INSIGHT GEO
PRO MINERALS INC. 1 MAY 2010
Geophysical Survey Interpretation Report
Tuned Gradient / Insight Section DCIP and Ground Magnetic
Surveys
On the
The Shining Tree Project Shining Tree, ON
on behalf of
Pro Minerals Inc.
Vancouver, BC
Marty Kratchovil David J.W. Dawson
Insight Geophysics Inc. May 2010
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905 465 2996
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 2 MAY 2010
Table of Contents
TABLE OF CONTENTS ................................................................................................................................................... 2 LIST OF FIGURES .......................................................................................................................................................... 2 LIST OF TABLES ........................................................................................................................................................... 2
INTRODUCTION ........................................................................................................................................................ 4
GENERAL INFORMATION ............................................................................................................................................. 4
SURVEY GRID: PROPERTY LOCATION ........................................................................................................... 5
PROPERTY LOCATION .................................................................................................................................................. 5 GRID INFORMATION .................................................................................................................................................... 5 GPS REFERENCE POINTS ............................................................................................................................................. 5
SURVEY PARAMETERS: ......................................................................................................................................... 6
SPECIFICATIONS DCIP................................................................................................................................................. 6 INSTRUMENTATION...................................................................................................................................................... 6 PARAMETERS ............................................................................................................................................................... 7 MEASURED PARAMETERS ........................................................................................................................................... 7 SPECIFICATIONS TOTAL FIELD GROUND MAGNETICS ............................................................................................... 7
SURVEY EXECUTION .............................................................................................................................................. 8
GENERALITIES ............................................................................................................................................................. 8 SURVEY COVERAGE .................................................................................................................................................... 8 QUALITY CONTROL ................................................................................................................................................... 10 DIGITAL ...................................................................................................................................................................... 11 DATA COMMENTS ..................................................................................................................................................... 11
DRILLING FOCUS / RECOMMENDATIONS ................................................................................................... 12
SUMMARY .................................................................................................................................................................. 12
APPENDIX A : INSTRUMENT SPECIFICATIONS.......................................................................................... 15
APPENDIX B: RAW DATA PLOTS ...................................................................................................................... 18
STATEMENT OF QUALIFICATIONS ................................................................................................................ 25
List of Figures
FIGURE 1 PUBLIC DOMAIN 1STVD MAGNETICS WITH KNOWN PRODUCERS ALL COMMODITIES LOCATION MAP.5 FIGURE 2 ARRAY CARTOON FOR TUNED GRADIENT AND TYPICAL INSIGHT ARRAY SETUP ....................................... 6 FIGURE 3 GRID REFERENCE SYSTEM FOR THIS REPORT. BLUE CIRCLE MAGNETIC READING, FILLED CIRCLE TUNED
GRADIENT MEASUREMENT, INVERTED TRIANGLE GREEN - INSIGHT SECTION; INVERTED TRIANGLE YELLOW; CONFIRMATION OF UTM BASELINE .................................................................................................................... 10
FIGURE 4 EXAMPLE OF MONITORING TUNED GRADIENT FOR SPATIAL RELEVANCE AND TIME DECAY ................ 11 FIGURE 5 EXAMPLE OF QUALITY CONTROL OF GROUND TOTAL FIELD MAGNETIC SURVEY ................................... 11 FIGURE 6 GEOPHYSICAL SUMMARY MAP IN PLAN ..................................................................................................... 12 FIGURE 7 GEOPHYSICAL REPRESENTATION OF GENERAL GEOLOGIC SECTION 100E ............................................... 13 FIGURE 8 GEOPHYSICAL REPRESENTATION OF THE GENERAL GEOLOGIC SECTION 400W ..................................... 13 FIGURE 9 GEOPHYSICAL SUMMARY PLAN IN RELATION WITH GROUND TFM [NT] ................................................. 14
List of Tables
TABLE 1 RECEIVER WINDOW SPECIFICS ......................................................................................................................... 7 TABLE 2 SURVEY COVERAGE ......................................................................................................................................... 10
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 3 MAY 2010
TABLE 3 FILE NAME: C94 GROUND MAG WITH UTM ROTATION AND TRANSLATION.CSV N=834 ....................... 24 TABLE 4 FILE NAME: GRADIENT.GDB N=902 .............................................................................................................. 24 TABLE 5 FILE NAME: C94 IDEAL GRID IS400W.GDB N=952........................................................................................ 24
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 4 MAY 2010
INTRODUCTION
General Information
Project Name: The Shining Tree Project Survey Type: Time Domain Induced Polarization / Resistivity
Tuned Gradient / Insight Sectional Ground Magnetic Surveys
Client: Pro Minerals Inc.
1600 - 543 Granville Street Vancouver, British Columbia V6C 1X8
Client Representatives: Mr. Adrian O’Brien Spatial and Mine Claim source:
Robert D. Stewart, P. Geo. 330 Ridgevale Drive Bedford, Nova Scotia, CANADA, B4A 3M1
Property Access: The property was accessed daily by 4 x 4 vehicles. Report Authors: This report is primarily based on the work of Marty Kratchovil and Jim Frobes
Jr. These data have been quality controlled by David J.W. Dawson. The interpretive portion and opinions within this report are primarily based upon the data manipulation of the vertical sounding DCIP technique: The Insight Array; by David J.W. Dawson. [email protected]
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 5 MAY 2010
SURVEY GRID: PROPERTY LOCATION
Property Location
Province: Ontario
Figure 1 Public domain 1stVD magnetics with known producers all commodities location map.
