SPECTRAL -IP AND RESISTIVITY SURVEY - Ontario

LOGISTICAL A INTERPRETIVE REPORT

ON

SPECTRAL -IP AND RESISTIVITY SURVEY

CONDUCTED ON

THE GLENWATER PROPERTY, THE HORNE PROPERTY AND THE BATEMAN LAKE PROPERTY

CONMEE AND HORNE TOWNSHIPS

THUNDER BAY AREA

ONTARIOFOR

AVALON VENTURES LIMITED

52A12SE0007 2.17459 HORNE 010

LOGISTICAL AND INTERPRETIVE REPORT

ON

SPECTRAL-IP AND RESISTIVITY SURVEY

CONDUCTED ON

THE GLENWATER PROPERTY, THE HORNE PROPERTY

AND THE BATEMAN LAKE PROPERTY

CONMEE AND HORNE TOWNSHIPS

THUNDER BAY AREA

ONTARIO

For:AVALON VENTURES LIMITED777 Red River Road, Thunder Bay, Ontario Tel: (807)767-3012 Attention: Doug Parker

By: JVX LIMITED60 West Wilmot Street, Unit #22Richmond Hill, OntarioL4B 1M6Tel: (905)731-0972Fax: (905)731-9312

Contact: Blaine Webster v^

JVX Ref: 9680-glenwtr March, 1997

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TABLE OF CONTENTS

1. INTRODUCTION.........................................-...................-....-......-....-......-..-.!

2. SURVEY SPECIFICATIONS Z PRODUCTION SUMMARY :......................1

3. PERSONNEL......................................................................-......-..........-...^

4. DATA PROCESSING...........................................................-.-......................^

5. INTERPRETATION AND DISCUSSIONS OF RESULTS ..............................5

5.1 THE GLENWATER PROPERTY...............................................................-........-.......................^

5.2 THE HORNE TOWNSHIP PROPERTY .......................................................................................8

5.3 THE BATEMAN LAKE PROPERTY .........................................................................................85.3.1 The Resistivity Data...........................................................-.......-.....-.....-.-...-.....--...--..-95.3.2 The IP-Chargeability Data..................................................................................................95.3.3 Selection of IP-Targets..........................................................................................................10

6. RECOMMENDATIONS AND CONCLUDING REMARKS ........................12

52A12SE0007 2.17459 HORNE 0 10C

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LIST OF FIGURES

Figure l : Location MapFigure 2: Grid/Claim Map - Glenwater - HorneFigure 3: Grid/Claim Map - Bateman Lake

LIST OF TABLES

Table l: Specifications for the IP/Resistivity SurveyTable 2: Line Summary for IP/ Resistivity Survey for the Glenwater PropertyTable 3: Line Summary for IP/ Resistivity Survey for the Horne Township PropertyTable 4 Line Summary for IP/ Resistivity Survey for the Bateman Lake Property

LIST OF APPENDICES

Appendix A: Instrument Specification Sheets andPole-Dipole Array Geometry

Appendix B: Plates

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LIST OF PLATES

FOR THE GLENWATER PROPERTY:

Plate la: Resistivity 0=2) Contour Map; Scale l :5000Plate l b: Chargeability (M7, n=2) Contour Map; Scale l :5000Plate CM-1: Compilation Map; Scale l :5000

Included in the Glenwater Grid are the standard pseudosection plots for the IP- lines: 3600E, 3800E, 4000E, 4200E, 4400E, 4600E, 5000E, 5400E, 5800E, 6200E, 6600E, 6800E. These plots include the four parameters: Chargeability, Resistivity, Spectral-M, and TAU (the Time Constant).

FOR THE HORNE TOWNSHIP PROPERTY:

Plate 2a: Resistivity 0=2) Contour Map; Scale l :5000Plate 2b: Chargeability (M7,11=2) Contour Map; Scale l :5000Plate CM-2: Compilation Map; Scale l :5000

Included in the Horne Grid are the standard pseudosection plots for the IP-lines: 6300E, 6700E, 71 GOE, 7500E, 7900E.

