Quantec Geoscience Inc. P.O. Box 580,101 King Street Porcupine, ON PON1 CO Phone (705) 235-2166 Fax (705) 235-2255
Quantec Geoscience Inc.
Geophysical Survey
Regarding theGRADIENT REALSECTION
TDIPIRESISTIVITYSURVEYat Hie OXALINE NORTHEAST PROPERTY,
Leduc Township, ON,on behalf atONTEX RESOURCES LTD.
London Ont
OGIOGIOGIOGICJ Ploeger
Kevin Smith GRJ Wame D. Lapointe
August. 2002 Project QG-248
42E11NW2006 2.24970 LEDUC 010
QUANTEC GEOSCIENCE INC. ONTEX RESOURCES LTD. RSIP-TDIP Surveys OXALINE NORTHEAST PROPERTY
1. INTRODUCTION...................................................................................................................................
2. GENERAL SURVEY DETAILS......................................................................................................................^
2.1 LOCATION...................................................................................................................................^2.2 ACCESS.....................................................................................................................................^2.3 SURVEY GRID......................................................................................... .....................................5
3. SURVEY WORK UNDERTAKEN ...................................................................................................................6
3.1 GENERALITIES............................................................................ .................................................63.2 PERSONNEL...............................................................................................................................^3.3 SURVEY SPECIFICATIONS .............................................................................................................63.4 SURVEY COVERAGE................................................................................ ...................................73.5 INSTRUMENTATION......................................................................................................................./3.6 PARAMETERS.............................................................................................................................^3.7 MEASUREMENT ACCURACY AND REPEATABILITY.................................. ..........................................83.8 DATA PRESENTATION.......................................................................................................... .........83.9 OPERATOR COMMENTS............................................................... .................................................9
APPENDIX A: STATEMENT OF QUALIFICATIONSAPPENDIX B: PRODUCTION LOGAPPENDIX C: THEORETICAL BASIS AND SURVEY PROCEDURESAPPENDIX D: INSTRUMENT SPECIFICATIONSAPPENDIX E: LIST OF MAPSAPPENDIX F: MAPS AND SECTIONS
Figure 1: General Location of the Oxaline Northeast Property............................................................4Figure 2: Gradient Array Layout ..........................................................................................................7
Table 1: Reconnaissance Gradient Coverage.....................................................................................7Table 2: Realsection Survey Coverage...............................................................................................7Table 3: Iris ELREC 6 Decay Curve Sampling....................................................................................^
QG248-August, 2002
QUANTEC GEOSCIENCE INC. ONTEX RESOURCES LTD. RSIP-TtHP Surveys OXALINE NORTHEAST PROPERTY
QIP Project No: QG-248
Project Name: Oxaline NorthEast Property
Survey Period: August 15th to 18th, 2002
Survey Type: Gradient Realsection Time Domain Induced Polarization
Client: Ontex Resources Ltd.
Client Address 596 Hamilton RoadLondon, Ontario N5Z1S6 Tel: (519) 455 8127
Representatives: Armen Chilian
Objectives:
The objective of the survey is to locate and delineate potential geologic structure and/or zones of alteration related to auriferous type mineralization.
Report Type: Logistics report
QG248 -August, 2002
QUANTEC GEOSCIENCE INC. RSIP-TDIP Surveys
ONTEX RESOURCES LTD. OXALINE NORTHEAST PROPERTY
2.1 LOCATION
* Township:
* Province/Territory:
* Country:
* Nearest Settlement:
* NTS Reference #:
Leduc Township
Ontario
Canada
Jellicoe, approx. 45km west of Geraldton
42E/11
Figure 1: General Location of the Oxaline Northeast Property
QG248-August, 2002
QUANTEC GEOSCIENCE INC. RSIP-TDIP Surveys
2.2 ACCESS
. Base of Operations:
* Mode of Access:
2.3 SURVEY GRID
* Coordinate Reference System:
* Established:
* Line Direction:
* Line Separation:
* Station Interval:
* Method of Chaining:
* Claims Surveyed:
ONTEX RESOURCES LTD. OXALINE NORTHEAST PROPERTY
Travelair Inn, Jellicoe, Ontario
The grid was accessed by truck, by proceeding 9.8 km east on Hwy 11 and 3.9 km north on Kinghorn Road and 2.0 km west on pulp road and then a 1 km walk west into grid.