Grid Information
Established: Prior to and during survey
Co-ordinate System: Nad83 Zone 17N or picket numbers
Line Direction: UTM grid north +5 degrees East
Line Separation: 100 m
Station Interval: picketed @ 25 m
GPS Reference Points
All grid referencing for this report has been controlled by:
Robert D. Stewart, P. Geo.
Bedford, Nova Scotia, CANADA, B4A 3M1
email: [email protected]
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 6 MAY 2010
SURVEY PARAMETERS:
Specifications DCIP
Array Type: Tuned Gradient and Insight Array
AB size: maximum 3000m
MN (Rx dipole spacing): 25m
Sampling Interval: 25m
The Insight Array is a development of the principles of Insight Geophysics Inc. Coeval development
has been referred to The Wenner – Schlumbergert array as researched by Pazdirek and Blaha, 1996
and cited by Dr. M. H. Loke in Tutorial: 2-D and 3-D electrical imaging surveys, Copyright 1996 – 2001;
Revision date: 1 Sept 2001. The presentation of the Insight Array data is unique to Insight Geophysics
Inc. [The Insight Section] and proprietary.
The Gradient Array is a modified Schlumberger array which is best utilized for covering large areas
http://www.zonge.com/PDF_Papers/Intro_IP.pdf. The Tuned Gradient Array is an application with
proprietary developments by Insight Geophysical Inc.
Figure 2 Array cartoon for Tuned Gradient and typical Insight Array setup
Instrumentation
Receiver: Elrec Pro (refer to Appendix B; Instrument Specifications)
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 7 MAY 2010
Transmitter: Huntec 7500 (refer to Appendix B; Instrument Specifications)
Parameters
Transmitted Waveform: Square wave @ 0.0625 Hz ( 4 sec1)
50% duty cycle
Receiver Sampling: Semi log windows (20 windows)
Window Width (ms) Window Width (ms)
Mdly 160
1 80 11 160
2 80 12 160
3 80 13 160
4 80 14 160
5 80 15 320
6 80 16 320
7 80 17 320
8 80 18 320
9 160 19 320
10 160 20 320
TOTAL 3680ms
Table 1 Receiver window specifics
Measured Parameters
IP measured Parameter: Chargeability in mV/V
Resistivity measured Parameters: Primary Voltage in mV and Transmitted Current in mA.
Specifications Total Field Ground Magnetics
Appendix A
http://www.terraplus.com/products/magnetometers/gsm--19-overhauser-v%207-waas-dgps-
cdgps.pdf
Sample Interval: 12.5m
Unit: nT [the nanoTesla]
1 Please note industry standard dpdp / pdp surveys are sampled ‘2 sec’ or 1Hz primary waves.
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 8 MAY 2010
SURVEY EXECUTION
Generalities
Survey Dates: March 13th through March 23
rd, 2010
Survey Days 9 days
Weather Days: 0 days
Mob Days: 1 days
Personnel: Geophysical Operators
Marty Kratchovil Jim Frobes Jr.
Survey Coverage
The following tables contain the line extents of the survey coverage. They do not include
repeated readings in the total distance calculations. Approximately 5% of the data was
repeated in the field at the time of collection for quality control purposes.
Survey Line Min cover
Max cover # of levels meters Survey Line Min cover
Max cover meters
IS 100E 200S 550N 5 750
IS 100E 200S 550N 12
Grad 400E 75S 300N 375
Grad 350E 100S 300N 400
Grad 300E 100S 300N 400
Grad 200E 125S 325N 450
Grad 0E 100N 250N 150
Grad 100E 200S 550N 750
Grad 100E 550N 625N 75
Grad 200E 325N 625N 300
Grad 0E 250N 637.5N 387.5
Grad 100W 100S 650N 750
Grad 200W 100S 50N 150
Mag 400E 75S 300N 375
Mag 350E 100S 275N 375
Mag 300E 100S 275N 375
Mag 200E 112.5S 625N 737.5
Mag 100E 150S 625N 775
Mag 0E 162.5S 625N 787.5
Grad 300W 100S 650N 750 Mag 0N 650W 425E 1075
Grad 400W 100S 650N 750 Mag 100W 125S 637.5N 762.5
Grad 500W 100S 650N 750 Mag 200W 100S 637.5N 737.5
Grad 600W 0N 650N 650 Mag 300W 100S 625N 725
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 9 MAY 2010
Grad 200W 50N 650N 600 Mag 600W 25S 637.5N 662.5
IS 400W 125N 625N 6 Mag 400W 137.5S 637.5N 775
Mag 500W 100S 637.5N 737.5
IS 400W 125N 625N 16 750 8900 m
Tuned Gradient 7687.5 M
Insight Section 1500 M
Ground TFM 8900 M
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 10 MAY 2010
Table 2 Survey coverage
Figure 3 Grid reference system for this report. Blue circle magnetic reading, filled circle tuned gradient
measurement, inverted triangle green - Insight Section; inverted triangle yellow; confirmation of UTM
baseline
Quality Control
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 11 MAY 2010
Figure 4 Example of monitoring Tuned Gradient for spatial relevance and time decay
Figure 5 Example of quality control of ground total field magnetic survey
Digital
Preliminary processing of the IP data was handled with these licensed software packages:
Prosys software.
Oasis Montaj
Geosoft Target MatLab UBC 2d inversion software
Data Comments
Ground proofing suspicious cultural anomalies near L100E from 1+50N through 2+00N was confirmed by both Insight Array and Tuned Gradient Array. Abrupt gradients have been left in the Ground Total Field Magnetic Surveys. This area [exploration region] has a history of variable sub parallel to line magnetic structures. All GTRM high gradient features must be ground proofed and are not the primary focus of the conclusions within this report.
