir* amegisir*. raprisentanl. post* occup* dm* la oompagni*)
a faire cetie attestation.
Oat*
HONVHG S"*^ r'SN.i'i !
-ee.sTioo ;; ;l Q3Ai3o:-d j
'tff
Ontario Geoscience Approvals OfficeMinistry ofNorthern Developmentand Mines
Ministere du Developpement du Nord et des Mines
933 Ramsey Lake Road 6th Floor Sudbury, Ontario P3E 6B5
Telephone: (705) 670-5853 Fax: (705) 670-5863
Our File: 2.15636 Transaction /:W9480.00475
December 5, 1994
Mining Recorder Ministry of Northern Development and Mines 4 Government Road East Kirkland Lake, Ontario P2N 1A2
Dear Mr. Spooner:
RE: Approval of Assessment work on mining claims 30883 et al in Gauthier Township.
The assessment credits for Geophysics(MAG,VLF), section 14 of the Mining Act Regulations, as listed on the original Report of Work, have been approved as of November 29, 1994.
Please indicate this approval on the claim record sheets.
If you have any questions concerning this correspondence please contact Bruce Gates at 670-5856.
Yours sincerely,
Ron C. Gashinski Senior Manager, Mining Lands Section Mining and Land Management Branch Mines and Minerals Division
Enclosures:
cc: Assessment Files Office Sudbury, Ontario
Resident Geologist Kirkland Lake, Ontario
-VIH'"""
FROM DISPOSITION
K.* O, - MINING RIGHTS ONLY
S.R.O. - SURFACE RIGHTS ONLY
M.+ S. - MINING AND SURFACE RIGHTS
Ontor Ma D*t* Dnpodtion F rt*
TOWNSITE staking Restricted S.S. 30(b) MINING ACT
POWER LINE pending under Public Lands Acf)
j .c t L
THl INFOHMAIION THAI . AF'FTAHS ON THIS MAP i HAS BFtN COMI'II l D FROM VARIOUS SOUHC.F', AND ACX.URACY i:, NOT (illARANI E- L O TtlO'.l WISHING TO S1AKI MIN INC. Ci AIMS SHOUI 11 (,ON SUM WITH THt MiNIN(. RI (.ORO! R MINISTRY ()l l NORTHhHN DF VI l OIJ Ml NF ANOMINFS FOR AF) DITIONAI. INFORMAIKJN ON F MF STATUS OF FHI l ANUS SHOWN HFREON
NuTICE OF FORESTRY ACTIVITYTHIS TOWNSHIP l AKtA f ALLS WITHIW THE .. ^
MANAGEMENT
ANT) MAY if SUBJECT TMt MMR UNT FORESTER fSf CONTACTED AT- P O BOX
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^05-642-3222
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HIGHWAY AND ROUTE No
OTHER ROADS
TRAILS
SURVEYED LINES TOWNSHIPS BASELINES, ETC LOTS. MINING CLAIMS PARCELS ETC
UNSURVEYED LINESLOT LINES ' - PARCEL BOUNDARYMINING CLAIMSETC
RAii-WA* ANP RIGHT Oe WAY -*
UT,l i* v LINES -
NON PERENNIAL S^!R' A^ -
f- LOODIN , O" . LCKJ itiGHtC.H" ' t
SUBDiV'SION OR
R[ SERRATIONS
ORIGINA.. SHORE
MARSH OR MUSKEG
MINEb
TRAVERSE MONUMLNfy
DISPOSITION OF CROWN LANDS
T y PE OF DOCUMtM
PATENT , Rf ACb 8i MINI 1 .
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DECEIVED"UCT l 8 1994
l. , . l .Ml l f" .
h .t.