Local exploration grid (non UTM referenced)
prior to survey execution, by client
N3500
75 metres
25 metres
Metric, Linear
TB 815080 (385 meters)
TB 815081 (2570 meters)
TB 815082 (2170 meters l
Total Survey Coverage: 5125 meters
QG248-August, 2002
QUANTEC GEOSCIENCE INC. RSIP-TDIP Suiveys
ONTEX RESOURCES LTD. OXAUNE NORTHEAST PROPERTY
3.1 GENERALITIES
* Survey Dates:
* Survey Period:
* Survey Days (read time):
* Survey Coverage:
3.2 PERSONNEL
* Project Supervisor:
* Project Manager:
* Operators
* Field Assistant:
3.3 SURVEY SPECIFICATIONS
* Array:
* AB (Tx dipole spacing)
* MN (Rx dipole spacing):
* Sampling Interval:
* Total Gradient AB Blocks:
* No. of RSIP Arrays:
* Total Realsections:
* Approximate Arial Coverage:
August 15th to 18th, 2002
4 days
2 days
Gradient IP: 3.250 Line-Kilometres Realsection IP: 1.875 Line-Kilometres
Jeffrey Warne, South Porcupine, ON
Jeffrey Warne, South Porcupine, ON
K. Smith, Newmarket, ON
E. Hotvedt, Ramore, ON K. Harper, Val D'Or, QC
Multiple Gradient (see Figure 2)
400 to 1200 metres
25 metres
25 metres
2
7 levels
1 (see Table l)
approx. 0.139km2
QG248-iAugust,2002
QUANTEC GEOSCIENCE INC. RSIP-TDIP Surveys
ONTEX RESOURCES LTD. OXAUNE NORTHEAST PROPERTY
GRADIENT ARRAY^ AB * ,ength Cl -C2
MN s length PrP2 (6 x P,-?., Spread)
GRADIENT ARRAY COVERAGE AREA
Figure 2: Gradient Array Layout
3.4 SURVEY COVERAGE
Reconnaissance Gradient IP: 3.250 kilometres (see Table l)
LINE
1200m AB1800 E1725 E1650 E1575 E1500 E
MINIMUM EXTENT
300 S300 S700 S300 S400 S
MAXIMUM EXTENT
SOON300 NSOONSOON50 N
Total
TOTAL (meters)
6006001000600450
3250
Table 1: Reconnaissance Gradient Coverage
Realsection Detail follow-up: 1,875 metres (see Table II)
LINE16+50E
# DEPTH SLICES7
TOTAL
TOTAL (m)18751875
Table 2: Realsection Survey Coverage.
3.5 INSTRUMENTATION
* Receiver:
* Transmitter:
Iris Elrec IP-6 (G channels)
Phoenix IPT-1 (15 kW 1 75 - 1200V output)
QG248-August, 2002
QUANTEC GEOSCIENCE INC. RSIP-TDIP Surveys
ONTEX RESOURCES LTD. OXALINE NORTHEAST PROPERTY
Power Supply: Phoenix MG-2 (2.5KVA, 60V, 3 phase, 400 Hz) * Honda 5.5 hp motor generator
3.6 PARAMETERS
Input Waveform: 0.125 Hz square wave at 50% duty cycle (2 seconds On/Off)
* Receiver Sampling Parameters: ten programmable chargeability windows(see Table 3)
* Measured Parameters:
1 ) Chargeability in millivolts/Volt. Total Chargeability is calculated over an integration period of 40 to 1770 ms.
2) Primary Voltage in millivolts and Input Current in amperes for Resistivity calculation accord ing to the gradient array geometry factor (Appendix C).
3.7 MEASUREMENT ACCURACY AND REPEATABILITY
* Chargeability: generally < 0.5 mV/V but acceptable to 1 .0 mV/V.
Resistivity: less than 5*ft cumulative error from Primary voltage and Input current measurements.
SliceTdTiT?T3T4TsTeT7TsTgTio
Total To
Duration (msec}40203030301801801803603603601730
Start (msec)0
40609012015033051069010501410
End (msec)406090120150330510690105014101770
Mid-Point (msec)MA507510513524042060087012301590
Table 3: Iris ELREC 6 Decay Curve Sampling
3.8 DATA PRESENTATION
* Reaisections:
Maps:
Posted/contoured/leveled depth section maps of Total Chargeability and Apparent Resistivity, at 1:2000 scale (1 contoured maps).
Posted contoured plan maps of Total Chargea bility, Apparent Resistivity. (1:2000 scale).
QG248 -August, 2002
QUANTEC GEOSCIENCE INC. ONTEX RESOURCES LTD. RSIP-TDIP Surveys OXAUNE NORTHEAST PROPERTY
* Digital:
Raw data: IP-6 digital dump file (See also Appendix C)
Processed data: Geosoft .XYZ format using the following format:
Column 1 = Station/Line (X Position), in metersColumn 2 = Station/Line (Y Position), in metersColumn 3 = Total Chargeability, in mV/VColumn 4 s Apparent Resistivity, in Q-mColumn ^ = TDIP Spectral Estimates (M, Tau, c) from Geosoft IPREDC
3.9 OPERATOR COMMENTS
Rain on the final survey day did not slow progress. No problems were encountered during the survey period.