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 12 MAY 2010
DRILLING FOCUS / RECOMMENDATIONS
Summary
Figure 6 Geophysical summary map in plan
Green inverted triangles [5] are points for ground proofing for sulphide mineralization in outcrop or trench. Line 400W near 200N, 350N and 435N; Line 100E near 125N through 200N and 335N. Section A – A’[ Figure 6 ] is highlighted in Figure 7. It is interpreted the primary mineralization targets are associated with the shallow North dipping resistor [more competent] as outline by the dashed red lines. This is believed that his mineral package comes to outcrop surface in multiple locations.
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 13 MAY 2010
Figure 7 Geophysical representation of general geologic section 100E
Figure 8 Geophysical representation of the general geologic section 400W
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 14 MAY 2010
Figure 9 Geophysical summary plan in relation with Ground TFM [nT]
Successful results from ground proofing the outlined green inverted triangle locations could lead to the conclusion that the DCIP Insight technology has successfully directly detected these styles of mineralization. Sections 100E and 400W interpretation summaries would be combined with all geologic information with the objective of planning a shallow [<300m drill holes vertical length] exploratory drill program. Emphasis would be placed on drilling the red dashed lines along section.
Insight would like to thank Pro Minerals Inc. and Robert Stewart for their generous assistance during this successful project.
Respectfully Submitted
David J.W. Dawson
Chief Geophysicist
Insight Geophysics Inc
Wednesday, 12 May 2010
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 15 MAY 2010
APPENDIX A : INSTRUMENT SPECIFICATIONS
ELREC PRO Ten channel IP receiver
Terraplus is pleased to announce the ELREC PRO, its new ten channel IP receiver, featuring 20 chargeability
windows and a graphic LCD display.
The following improvements have been introduced in this new receiver with respect to the previous ELREC 10
unit :
HARDWARE FEATURES:
The size has been reduced by 4 cm in height: 31x 21x 21 cm
The power consumption has been reduced by a ratio of three, which means that with less battery it is possible
to have a longer autonomy.
As a result, the new system is 2.5 kg lighter than the ELREC 10, with a weight of 5.5 kg only.
The data (21 000 readings max.) are stored in flash memories not requiring any lithium battery for safeguard.
The new system is compatible with the existing SWITCH Plus boxes for automatic switching of electrodes
according to preset sequences. In such a case, the receiver is used as a single channel unit ; with SWITCH
Pro boxes (to be developed next), the full ten channel capability of the ELREC PRO will be usable for a higher
acquisition speed.
SOFTWARE FEATURES:
Each new reading is stored as a specific unit file, making easier the grouping of readings corresponding
to a given profile, specially for the last (edge) points of a line obtained with a smaller number of dipoles than the
main part of the profile.
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 16 MAY 2010
The data format is compatible with the PROSYS software, which means that the operator can easily
visualize the numerical values of the data, automatically sort them according to the standard deviation of the
chargeability measurement, merge two files stored under different names, introduce the elevation of each
electrode, etc.
The ELECTRE II software can be used to define and upload preset sequences of measurements
according to any type of electrode array.
Huntec IP Transmitter 7500
Power: 96-144 V line to neutral, 3 phase, 400 Hz (from Huntec generator set),
7500W
Output: Voltage: 100-3200 V dc in 10 steps
Current: 16A maximum on low ranges
Current regulator: < 0.1% current change for 10% change in load resistance
Output frequency: 1/16 Hz to 1 Hz (time domain and complex resistivity);
1/16 Hz to 4 Hz (frequency do-main)
Frequency accuracy: 50 ppm, -300C to 600C
Output duty cycle: (Defined as tON/(tON + tOFF)) ½ to 15/16 in increments of 1/16 (time
domain);
15/16 (complex resistivity); ¾ (frequency domain)
Output current meter: Two ranges; 0-10A, 0-20A
Ground resistance meter: Two ranges; 0-10 kohm, 0-100 kohm
Input voltage meter: 0-150V
Dummy load: Two levels; 2000W, 6000W
Temperature range: -34.0C to 50.0C
Size: 53 x 43 x 43cm
Weight: 50 kg
Magnetometer
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 17 MAY 2010
Terraplus
GSM-19 v7.0
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INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 18 MAY 2010
APPENDIX B: RAW DATA PLOTS
Insight Geophysics Inc. is especially committed to data openness and availability. All raw data will
be made available for this report. Please see the following examples.
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 19 MAY 2010
Figure 10: Final field data plot of total Chargeability, L400W
Figure 11: Final field data plot of apparent resistivity, L400W
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 20 MAY 2010
Figure 12: Final field data plot of chargeability, L100E
Figure 13: Final field data plot of apparent resistivity, L100E
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 21 MAY 2010
Figure 14: Tuned gradient total chargeability and overlay
Figure 15: Tuned Gradient Apparent Resistivity and overlay
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 22 MAY 2010
Figure 16: Ground Magnetics and overlay
Figure 17: Tuned Gradient and Ground TFM survey summary
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 23 MAY 2010
Figure 18: Survey Grid with Total Field Magnetics in nT
All raw data is available in Geosoft database or Excel csv format.