t e BKUAKY H I
32D04NW0247 2 15636 GAUTHIER 200
-Sr
CTL OPTION
800 N
700 N
600 N
500 N
400 N
300 N
200 N
100 N
BflSE LINE
100 3
200 S
300 S
400 S
500
600 S
700 S
800 5
CTL900 5
1000 S
OPTIONl 100 S
1200 S
1300 5
1400 S
TIE LINE1500 S
1600 S
1700 S
1800 S
1900 5
2000 3
2100 S
2200 S
2300 5
WALHANNA OPTION LAC GAUTHIER OPTIONLU LU
L2400 S
2500 S
2600 5
2700 S
2800 S
CTL OPTION
SUDBURY
AUTHIER OPTION
800 N
700 N
600 N
500 N
400 N
300 N
200 N
100 N
BRSE LINE
100 S
200 S
300 S
400 S
500 S
600 S
700 S
800 S
900 S
1000 S
1100 S
1200 S
1300 S
1400 S
1500 S
1600 S
l
CONTACT
'2. 1**i^^ * .L. *
f 2- 1563 Q
o o(M
SUDBURY CONTACT MINES LTD.VICTORIA CREEK PROJECT
GAUTHIER TWP., ONT. _______N.T.S. 32 D/4-^^^^^
TOTAL FIELD MAGNETIC CONTOURSCONTOUR INTERVALS : 20 fc 100 nT
REL LOW: * REL. HIGH: *
SURVEYED BY JVX LTD. USING SCINTREX IGS-2/MP-4 MAGNETOMETER
W1NTJSK 1994
100 too 800 300
METRESPLOTTED BY
J.K. APR. 1994
SCALE 1:5000 PLATE l
32D04NW02472 15636 GAUTHIER 210 JVX rrf no 9401
CTL OPTIONWALHANNA OPTION LAC GAUTHIER OPTION
SOD N
700 N
600 N
500 N
400 N
300 N
200 N
100 N
BflSE LINE
800 N
700 N
600 N
BflSE LINE
TIE LINE1500 5
LAC
CTL OPTION
SUDBURY
CTL OPTION
GAUTHIER OPTION
1200 S
j. O U o b
1400 S
1500 S
1600 S
2-1563 6
CONTACT2600 S
2700 S
2800 S
RECEIVED
OCT l 8 1994MINING LANDS
O O (XI
32D04NW0247 2 15636 GAUTHIER 220
SUDBURY CONTACT MINES LTD.VICTORIA CREEK PROJECT
GAUTHIER TWP., ONT. _______NT.S. 32 D/4
TOTAL FIELD MAGNETIC PROFILESPROFILE SCALE - l cm rep. 350 nT
POSITIVE "WESTWARDS BASE LEVEL - 57 200 nT
SURVEYED BY JVX LTD USINGSCINTREX IGS-2/MP-4 MAGNETOMETER
fclJNTKK 1994
100 100
METRES
200 300
PLOTTED BYJ.K.
APR. 1994SCALE 1:5000 PIATE 2
JVX nt. oo 9401
800 N
700 N
600 N
500 N
400 N
300 N
200 N
100 N
BRSE LINE
100 S
200 5
300 S
40Q S
500
600 S
700 5
800 S
CTL900 S
1000 5
OPTIONl 100 S
120C S
130C S
1400 S
TIE LINE1500 5
1600 5
1700 S
1800 5
1900 S
2000 3
2100 5
2200 S
2300 S
2400 S
2500 S
2600 S
2700 S
2800 S
CTL OPTIONWALHANNA OPTION LAC GAUTHIER OPTION
LAC GAUTHIER OPTION
800 N
700 N
600 N
500 N
400 N
300 N
200 N
100 N
BflSE LINE
100 S
200 S
300 S
400
500 S
600 S
700 S
800 S
900 5
1000 S
l 100 S
1200 S
1300 S
1400 S
1500 S
1600 S
CTL OPTION
LEGEND
50-0 O -25 0 o -50 3 o
SUDBURY CONTACTQuadrature
In Phase
Crossover
POSTED VALUES-
IN PHASE TO EAST OUT OF PHASE TO WEST
2.1563 6
0 Strong VLF conductor
C) Medium VLF Conductor
O Weak VLF ConductorO OC\J
SUDBURY CONTACT MINES LTD.VICTORIA CREEK PROJECT
GAUTHIER TWP., ONT. _______N.T.S. 32 D/4
VLF PROFILESPROFILE SCALE : l cm rep. 25 X (POSITIVE WESTWARDS)
IN PHASE: ——— ; OUT OF PHASE- — — TRANSMITTER STATION : NAA (CUTLER, MAINE) 24.0 kHz
SURVEYED BY JVX LTD. USING SCINTREX IGS-2/VLF-4
1994100 100
METRES
200 300
PLOTTED BYJ.K
APR. 1994SCALE 1:5000 PLATE 3
32D04NW0247 2 1S636 GAUTHIER230 Mf. ae. 9401
800 N
700 N
600 N
500 N
400 N
300 N
200 N
100
BR5E LINE
200
3
CTL OPTION
TIE LINE1500 5
2100 S
2200 S
2300
2400 5
2500^5
2600 5
2700 S
2800 S
CTL OPTIONWALHANNA OPTION LAC GAUTHIER OPTION
FAULT
800 N
""''"in M (J IN
600 N
BR5E LINE
Ma/-\ *^A
r-K i
LAC GAUTHIER OPTION
CTL OPTION
CONTACTSUDBURY MAG HIGH > 52 400 nT
MAG fflGH > 52 500 nT
1200 S
1400 S
1500 S
1600 S
l
RECEIVED
OCT l 81994MINING LANDS
\ 4
SUDBURY CONTACT MINES LTD.VICTORIA CREEK PROJECT
GAUTHIER TWP , ONT NTS 32 D/4
STRONG VLF CONDUCTOR
IUM VLF CONDUCTOR
WEAK VLF CONDUCTOR
240
COMPILATION MAP
COMPILED BY JVX LTD
100 100^e
METRES
200 300
PLOTTED BYJK
APR 1994SCALE 1:5000 PLATE 4
32D04NW0247 2 1 JVX ref no 9401
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