RESPECTFULLY SUBMITTED QUANTEC GEOSCIENCE INC.
CJ Ploeger, B.Sc. ' Kevin Smith Geophysicist - QGI Geophysicist - QGI
Jeffrey Warne. Daniel Lapointe, M. Se. Senior Geophysicist Senior Geophysicist
QG248 -August, 2002
QUANTEC GEOSCIENCE INC. ONTEX RESOURCES LTD RSIP-TDIP Suiveys OXALINE NORTHEAST PROPERTY
STATEMENT OF QUALIFICATIONS:
l, G.R. Jeffrey Warne, hereby declare that:
1. l am a geophysicist with residence in South Porcupine, Ontario and am presently em ployed in this capacity with Quantec Geoscience Inc. of Toronto, Ontario.
2. l studied Engineering Geophysics in the Faculty of Applied Science at Queen's Univer sity in Kingston, Ontario, completing all but two of the course requirements for a B.Se. (Eng.)in1981.
3. l have practiced my profession continuously since May, 1981 in Canada, the United States, Australia, Argentina, Ireland, Mexico and Chile.
4. l am a member of the Ontario Association of Geoscientists, and the Porcupine Prospec tors and Developers Association.
5. l have no interest, nor do l expect to receive any interest in the properties or securities of ONTEX RESOURCES LTD
6. l supervised project and the preparation of the report and final maps. The statements made in this report represent my professional opinion based on my consideration of the information available to me at the time of writing this report.
Porcupine, Canada November, 2002
G.R.Jeffrey Warne Senior Geophysicist, QGI
QG248-August, 2002
QUANTEC GEOSCIENCE INC. ONTEX RESOURCES LTD. RSIP-TDIP Surveys OXALINE NORTHEAST PROPERTY
STATEMENT OF QUALIFICATIONS
l, Daniel Lapointe, hereby declare that:
1. l am a geologist-geophysicist with residence in Timmins, Quebec and am presently employed in this capac ity with Quantec Geoscience Inc. of Porcupine, Ontario.
2. l am a graduate of University of Ottawa, Ottawa, ON, with a degree of Bachelor of Science (Diploma in Honour Standing), Geology (1982), and Universite Laval, Ste-Foy, QC with a degree of Master of Science, Geology (1986).
3. l have practiced my profession in Canada, South America and Africa since graduation.
4. l have no interest nor do l expect to receive any interest, direct or indirect, in the properties or securities of ONTEX RESOURCES LTD.
5. l was co-author of this report. The statements made by me accurately represent the information given to me at the time of the preparation of this report.
Porcupine, Ontario November, 2002
Daniel Lapointe, M. Se. Senior Geophysicist
QG248-August, 2002
QUANTEC GEOSCIENCE INC. ONTEX RESOURCES LTD RSIP-TDIP Surveys OXALINE NORTHEAST PROPERTY
STATEMENT OF QUALIFICATIONS
l, C. Jason Ploeger, hereby declare that:
1. l am a geophysicist with residence in Larder Lake, Ontario and am presently employed in this capacity with Quantec Geoscience Inc. of Toronto, Ontario.
2. l graduated with a Bachelor of Science degree in geophysics from the University of Western Ontario, in London Ontario, in 1999.
3. l have practiced my profession continuously since graduation in Africa, Canada and Mexico.
4. l am a member of the Ontario Prospectors Association.
5. l have no interest, nor do l expect to receive any interest in the properties or securities of ONTEX RESOURCES LTD.
6. l was co-author of this report and prepared the final map products included in this repor. The statements made in this report represent my professional opinion based on my consideration of the information avail able to me at the time of writing this report.
Porcupine November, 2002
C. Jason Ploeger, BScGeophysicist
QGI
QG248 -August, 2002
QUANTEC GEOSCIENCE INC. RSIP-TDIP Surveys
ONTEX RESOURCES LTD OXALINE NORTHEAST PROPERTY
PRODUCTION LOG
Date
15-Aug-02
16-Aug-02
17-Aug-02
18-Aug-02
Description
J. Warne, K. Smith, E. Hotvedt, K. Harper mobilize Timmins to Jel- licoe. Meet client to access grid and transport some of equipment to survey site on foot.Set up AB wire on line 17+25E, and established electrodes for AB. Commence gradient survey.
Relocate north electrodes and survey level 2.re-route cable and relocate north and south electrodes and survey level 3.
Daily Total SurveyRe-route AB wire on line 16+50E, and established electrodes for AB to extend gradient survey coverage. Overlap line 16+50E, 150S to 300S
Overlap L15+75E, 0 to 300SRelocate north electrodes and survey level 4.Relocate south electrodes and survey level 5.Relocate north electrodes and survey level 6.Relocate south electrodes and survey level 7.Relocate north electrodes and survey level 8.Retrieve all cable and electrodes and transport equipment out to truck on foot.