X Y line station nT sq cor_nT time __X __Y
483479.4 5271771 00400E 00075.00S 56152.7 99 56455.6 110722 400 -75
483480.3 5271783 00400E 00062.50S 56158.28 99 56461.03 110658 400 -62.5
483481.3 5271796 00400E 00050.00S 56172.86 99 56475.64 110630 400 -50
483482.2 5271808 00400E 00037.50S 56149.43 99 56452.34 110610 400 -37.5
483483.2 5271821 00400E 00025.00S 56135.92 99 56438.92 110542 400 -25
483484.1 5271833 00400E 00012.50S 56152.48 99 56455.68 110514 400 -12.5
483485 5271846 00400E 00000.00N 56164.35 99 56467.51 110454 400 0
483485 5271846 00000N 00400.00E 56146.51 99 56451.65 111414 400 0
483486 5271858 00400E 00012.50N 56200.13 99 56503.49 110430 400 12.5
483486.9 5271870 00400E 00025.00N 56174.93 79 56478.13 110406 400 25
483487.8 5271883 00400E 00037.50N 56168.02 99 56476.55 110342 400 37.5
483488.8 5271895 00400E 00050.00N 56202.91 99 56506.13 110322 400 50
483489.7 5271908 00400E 00062.50N 56160.46 99 56458.24 110302 400 62.5
483490.7 5271920 00400E 00075.00N 56169.69 99 56470.91 110238 400 75
483491.6 5271933 00400E 00087.50N 56196.25 99 56500.63 110214 400 87.5
483492.5 5271945 00400E 00100.00N 56155.9 99 56463.32 110154 400 100
483493.5 5271958 00400E 00112.50N 56190.26 99 56493.28 110126 400 112.5
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 24 MAY 2010
Table 3 File name: C94 ground mag with UTM rotation and translation.csv N=834
Table 4 File name: Gradient.gdb N=902
Table 5 File name: C94 ideal grid IS400W.gdb N=952
INSIGHT GEOPHYSICS INC.
PRO MINERALS INC. 25 MAY 2010
STATEMENT OF QUALIFICATIONS
I, David J.W. Dawson, live in Hamilton, Ontario. I am a Canadian Citizen with valid passport.
I have a Bachelor of Science Degree [Geology] from Lakehead University, 1985
I have successfully completed all the required undergraduate courses for the Bachelor of Science
Degree [Geophysics] from the University of Western Ontario; 1986-87.
I have worked continuously in these fields; concentrating on hard rock mineral exploration, since
1985.
I have not worked in Australia or Antarctica.
I am a contracted service provider to Pro Minerals in the professional capacity of project design,
quality control and interpretive data manipulations and conclusions presented within this report.
I have no equity interest in Pro Minerals Inc.
All statements made within and surrounding this report have been made with my best intent and
abilities.
Respectifully submitted;
David J.W. Dawson
Insight Geophysics Inc.
Wednesday, 12 May 2010
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Pro Minerals Inc.
Legend:
Green inverted triangles [5] are points for ground proofing for sulphide mineralization in outcrop or trench. Line 400W near 200N, 350N and 435N ; Line 100E near 125N through 200N and 335N.
Blue inverted triangles are relative maximums [peaks] in the Tuned Gradient apparent resistivity. [note 13.5 kohm*m contour]
Red inverted triangles are relative maximums in the Tuned Gradielilt chargeability. [note 10 mVN contour]
Yellow inverted triangles are the positional reference points originally used to locate these data in NAD 83 .
An idealized Grid N-S section of L 1 OOW 200S through 550N is inserted below.
Overprinted numbers demonstrate data repeatabil ity and that outlying non-re-producible values were culled .
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Pro Minerals Inc. The Shining Tree Project
Tuned Gradient and Ground TFM surveys Plan GIS C 94 UTM Local.map
Geophysical Summary Interpretation Overlay/Tuned Gradient Chargeability May 2010
Insight Geophysics Inc.
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Pro Minerals Inc.
Legend:
Green inverted triangles [5] are points for ground proofing for sulphide mineralization in outcrop or trench. Line 400W near 200N, 350N and 435N ; Line 100E near 125N through 200N and 335N.
Blue inverted triangles are relative maximums [peaks] in the Tuned Gradient apparent resistivity. [note 13.5 kohm*m contour]
Red inverted triangles are relative maximums in the Tuned Gradielilt chargeability. [note 10 mVN contour]
Yellow inverted triangles are the positional reference points originally used to locate these data in NAD 83 .
An idealized Grid N-S section of L 1 OOW 200S through 550N is inserted below.
Overprinted numbers demonstrate data repeatabil ity and that outlying non-re-producible values were culled .
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Pro Minerals Inc. The Shining Tree Project
Tuned Gradient and Ground TFM surveys Plan GIS C 94 UTM Local.map
-f-
Geophysical Summary Interpretation Overlay/Tuned Gradient App. Rho May 2010
Insight Geophysics Inc.
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483500
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;,.f:::. o o
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0'1 I\) -.J I\) I\) a a
0'1 I\) -.J I\) a a a
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00 a
.d'fi_-,-----+------.------1°
483500
1m)
Pro Minerals Inc.
Legend:
Green inverted triangles [5] are points for ground proofing for sulphide mineralization in outcrop or trench. Line 400W near 200N, 350N and 435N; Line 100E near 125N through 200N and 335N.
Blue inverted triangles are relative maximums [peaks] in the Tuned Gradient apparent resistivity. [note 13.5 kohm*m contour]
Red inverted triangles are relative maximums in the Tuned Gradielilt chargeability. [note 10 mVN contour]
Yellow inverted triangles are the positional reference points originally used to locate these data in NAD 83 .
An idealized Grid N-S section of L 1 OOW 200S through 550N is inserted below.