FOR THE BATEMAN LAKE PROPERTY:

Plate 3a: Resistivity 0=2) Contour Map; Scale l :5000Plate 3b: Chargeability (M7,11=2) Contour Map; Scale l :5000Plate CM-3: Compilation Map; Scale l :5000

Included in theBateman Lake Grid are the standard pseudosection plots for the IP-lines:8500E, 8600E, 8700E, 8800E, 8900E, 9000E, 91 GOE, 9200E, 9300E, 9400E, 9500E, 9600E, 9700E, 9800E, 9900E, 10000E, 10100E, 10200E, 10300E, 10400E, 10500E, 10600E, 10700E, 10800E.

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1. INTRODUCTION

JVX Ltd. conducted a time-domain Spectral Induced Polarization (IP) and Resistivity survey during the period of December 5, 1996 through February l, 1997 on behalf of Avalon Ventures Limited. The survey was located in three separate areas: (i) the Glenwater Property grid in Horne Twp. (NTS: 52A/12 ), (ii) the Horne Township Property grid (NTS: 52A/12) and (iii) the Bateman Lake Property grid in the Conmee and Horne Twps. (NTS: 52A/12). These grids are all located in the Thunder Bay Area of Ontario.

These locations are shown in the Location Map in Figure l, and the survey grids are shown in Figure 2 Se FigureS.

The Grids covered the following claims:The Glenwater Property: 1224680, 1224681, 1224683,1215010 The Horne Township Property: 1215011, 1215012

The Bateman Lake Property: 1224923, 1224922, 1224924, 1173947, 1224908, 1224907

The purpose of this survey was to locate zones of disseminated sulphide mineralization associated with gold-bearing quartz veins which may be present in the three selected areas of interest. The sulphide targets could be hosted in a series of Archean mafic flows as well as intrusives, with interbedded metasediments. Previous IP surveys in the region suggested the presence of some north-east trending zones of anomalous chargeability which cross-cut the local stratigraphy.

2. SURVEY SPECIFICATIONS & PRODUCTION SUMMARY :

IP f Resistivity ' ••"-'- '--" -' , '. ' " : ' Vi; ;v ;V\", , - ,:i

Transmitter

Receiver

Array Type

Transmit Cycle Time

Receive Cycle Time

| Number of Potential Electrode Pairs

Electrode Spacing

Scintrex IPC7/2.5 kW, Huntec 2.5 kW

ScintrexIPR-12

Pole-Dipole (some Dipole-Dipole)

2 sec

2 sec

6

25 metres

s-;——— •ft —

;' E

fc: n \\ \ \

igtoKMteu

\\,.-^—iQ*P*rHa ^?e~ ~^ ^riAitt

LOCATION MAPAVALON VENTURES LTD.

HORNE GLENWATER - BATEMAN LAKE PROPERTIESHorne SL Conmee Twps., Thunder Bay area, NW Ontario

N.T.S. 52 A/12GROUND GEOPHYSICAL SURVEY

Scale: l : 1,725,000Survey by JVX Ltd. Feb., 1997 Figure l

1224679

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11000 N

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GLENWATER.GRID|

11215010 j

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1 121 5011 (HORNE GRID-J. -----. J

GRID l CLAIM MAPAVALON VENTURES LTD.

HORNE GLENWATER PROPERTYHorne Twp., Thunder Bay area, NW Ontario


Scale: l : 40,000Survey by JVX Ltd. Feb.. 1997 Figure 2

BL 10000 N

LJ-LLJ-IJ-J-U 9050 N

HORNE TWP.ADRIAN TWP.

GRID l CLAIM MAPAVALON VENTURES LTD.

BATEMAN LAKE PROPERTYHorne Se Conmee Twps., Thunder Bay area, NW Ontario


Scale: l : 40,000Survey by JVX Ltd. Feb., 1997 Figure 3

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The production summary are listed in the following tables:

THE GLENWATER PROPERTY

Table 2: Line Summary for IP/Resistivity SurveyT.ine

3600E3800E4000E4200E4400E4600E5000E5400E5800E6200E6600E6800ETOT AT,

From Station10850N10625N10600N10600N10600N10600N10925N11025N11025N11575N11375N11275N

To Station12750N12800N12750N12625N12575N11900N11850N12100N12100N12000N11850N11750N