Daily Total SurveyJ. Wame, K. Smith, K. Harper Demob to Porcupine. E. Hotvedt off on break.
Total Survey
Line
18+OOE
17+25E16+50E15+75E16+50E16+50E
16+50E
15+OOE15+75E16+50E16+50E16+50E16+50E16+50E
Min Extent
-300
300-300
300-300
0
-300
-400
0-300
0-300-225-75
Max Extent
300
-300
300-300
0-300
-700
50-300
0-30000
-225
Total Survey
(m)
600
600600600300300
3000400
450
300300300225150
2125
5125
QG248-August, 2002
QUANTEC GEOSCIENCE INC. RSIP-TDIP Surveys
ONTEX RESOURCES LTD. OXALINE NORTHEAST PROPERTY
THEORETICAL BASIS AND SURVEY PROCEDURES
GRADIENT REALSECTION INDUCED POLARIZATION SURVEY
The "RealSection" survey design uses multiple gradient arrays - with variable depths of investigation con trolled by successive changes in array size/geometry. The method of data acquisition and the "RealSection" pres entation are based on the specifications developed by Dr. Perparim Alikaj, of the Polytechnic University of Tirana, Albania, over the course of approx. 20 years of application. This technique has been further developed for applica tion in Canada during the past six years, in association with Mr. Dennis Morrison, president of Quantec IP Inc.
The Gradient Array measurements are unique in that they best represent a bulk average of the surrounding physical properties within a relatively focused sphere of influence, roughly equal to the width of the receiver dipole, penetrating vertically downward from surface to great depths. These depth of penetration and lateral resolution characteristics are showcased when presented in plan, however through the use of multiple-spaced and focused arrays, the advantages of the gradient array are further highlighted when the IP/Resistivity data are fully developed in cross-section, using RealSections.
The resistivity \s among the most variable of all geophysical parameters, with a range exceeding 106. Be cause most minerals are fundamentally insulators, with the exception of massive accumulations of metallic and submetallic ores (electronic conductors) which are rare occurrences, the resistivity of rocks depends primarily on their porosity , permeability and particularly the salinity of fluids contained (ionic conduction), according to Archie's Law. In contrast, the chargeability responds to the presence of polarizeable minerals (metals, submetallic sulphides and oxides, and graphite), in amounts as minute as parts per hundred. Both the quantity of individual chargeable grains present, and their distribution with in subsurface current flow paths are significant in controlling the level of response. The relationship of chargeability to metallic content is straightforward, and the influence of mineral distri bution can be understood in geologic terms by considering two similar, hypothetical volumes of rock in which frac tures constitute the primary current flow paths. In one, sulphides occur predominantly along fracture surfaces. In the second , the same volume percent of sulphides are disseminated throughout the rock. The second example will, in general, have significantly lower intrinsic chargeability.
y-ax/s
..LJM N
Bx-ax/s
Figure C1: Gradient array configuration
QG248-August, 2002
QUANTEC GEOSCIENCE INC. RSIP-TDIP Surveys
ONTEX RESOURCES LTD. OXALINE NORTHEAST PROPERTY
Using the diagram in Figure C1 for the gradient array electrode configuration and nomenclature:1 , the gradient array apparent resistivity is calculated:
where: the origin O is selected at the center of ABthe geometric parameters are in addition to a - AB/2 and b = MN/2 X is the abscissa of the mid-point of MN (positive or negative) Y is the ordinate of the mid-point of MN (positive or negative)
Gradient Array Apparent Resistivity:
pa = KVP
where: K ~
ohm-metres
2n(AM~* -AN'1 -BM' 1 +BN' 1
AN ^
Using the diagram in Figure C2 for the Total Chargeability:
Measured Voltage Line
positive
negative
One haff of Transmit Cycle
"Off Time'
f ,f.
'On Time" t (0)
Figure C2: The measurement of the time-domain IP effect
1 From TerraplusVBRGM, IP-6 Operating Manual. Toronto, 1987.
QG248-August, 2002
QUANTEC GEOSCIENCE INC. ONTEX RESOURCES LTD RSIP-TDIP Surveys OXALJNE NORTHEAST PROPERTY
the total apparent chargeability is given by:
Total Apparent Chargeability:2
Mr = —— X J* ' Vs (*)dt millivolts per volttpVp ui
where t j, fy+.j are the beginning and ending times for each of the chargeability slices,
More detailed descriptions on the theory and application of the IP/Resistivity method can be found in the fol lowing reference papers:
Cogan, H., 1 973, Comparison of IP electrode arrays, Geophysics, 38, p 737 - 761 .