Overprinted numbers demonstrate data repeatability and that outlying non-re-producible values were culled .
-.-----------------------------
. , ,
Ground TFM Ma~netics 2010 Grid
56431
50 0 ----- 50
Scale 1 :5000 100 150
(meters) NAD83 / UTM zone 17N
200
Pro Minerals Inc.
250
The Shining Tree Project
===---=c .. ,
300
Tuned Gradient and Ground TFM surveys Plan GIS C 94 UTM Local.map
-f-
Geophysical Summary Interpretation Overlay + Ground Magnetics May 2010
Insight Geophysics Inc.
482400
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a a "<t ~ -N IJ')
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482600 482700 482800 482900 483000 483100
483200
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483500
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;..s:::. o o
483500
TFM (nT)
50 o -----
Apparent Resistivity (ohm*m)
Chargeability (mVIV)
50
Scale 1 :5000 100 150
(meters) NAD83 / UTM zone 17N
200
Pro Minerals Inc.
250
The Shining Tree Project
300
Tuned Gradient and Ground TFM surveys Plan GIS C 94 UTM Local.map
-f-
Geophysical Summary Interpretation Overlay + Ground Magnetics May 2010
Insight Geophysics Inc.
a a <0 N l"N IJ')
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50 o -----
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Chargeability (mVIV)
50
Scale 1 :5000 100 150
(meters) NAD83 / UTM zone 17N
200
Pro Minerals Inc.
250
The Shining Tree Project
300
Tuned Gradient and Ground TFM surveys Plan GIS C 94 UTM Local.map
-f-
Geophysical Summary Interpretation Overlay + Ground Magnetics May 2010
Insight Geophysics Inc.
482400 482500 482600 482700 482800 482900 483000 483100
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50
Scale 1 :5000 100 150
(meters) NAD83 / UTM zone 17N
200
Pro Minerals Inc.
250
The Shining Tree Project
300
Tuned Gradient and Ground TFM surveys Plan GIS C 94 UTM Local.map
-f-
Geophysical Summary Interpretation Overlay + Ground Magnetics May 2010
Insight Geophysics Inc.
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50 0 -----
Apparent Resistivity (ohm*m)
Chargeability (mVIV)
50
Scale 1 :5000 100 150 200 250 300
(meters) NAD83 / UTM zone 17N
Pro Minerals Inc. The Shining Tree Project
Tuned Gradient and Ground TFM surveys Plan GIS C 94 UTM Local.map
-f-
Geophysical Summary Interpretation Overlay + Ground Magnetics May 2010
Insight Geophysics Inc.
4217645
I _____ 1--------
(--------------1
, , I I
I "'
I
1
~ 16N 4203474
--J
1242014
3011227
1 ---_L - - - - - -, blue dashed lines are
: actual claim fabric and 1 idealized claim fabric : from claim maps
_U l 00mE, ~21UOOmN N,IWnlffitU/nol 17
>-'-. ~Cllllm~ •. IflIOtk~C(lIIm f tb!\(
o 250 500
meters
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1-------I I I I I I L _________
1
4207970 1
98 1 $: " --J
104641
1 HWY560 1 to Gowganda --->
<---- to Shining Tree
access road to project is 58km east from HWY 144 PRO MINERALS INC.
Beilby Lake Property, Shining Tree Project Churchill Twp; Larder Lake Mining Division, Ontario
ALL GRID LINES ON CLAIM FABRIC BASED ON GPS MAPPING BY ROBERT D STEWART P.Geo.
482200mE, 5272700mN
+ + + + + + +
4207972 + Ina cldlm po tOT cl<tlm lill (...0 + \ vldenc found/for 4207972 . ~ +
I
-- ------ -- ----- -4
4209217 no clmm post or cl~llm I l n~
eVIdence found for 4209217
+ + + + + + + + + + + + + 1242013 +
I / " ".>~ ~+ I / :It :::. 0,.. "'1"+ ~ ~ w+
+ "0 cla\m po 'lor cI.;t\m 1m + vld nee found for 1242013
I cp ~ "\. ..J+ '" '" .-+ #4-3008d80 . ..:J , \ ..J "\s6'6'~O'6'O'o + ~-56 1 555, 2-1;::1471, 3-12420*0 ..J+
2-1't.5.180o"", ,", ' lM3081318 .- , 0 2-11867d.'~'T ... ' + 'l- ' ..J