Langore, L., Alikaj, P., Gjovreku, D., 1989, Achievements in copper sulphide exploration in Albania with IP and EM methods, Geo physical Prospecting, 37, p 925 - 941 .
2 From Telford, et al., Applied Geophysics. Cambridge U Press, New York, 1983..
QG248-August, 2002
QUANTEC GEOSCIENCE INC. RSIP-TDIP Surveys
ONTEX RESOURCES LTD. OXALINE NORTHEAST PROPERTY
INSTRUMENT SPECIFICATIONS
IRIS ELREC 6 Receiver(from IRIS Instruments IP 6 Operating Manual)
Weather proof case
Dimensions: Weight:
Operating temperature:
Storage: Power supply:
Input channels:Input impedance:Input overvoltage protection:Input voltage range:
SP compensation: Noise rejection:
Primary voltage resolution: Accuracy:
Secondary voltage windows:
Sampling rate: Synchronization accuracy: Chargeability resolution:
Accuracy:
Battery test: Grounding resistance: Memory capacity: Data transfer:
31 cm x 21 cm x 21 cm6 kg with dry cells7.8 kg with rechargeable bat.-200C to 700C(-400C to 700C with optional screen heater)(-400C to 700C)6 x 1.5 V dry cells (100 hr. @ 200C) or2 x 6 V NiCad rechargeable (in series) (50 hr. @ 200C) or1 x 12 V external610Mohmup to 1000 volts10V maximum on each dipole15V maximum sum over eh. 2 to 66 automatic 10 V with linear drift correction up to 1 mV/s50 to 60 Hz powertine rejections100 dB common mode rejection (for Rss 0)automatic stacking1 nV after stackingD.3% typically; maximum 1 over wholetemperature rangeup to 10 windows; 3 preset window specs.plus fullyprogram-mable sampling.10ms10 ms, minimum 40 jiV0.1 mV/Vtypically D.6%. maximum 2Vo of reading 1mV/VforVpS'IOmVmanual and automatic before each measurement0.1 to467kohm2505 records, 1 dipole/recordserial link @ 300 to 19200 baud
QG248 -August, 2002
QUANTEC GEOSCIENCE INC. RSIP-TDIP Surveys
ONTEX RESOURCES LTD OXALINE NORTHEAST PROPERTY
IRIS IP 6 Dump File Format
* ELREC 6 V9.41 *
#191 Aug 5 1999 12:29dipole l trigger l domain Time T waveProgrammable wind. Grad. RCTGL array
V= 95.814 Sp= 83Ro^ 577.3 Ohm.mM^ 24.71 M2= 21.351*^ 14.47 m~ 11.03M9^ 5.62 M10= 4.58
cycl= 10 Time^ 4000T_M1= 60 T_M2= 60T~M5= 360 TJ^ 360T H9= 720 T Ml(^ 720
^ 7000.00 Rs= 0.20M= 8.60 E= 0.0M3= 19.29 M4^ 17.87M7= 9.06 M8= 7.18
V_D= 2620 T_M3= 60 TM7= 360
MJ^ 60HJA^ 60TM8= 720
Spacing config. : Imperial XP^3600.0 li.P= 800.0 D= 100.0 XA= 2450.0
XB=-5000.0 1.AB= 1200.0
#192 Aug 5 1999 12:29dipole 2 trigger l domain Time T waveProgrammable wind. Grad. RCTGL array
V= 84.644 Sp= -57 Ro= 569.4 Ohm.m Ml= 24.14 M2^ 21.01 M5= 14.14 M6^ 10.81 M9= 5.44 M10= 4.48
I= 7000.00 Rs= 0.12M= 8.40 E= 0.1I.^ 18.95 M4= 17,48M7= 8.83 M8= 7.00
1^ 10 Time= 4000 V_D= 2620 M_D= 60 T_M1= 60 ^K^ 60 T_M3= 60 ^l-^ 60 T_M5= 360 T_M6= 360 ^it*^ 360 T_M8= 720 T M9= 720 T M10= 720
Spacing config. : Imperial XP=-3500.0 li.P= 800.0 r^ 100.0 XA= 2450.0
XB=-5000.0 l.RB^ 1200.0
QG248-August, 2002
QUANTEC GEOSCIENCE INC. RSIP-TDIP Surveys
ONTEX RESOURCES LTD. OXALINE NORTHEAST PROPERTY
INSTRUMENT SPECIFICATIONS
Power Sources:
Output Voltage:
Output Power:
Maximum Current:
Ammeter Ranges:
Meter Display:
Current regulation:
Output waveform:
Operating Temperature:
Frequency Stability:
Transient Protection:
Dimensions:
Weight:
Phoenix IP Transmitter Model IPT-1
Phoenix MG-3 (2.5KVA, 60V, 3 phase, 400 Hz) motor generator
75 to 1200V in 5 steps.75 - 150 - 300 - 600 - 1200VVoltage is continuously variable 20"Xo from each nominal step value.