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1~#~3~C~lM~30~8~~~~' ::\ ::I~~~~~~.L~~~1-~1~15U1~80~1;;~~~~~~I ~~~tl~i+~~~~ 2-1203381, +', """ 4----, + + + + ' #1 -3008580 -1211884, + ,} ~ ' , + + + ~,,+ I14Ctmlllo---..-l, --1241471 \ ~, I + / J-t
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+ '+- ", '+, + + t ,' + + + ------ ~+ "-, + ( ', + - ' ; + + ~ " + ,' -=r- --- t ; + ,'
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3N+ + + ... ""t + \ + + + + + ' + , + + + + 3008S80 , : , + +3N _ + + + " + .:r- ........ ...,....,_ ...... -
2N + + + / + + + +'", + ' + + + +
#1-5 elM 3081318, 1- 566656, 4- 578873, 1- 892193, 1-1151749, 1-1199657, 1-1200456, 1-1206247,
+ __ A "~ " + area clearcu4- + + + r'- + + , + intearly 200Qj$ + 2N +
, + + + " -+--, + + + , 1N+ + +, + 't + + + / : + ,+ + + ' + +' , + If" + + / I l P:400mW + / + Y,--,'L + ', + 1N ,' + '. of 2-1203380 l + / 4- " 'd- '" + , ' + " + -::r--------- " -to,, k - -'
\ i - • ,++!+++++++~+++t>++_+ },- ; +
\, I ~.,,,, .... (", " .EILB'tLAKE+- N~,/' + + " 3-665239, ",,,,., .. .,~ '-+ + + + ..... Iz- ,?6,.. +
'" I __ ___ ,}~"i ~ %~o+is------~--- + /~~+,. ::?O'6',;, t #2-3008580 ----- -r -- - - - -, ~ ~ 'Ii;: + If + 18 +"'a '<s> "'6' 3 -!.23.!!8[5 j _
,~ + ?, + " .. 'ill' ... .:.::.1l~_~--= 31046c30 ' I .",,"" ' , " ~~ , + + "'6' {;> - ., ' ~ . \\', ~~ + "..SI.;,> 2-1199657, + LP: 1200"ih--Eof3-1199657 1-10741115:
I
482200mB, 5271500rrjN
" _ ~ ___ ;...::.:;-....,;;t..-~~~.~1~10~omWOf2-1200896 ~ 2-1199657 " -~ + 3-1200685, • ~.r;;J 4': 1100mWof2-1214375 ~ 2-120q68 ,
~ ' -',,+ 3-1214375, "'~ ~'" '" #442"2933 , 2-120p' ' ~p: 100m E Of#4-12025~~Cij ~ ~~..,. I : #1~242932 12429;'3'1 1 ~ 5;:'
4207971 t \, o\~"i ~ ;; 1/ I + J ,/ ~:~~~~~~~: \ -i- ~ ~~'"::: '" + + I ",<I' I:; .: .r + + II ~.~ !:3 cf
+ V ~ ~ + + ' S + + " + + \ I + + : 1 + + / 1+ + ! , + + : 1 + + " 1+ + " ' + + 'II ~------.....--__ I
+ I, i + --------_-i + I 1+
I +
blue dashed lines are actual claim fabric and idealized claim fabric from claim maps
483700mE,5272700mN NAD83, UTM Zone 17
N
LEGEND t #2-3008580
® Pro Minerals Active Claim Evidence
#2-1242015 • Adjacent Active Claim Evidence
3-1199657 • Expired Claim Evidence, Historical Claim Fabric
LP = line post, tag number precedes claim number
o 250 500
n1eters
PRO MINERALS INC. 8eilby Lake Property, Shining Tree Project
Churchill Twp; Larder Lake Mining Division, Ontario
GRID STATIONS WITH CLAIM FABRIC EVIDENCE BASED ON GPS MAPPING BY R. D. STEWART P.Geo.
r-- ____ _
UTM z onA 17 482400E,1i272500N
1 + 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
Bl 1
ON ~---_-4~7~1~3~3----~1~6S~'2~73~--~~~L---~R4hL ____ ~~6-__ ~~~~ __ ~ifi4~ ____ ~~W-__ ~~, $3Q. 6353
S' --- a;,529 <0 6 4n8--_ -.J 56:334
7365 7,'277
1S 7,293 UTM Zone 17 ::> + 482400E, 5271800N a;
-.J
O 300 0~lIIIIIIIIIIIIiIiiiiiiiiiiiiiii~15~*IIIIIIIIIIIIIII~ meters
o -.J
Claim and grid station locations ba b rt D Stewart P.Geo. ed on April 2010 mapping by Ro e ,
N LEGEND
56789 magnetometer reading in nanoTesla (nT)
Bl ON
Pro Minerals Inc. . t rty Shining Tree ProJec Beilby Lake Prope , .
Churchill Township, Ontario
Posted Magnetometer Rea Ings d' Along Gridlines
() ru 3 0) :::J c..
<0 ., 0.: C/) .-+ 0) .-+ o· :::J
0" (') 0) .-+ o· :::J C/)
cO) C/)
CD c.. o :::J
» "'0 ::J.
I'V o
3 0)
"'0 ~. :::J
<0
c'< ::0 o cCD ::l. o (J) .-+ CD :2E 0)
.?"'U G) CD o
"'U 0 Ul
CD 0..
~ ID
co ::J CD 8" 3 CD
~ :::0 CD ID 0.. S· co Ul
» 0" ::J co OJ ID Ul CD S· CD
OJ ~. 0= '<
or :::yID C A ...., CD
~~"'U =-8 a d~~ ::E -< S· ::J - CD ~C/)ID "5. ~ (j) _ ::J
OS· S" ::J co 0 ...... -1 ID ...., ::J. CD o CD
"'U g.
CD () ......