Maximum continuous output power is 2.5KW.
10 Amps
50m A, 100m A, 500mA, 1A, 3A, and 10A full scale.
A meter function switch selects the display of current level, regulation status, input frequency, output voltage, line voltage
The change in output current is less than Q.2% for a W& change in input voltage or electrode impedance. Regulation is achieved by feedback to the alternator of the motor generator unit.
Either DC, single frequency, two frequencies simultaneously, or time domain (0.125HZ, 500Xo duty cycle). Frequencies of 0.078, 0.156, 0.313, 1.25, 2.5 and 5.0 Hz are standard, whereas 0.062, 0.125, 0.25, 1.0, 2.0 and 4.0 Hz are option ally available. The simultaneous transmission mode has 0.313 and 5.0 Hz as standard, whereas 0.156 and 2.5 Hz are optional.
-400C to -H600C
1"Xo from -400C to *600C is standard. A precision time base is optionally available for coherent detection and phase IP measurements.
Current is turned off automatically if it exceeds 150"Xo full scale or is less than 507o full scale.
18cm x 40cm x 53cm
4kg
QG248 -August, 2002
QUANTEC GEOSCIENCE INC. RSIP-TDIP Surveys
ONTEX RESOURCES LTD OXALINE NORTHEAST PROPERTY
LIST OF MAPS
* Plan Maps at scale of 1: 2000
Description1.2.
Posted/Contoured Total Chargeability (1 :2000)Posted/Contoured Apparent Resistivity (1:2000)
TOTAL PLANS
Drawing No.QG-248-PLAN-CHG-1QG-248-PLAN-RES-1
2
Reaisection Maps at scale of 1:2000
Description3. Posted/Contoured Total Chargeability and Resistivity Line 16+50
ETOTAL REALSECTIONS
Drawing No.QG-248-RSIP-CHG-RES-
16+50E1
TOTAL MAPS= 3
QG248-August, 2002
QUANTEC GEOSCIENCE INC. RSIP-TDIP Surveys
ONTEX RESOURCES LTD. OXALINE NORTHEAST PROPERTY
MAPS AND SECTIONS
QG248-August, 2002
ONTMUO MINISTRY OF NORTHERN DEVELOPMENT AND MINES
Transaction No:
Recording Date:
Approval Date:
Client(s):
169912
Survey Type(s):
W0340.00221
2003-FEB-07
2003-FEB-11
Work Report Summary
Status: APPROVED
Work Done from: 2002-AUG-01
to: 2002-AUG-20
METALORE RESOURCES LIMITED
IP LC
Work Report Details:
Claim* Perform
TB
TB
TB
815080 S750
815081 35,003
815082 54,225
S9.978
External Credits:
Perform Approve
S750
35,003
S4.225
S9.978
SO
Applied
SO
SO
SO
SO
Applied Approve
SO
soso
so
Assign
SO
SO
SO
so
Assign Approve Reserve
0 S750
0 55,003
0 S4.225
SO 59,978
Reserve Approve
S750
55,003
54,225
59,978
Due Date
2006-MAY-24
2006-MAY-24
2006-MAY-24
Reserve:59,978 Reserve of Work
39,978 Total
Status
Report#: W0340.00221
Remaining
of claim is based on information currently on record.
42E11NW2006 2.24970 LEDUC 900
2003-Feb-25 08:55 Armstrong-d Page 1 of 1
Ministry ofNorthern Developmentand Mines
Date:2003-FEB-19
Ministere du Developpement du Nord et des Mines Ontario
GEOSCIENCE ASSESSMENT OFFICE 933 RAMSEY LAKE ROAD, 6th FLOOR SUDBURY, ONTARIO P3E 6B5
METALORE RESOURCES LIMITED 717 NORFOLK STREET NORTH SIMCOE, ONTARIO M3Y 3R3 CANADA
Tel: (888) 415-9845 Fax:(877)670-1555
Dear Sir or Madam
Submission Number: 2.24970 Transaction Number(s): W0340.00221
Subject: Approval of Assessment Work
We have approved your Assessment Work Submission with the above noted Transaction Number(s). The attached Work Report Summary indicates the results of the approval.
At the discretion of the Ministry, the assessment work performed on the mining lands noted in this work report may be subject to inspection and/or investigation at any time.
Note, in subsequent submissions of this nature, please ensure to include a map showing claims with respect to township boundaries.
If you have any question regarding this correspondence, please contact STEVEN BENETEAU by email at [email protected] or by phone at (705) 670-5855.