3 CD r-+-CD 1 CJ)
o
~
01 o
.;;J-c OJ--1
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_m ~ (Jl~
~--J OJ a a Z
57,02
, I , , ,
w o o
56, 28i-/ 56,20_ :
l3W~6,24 ,
/ 56,28 ,
/ 56,25 I / 56,27 ,
uw / , -- , ,---
l6W
l5W
l3W
, , + l2W
l1W - vU,LU':>
I 56,26 56,263 + , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,+-L l1W ' 56,25"1 56 238 ,
" , , 56,212 56,236 ,
l 0 i H , , , , , , ::'\~f~!:bJ~ , ,+, , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,J l 0
: 56,521~56,569 I \ 56,28(:56,209 ,
56,140- 56,111 ,
\ 5, 2 55,855 j ' L1E J \ 56,594 , \ 56,547 (j) ,
l2E I 00 56,51 56,439 Z '" w .. !£ . . "" 'fj '~E r" '56,37trs6,271"""'" i', , , , '. J' .... , . ~, . ,of , , . , , , I , • ,. , ~ \ 56,32 56,301 , ~ 11 (')
\ 56,32 , 0 ~ ~ , 0(') _ l3E \ 56,505 , z r ;;;:
++iI- l3E ::!) 2::: OJ , , z ~;;;:g , OWz Lf-+-+--j::T-~~±:T+-+-+-t--+-I-+--+--++-+---l--I----I-C , m g 0
.. ~ l3+50E < m > , o~~ , + ~o -t--+~~~~f-t::!--::+-+++-t-+-i---+-+--++++-+--I-.l----"-lf+ l4E ;!i) ~ ()
- , (Jl ~s: m ---- (J) ON l4+50E -----__ , -...J _~ ~
OeD ffi ~~ Zr _. ~ ::J (Jl
::J 3 r g ID ID m Z
::J<§ G) o CD m ~8" z ~ 3 c ID CD
S~ -I...., -CD
ID 0.. ::J
CO
r-----lJTM Zone 17 ~S- - - 1-='5=;5 __ _
482400E j 5272500N 4.7 6.4 -.
+ I 6N 5.3 6.9
I &1 ~4 I 6 5.4
I ~., 5.2 5
I 5,,, 6
10.8
I 7 I 4.8
I g 9
7.3
o CLAIM BOUNDARY
FOR CLAIM 3008580 5:'!;--- ...J,Q.,5 + 6
- - - "'"'!- + 8.8 ii;J BASED ON FIELD EVIDENCE -J
5.8 6.9 5.9- - - '1- - - - ~ 44 8.1 11·
6.9 6.2
5.4 6.7 8 9.3
4.6 2 8.8 9.4
-- n --J 6.4
6N
6.9 9.7 9.9
6.1 7.4 8.2 9.2 ~:~ 9.3 9.1
7.8 6.7 9.4 8.6 ~.5
8.9 7.3 6.5 9.4 6.9
6.3
5N
6.4
6.5
8.1 N 9.2
10
7.8
LEGEND
I 3.5 I 4N U 7.4
5.8 5.5 5.2 3.9 5 5.3 4.3 6.9 9.7 6.8 4.1 7.4 17.9 22.2 10.4 8.5 7.5 7.8
7.7 7.3 9.8 7.8 ~:t 9.8 8.6 9.1 8.
7 ~:~ 7.4 r 9.1 chargeability gradient IP
3.7 6.7 6.7 6.9
p.5 3N 1H
16.1 14.2 9.3 8.3 8.5 8.2 7.7
2N 7.9 7.9 8 8
7.8
8.8
10.6
11.7 11.7 11.7 11.7 11.2 10.3 13.5 12.1 7.7 7.5 8.1 7.8 8
7.9
9 10.7 13 14 15.2 13.6
J.t 8.8 11.9 12.4 7.7 8 11 10.1 7.4
11.6 5.8 10.6 8.4 ~.3 13.6 6.7 9.9 6
11.3 7.6 :.: 9.9 f~96 8.5 . 10.1 21:6
9.9 7.6 8.7 9.2 gl 7.2 95
10.3 7 . 8.8 U 10 .7 7.4 7.9 g 10 7.6 9.1 8.6 n
6.2 8.4 8.3 2.4 9.3 7.8 -1.3
7.6
7.5 4N
7.7
10 LU LU
10 LU IE ;:j! ~ 10.4 0') ct, -J "
3N I.i -J -J -J
~9.5 _ ' 92., ..,;l oS.&- rnl-' '!--- "17 6
7.2 . 8.5 8.8
8.8 7.3 7 6.5
8.8 56 6 8.2 ~ .. f :~ 2" 8 6.7 7.2 '
6.9 . 6 7.9 8.9 19.3 <" 9.3 9 , 6.4 5.8 5.2 5 8.7 28.4 6.7 4.8 ,
iN 7 6.5 5.1 4.8 5.7 7.6 :.~ ~~.1 8.4 7.5 7.2 4.8 ,
.5 6 3.8 5.2 7 7.4 9.3 8 8.3 7.1 ,
7
9 4.3 6.1 F ~.6 4.9 5.7 3.6 4.7 6.9 6.4 8·8 iN 7.7 8.2 8.6 3.9 '
Bl ; .. : 5.3 3 4.9 5.8 6.6 7.5 ~.1 6.2 8.4 10.1 1 o.~
ON (~=j:::=~::=j.6~.4;=~=~.f.;2.:3 _ _ ___ 1~2.:5 _____ _ f:5;.1~ ____ fj5~.3: _____ .1~6~.4~ _____ ~5~56~6 _ _____ 1~6~.4'-_ _ -11~11~.7~l~1:2~.1 1~1~2 f'·j --1--_ 7.6 2.5· 4.9 . 10.4 111 :.1 ::;. _ 1 6 5.6 7 1 . 11.4 10. it - ~. . 2.7 5 . 10 -J -_ 2.6 21 6.4 61 10.1 12 12.
7.3 - l\'.i . 3.7 46 . 8.6
o
is ~ .,., -J
5.6
150
meters
.4 ___ ~ 1 7 . 8.3 6.9 8.6 8.4 8.9,
5.7 .... __ 4.7 4.6 8.2 6.8 8.9 9.5 9.~
300
3.2 - , "t8 4.9 8.1 8.5 J I 8.2 9.4 9.7 8.7 7.3 91
~ I 5.6 92 is 9.8 ~ a{i--r-J . 9 10.4 _-.-I---r LU -J I 5.8 8.2 Ui _- .... -- LU LU :3
I ..!_---"I"'d':'I --- - LU 'J IE l_-- 8.5 ~ ct, ~ 0 -J
~ -J UJ 8.3
~
-J
Bl ON
reading in mVN
Pro Minerals Inc.
Station Unique Gradient IP Readings From Insight Geophysics Inc. Winter 2010 survey
Claim and grid station locations based on April 201(~ mapping by Robert D Stewart, P.Geo.
Beilby Lake Property, Shining Tree Project Churchill Township, Ontario
Posted Chargeability Gradient IP Readings
~ $: ~ ~ $:
... - - _ _ .1,." 'J ~ $: CLAIM BOUNDARY lJTM Zon 17 - pO;22-i" - .,,-2;336. _ _ _ ~::; o! FOR CLAIM 3008580 482400E15272500N 19,053 14 778 17}J6"O - - t4,6.911 +1 938 ~ ii;J BASED ON FIELD EVIDENCE
I 6N ' , r" +~ --... ..6 _ +1,965 ~ + I 8,944 143,823 ,4,622 1",422 h,967--ti2ii-- 1--_
I 17,384 10,933 '17,633 1,549 1,002 /958 24,83 - '957--~ I 3,586 16,314 11,423 13,234 '5,535 2,467 18,962 1,477 6N 1,416 I 5~ ~,574 12,580 ls,318 17,914 9,506 11,401 '6,304 1,559 1,865 I 11,194 11,623 12,441 8,939 12,358 13,362 39,766 2,728 I 14,032 12,502 11,428 17,174 13,727 7,579 ~,711 39803 22,700 I 2,966 11,801 17,732 24,802 16,276 14,212 '5,426 10:691 5N ,44,075
N
LEGEND
I 1814 9,991 22,404 19,764 13,067 11040 8,346
I 4N 2 '265 ~:~~: 9,048 11,194 ;::::: 14,539 20,003 18:773 9,507
7'836 6,528 14,456 6,545 11,815 ;::::~ 16,020 19,422 14,343
I 12,345 apparent resistivity gradient IP reading in ohms'meters
10' 801 16,703 8,381 1 15,504 17,427 13,826 , 7,304 +" 0,550 18,787 4N 18,911
+15880 19,891 ... ,690 10,458 8,862 20,462 17,828 3N 13 '645 f.!,405 14,916 8,693 17,768 18,542 18,893 15,873 LU LU
h3'688 11,277 /12,109 23,327 19,032 21,050 27,505 f2,330 LU ~ ;:j! ~ 27'961 18,833 '17,762 14,106 11,101 20,096 16,868 '16,529 3N ~:,976 'J "" ~ ::'; 14'250 22,858 126,834 15,643 13,985 ~,063 12,269 rg,004 ~~~~ __ ';;:~~-- fto,slJ'"1
2N 14'117 19,764 23,344 22,949 14,512 18,497 18,181 15,208 13,731 18,87 /43,72 14 '687 18,263 19,030 28,373 14,556 19,054 18,995 26,184 28,233 14,75 '8,445, 15'712 17,300 13,529 14,396 10,559 24,677 22,023 18,107 2N 15,754 h6,69 ~,993! 13 '568 13,712 10,932 8,616 11,848 19,679 17,146 14,269 16,003 17,06 315&1
1N 14'687 10,474 19,804 '6,274 15,729 10,560 21,296 19,386 17,801 18,41 'g:7~1 13 '543 9,703 8,982 10,679 '9,796 f12,492 16,968 19,556 18,677 11,87 12 ~J. 7,~14 7,951 f6,948 12,509 15,284 18,180 14,521 18,491 1N 21,119 16,01 13:10
Bl l 7,251 14,436 '5,077 14,423 17,638 17,020 14,211 14,716 9,794 13,231 21,65
ON __ { :,~;: 3,290 4,434 12,100~3,674 11,062 22,077 ~~8~:4 15,31* 14,09
o
$: --_ ' 2,267 61 .. ,191 14,494 20 ' 21,15t '18 ~2E CD - .. 30.§.62 2650 98 825 1 997 1ft,028 ,968 21,532 3228 ' . ~ 26 840--~, 1,213 1,394 ' r.>, 3,116 30595 ' 29,69~ Bl
, .. ,259.. __ 1817 1,879 3,863 ' 24,46 17965 ON 23,388 25 842 -.<, - _ 2,497 2,129 3,872 7 165 ~
1S". , 4,390 -_ ~-659 '5,649 12,610 ' 23,09 25 ·041 ". - ,- 2,715 7,386 c~,2,475 20,21 27,"245 ~ ~ $: , 3,658 32,078 35,576 1S ... 0,742 :.t60nli __ --'
150
meters
~ r-J , 7 247 39,427 4!l262 _ - ..;,-..... "'l LU
~ , ' 30,070 ~,93&--- LU ~ ::';
300 ,-__ ... 1j,~4.. -"""3'l;-n2" -""·'0,785 ii;J 'J 'f
~ 4\ ~ ~ ::; :;20,678
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Pro Minerals Inc.
Station Unique Gradient IP Readings From Insight Geophysics Inc. Winter 2010 survey
Claim and grid station locations based on April 2010 mapping by Robert D Stewart, P.Geo.
Beilby Lake Property, Shining Tree Project Churchill Township, Ontario
Posted Apparent Resistivity Gradient IP Readings