Yours Sincerely,
Ron Gashinski
Senior Manager, Mining Lands Section
Cc: Resident Geologist
Metalore Resources Limited (Claim Holder)
Assessment File Library
Metalore Resources Limited (Assessment Office)
Armen Andrew Chilian (Agent)
Visit our website at http://www.gov.on.ca/MNDM/LANDS/mlsmnpge.htrn Page: 1 Correspondence 10:17964
42E11NW2006 2.24970 LEDUC 200
ONTMUOCANADA
MINISTRY OF NORTHERN DEVELOPMENT AND MINES
PROVINCIAL MINING RECORDER'S OFFICE
Mining Land Tenure Map
4MOOOE
81J034, J S1S037 (, B15041 f" O
S61DOOON
Those wishing to ateke mining dsima should consult with the Provincial Mining Recorders' Office of the Ministry of Northern Development and Mines for additional information on the statue of the lands shown hereon. This map is not intended for navigational, eurvey, or land tide determination purposes SB the information shown on this map Is compiled from various sources. Completeness and accuracy are no! guaranteed. Additional information may also be obtained through the local Land Titles or Registry Office, or the Ministry of Natural Resources.
The Information shown le derived from digital date available In the Provincial Mining Recorders' Office at the time of stewnloadlns from the Ministry of Northern Development and Mines web site.
General Information and Limitations This map mey not enow unregistered lend tenure and interests inContact Information; Toll Free Map Datum: NAD 83 lBnd including certain patents, leases, easements, right of ways,Provincial Mining Recorders' Office Tel: 1 (888)415-6846 exl S7f iijection: UTM [8 degree) flooding rights, licences, or other forms of disposition of rights andWillet Oreen Miller Centre 833 Ramsey Lake Road Fan: 1 (*77) 870-1444 Topographic Data Source: Land Information Ontario interest from llie Crown. Also certain lend tenure and land usesSudbury ON PSE 6B5 Mining Land Tenure Source: Provincial Mining Recorders' Office *at restrict or prohibit free entry to stake mining dairns may not beHome Page: www.mndm.gov.on.cayMNDM/MINES/LANDS/mlsmnpge.htm illustrated,
Date; Time of Issue: Tue Feb 18 16:27:25 EST 2003
TOWNSHIP l AREA PLAN LEDUC G-0169
ADMINISTRATIVE DISTRICTS l DIVISIONS
Mining Division Thunder BayLand Titles/Registry Division THUNDER BAYMinistry of Natural Resources District NIPIGON
D
TOPOGRAPHIC
: Admini
Township
Concession, Lot
Provincial Park
Indian Reserve
cirff, Pit s pits
E
4
Contour
Mine Shafts
Mine Headfrarne
Railway
Rosd
Trail
Natural Gas Pipeline
Land Tenure
Freehold Patent
f^| Surfed) AntJ Mining Rights
pjl Surface RigrtlB Only
rO Minins Rishls Only
Leasehold Patent
1*1 Surface Ann Mining Rights
ri':"j Surface Rights onty
FS1 Mining Rijhti Only'- i
Licence of Ocojpstbn
fjlj UMiNotSpncified
| ; ;^ ; ;| Surface And Mining Rights
pjpl surfaea Rants only
Mining RifthtB Only
li Land USE Pom*
Order Jn Council {Not oper, far staking)
Watftr Power Lease Agreement
':/:', 7) Mining Galrn
Filed Only Mining Claims
UNO TENURE WITHDRAWALS
l \ : ri :1 &W: : ':j AnwK Withdrawn from DtsrKWsllnn
Wsm Surfae* And Mining Righla WilMrowftWe SurtCT Signs Oi t 'ffilare.inWm MirtrisRigtilaOnlyWithdrsn'li
Order In Counpil WithDrawa TypeaW0S[n StJftoM AntJ Mlnbig Rights WlthtJrBWfiW*s Surtaca Right Only MfalrawnW*m MiniriB Riahb Only WtW n
IMPORTANT NOTICES
LAND TENURE WITHDRAWAL DESCRIPTIONSIdentifier Typ* Date Description
1426 Wsm Jul6, 1831 PEND. AGSREQ, APPL. JULY 05/91
1536 Ws Jan 1,2001 PARCEL 6601 TBF, PATENTED FOR S.R. ONLY M.R. AVAILABLE FOR STAKIhK1S38 Wsm Jan1,2001 PARTS 1.2 S 3, PLAN 55M-47S NOT OPEN TO STAKING, SEC. 30(b)1543 Wsm Jan1, 2001 PARTS 1,2 S 3, PLAN 55M-476 NOT OPEN TO STAKIN3, SEC. 30(b)
1544 Wsm Jan 1,2001 COLEMAN DR. PLAN 55M-476 NOT OPEN FOR STAKING, SECS 30(b) S (d).'1566 Wsm Jan 1,2001 Pendlns Ass regale Permit For Bedrock1564 Warn Jan 1,2001 L,O7851 FILE 170286 AIRPORT F.D.8TW81W W3 Sep.26.ie.B7 SURFACE RIGHTS WITHDRAWN FROM STAKINO ORDER W 81/87 NCR 87/09/; SW-TB-4K01 Wsm D8c7,2001 SBC. SB W-TB-41/01 M*S 2001/12/01 1951CO
W.14/82 Ws Nov*. 1982 W.14/82 OB/11/6Z 8.R. 18852B
W.29/83 Ws OctZO, 1983 W.29/S3 20/10/83 S.R. 188528
42E11NW2006 2.24970 LEDUC
400Sl
-100-
CL.UJQ
-200-
4-OOS
APPARENT RESISTIVITY (ohm-m) - L16+50E210
300S 200S l
TB 8^0 s i 100Sl 100N
300S 200S 100S O
-100 o m
^--200
100N
400S l
OH
-100-
CL LU Q
-200-
Oi61
300S l
TOTAL CHARGEABILITY
200S 100S l
100N
400S
Raalsecthn Generated by JW (17/08/02)
l
300S 200S 100Sl
O
-O
h--TOO o m -o
s-s;
--200
100N
Gradient ArrayAB
25
plot
Scale 1:2000O 25 50 75 100 125
(motrw)
ONTEX RESOURCES LIMITEDOXALINE NE PROPERTY, Zone 1700
Leduc Twp., Jellicoe, ON
TIME DOMAIN IP SURVEY
REALSECTION L16+50E(Multiple Gradient Arrays)
Transmitter Frequency: 0.125 Hz (50JS duty cycle) Transmitter Current: 0.06 to 1.7 Amps Decay Curve: QIP IP-6 Custom Semilogarithmic Windows
10 Gates (40ms to 1770ms)
25 metersRES ~ 10 levels/log decade
CHG " 1, 5 mV/V Equal Area Zoning
Station Interval: Contour Intervals:
Colour Scale:
Survey Dote: Instrumentation:
August, 2002Rx = IRIS IP-6 (6 channels)
Tx = Phoenix IPT-1B
Surveyed # Processed by: QUANTEC GEOSCIENCS INC.
DWG, j: QG-246-RSIP-CHG-RES-16+50E
APPARENT RESISTIVITY (ohm-m)
1500E 1600E 1700E
200N —
— 600S
5291
to to o
700S — 700S
1500E 1600E 1700E 1800E
Gradient Array—————AB—————
25
plot points
Scale 1:200025 50 75 100 125
Map GethSfatod 6y JW (17/08/OZ)
OKTEX RESOURCES UMITH)OXALINE NE PROPERTY, Zone 1700
Leduc Twp., Jellicoe, ONTIME DOMAIN IP SURVEY
Gradient Array (AB= 1200 meters)APPARENT RESISTIVITY
Transmitter Frequency: 0.125 Hz (50/5 duty cycle) Transmitter Current: 1.6 to 1 .7 Amps Decay Curve; QIP IP-6 Custom Semilogarithmic Windows
10 Gotes (40ms to 1770ms) Station Interval: 25 meters
Griddfng Method: Grid Cell Size: Contour Interval: Colour Scale:
Bi-Directional12.5 units (2x Manning Filter Applied)
10 levels/log decadeEqual Area Zoning
Survey Date: Instrumentation:
August, 2002Rx = IRIS IP-6 (6 channels)
Tx = Phoenix IPT-1B
Surveyed ^ Processed by: QUANTEC GEOSCIENCE INC.
DWG. |: QG-248-PLAN-RES-1
TOTAL CHARGEABILITY (mV/V)
1800E l
fn
toCOo
Gradient Array ———AB———
25
plot points
Scale 1:2000O 25 SO 75 100 125
S55BS (metro)
Hap Generated by JW (17/O8/O2)
ONTEX RESOURCES UMFTEDOXAUNE NE PROPERTY, Zone 1700
Leduc Twp., Jellicoe, ONTIME DOMAIN IP SURVEY
Gradient Array (AB^ 1200 meters)TOTAL CHARGEABILITY
Transmitter Frequency: 0.125 Hz (5C^ duty cycle) Transmitter Current: 1 ,6 to 1.7 Amps Decay Curve: QIP IP-6 Custom Semilogarithmic Windows
10 Gates (40ms to 1770ms) Station Interval: 25 meters
Gridding Method: Grid Cell Size: Contour Interval: Colour Scale:
BI-Directional12.5 unite (2x Manning Rlter Applied)
1, 5 mVyV Equal Area Zoning
Survey Date: Instrumentation:
August, 2002Rx ^ IRIS IP-6 (6 channels)
Tx ^ Phoenix IPT-1B
Surveyed # Processed by: QUANTEC GEOSCIENCE INC.
DWG. f. QG-248-PLAN-CHG-1