Distancefmi19002175215020251975130092510751075425475475

15Q75

No. of Readings

7788878280533744441820206sn

THE HORNE TOWNSHIP PROPERTY

Table 3 ; Line Summary for IP/Resistivity SurveyT.ine

6300E 6700E 7100E 7500E 7900E

TOTAT,

FromStation9925N 9850N 9875N 9875N 9925N

ToStation10350N 10350N 10350N 10350N 10400N

Distancefnri425 500 475 475 475

2.350

No. of Readings

1821 20 20 2099

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THE BATEMAN LAKE PROPERTY

Table 4 : Line Summary for IP/Resistivity SurveyT.ine

8500E8600E8700E8800E8900E9000E91 GOE9200E9300E9400E9500E9600E9700E9800E9900E10000E10100E10200E10300E10400E10500E10600E10700E10800ETOTAL

Frnm Station9125N9075N9075N9075N9225N9225N9225N9225N9300N9225N9325N9225N9225N9325N9075N9175N9100N9100N9325N91 SON9075N9175N9200N10800N

Tn Station9500N9700N9700N9700N9900N9900N9975N10000N9975N11175N11175N11175N10875N11175N11125N11125N11175N11150N11175N11175N11175N11175N11175N11175N

Distance fm1!

37562562562567567575077567519501850195016501850205019502075205018502025210020001975375

33.500

No. of Readings

162626262828313228797579677583798483758285818016

1364

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3. PERSONNEL

(A) Glenwater and Horne Grids -

Chris Hale (Geophysicist and Party Chief)Mr. Hale was in charge of the whole survey, and was responsible for data quality andpreliminary processing of IP data in the field.

Alex Jelenic (Geophysical Operator) Mr. Jelenic operated the IPR-12 receiver.

Gord Hume (Geophysical Operator) Mr. Hume operated the IP transmitter.

Two field assistants were also engaged by JVX : Gerald Chaput and Adam Dixon.

(B) Bateman Grid -

Fred Moher (Geophysicist and Party Chief)Mr. Moher operated the IPR-12 receiver, and was responsible for the overall dataquality of the survey.

Jean-Guy Harvey (Geophysicist Operator)Mr. Harvey operated the transmitter in this survey.

Mr. Michel Daizle and Mr. Vitali Dorodnov were field Operators. In addition two other field Assistants (Gary and Tyier) engaged by JVX, assisted in with the survey.

At JVX' head office in Richmond Hill, Ontario, the following personnel were involved in this project:

Dagmar Piska (Draftsperson):Ms. Piska carried out the manual and AC AD drafting on the figures/plates andassembled this report.

Vaso Lvmberis (Draftsperson):Ms. Lymberis carried out the manual and ACAD drafting on the figures/plates.

Irina Dorodnova (Data Processing Specialist):Ms. Dorodnova processed and plotted the data and was responsible for data storage.

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Andrew G. Hwang (Geophysicist):Mr. Hwang interpreted the survey results and wrote this report.

Blaine Webster (President. JVX Ltd.):Mr. Webster provided overall supervision of the survey.

4. DATA PROCESSING

The IP and Resistivity field data were edited and processed via industry-standard GeoSoft programmes to produce the standard pseudo-sections of the Resistivity, Chargeability (M7), Spectral-M (sometimes denoted as M-EP), and TAU (decay time-constant). These four parameters were plotted together in a standard format, for each of the lines surveyed, hi the few instances where the Spectral-M and TAU values were not computed by the EPR-12 Receiver unit itself, JVX' proprietary in-house software was utilized to complement this shortfall by finding (via a least-squares criterion) an appropriate 'best- fit' decay curve (from a large set of 'master curves' database) from which the Spectral-M and time-constant values were derived.

Next, the colour-contoured maps for the depth-level, n=2, of the Chargeability as well as the Resistivity for each of the three grids were produced, to provide a preliminary view of the distributions of these quantities in plan view. The level n=2 was a usual and standard choice (although other depth-level(s) could have been selected for contouring as well).

Finally, stacked pseudo-sections were assembled and plotted in one map, for each grid, using a universal colouring scheme, for each of the two IP-quantities (Chargeability and Resistivity). Note that the colouring scheme used in the standard pseudo-sections may differ from those of the stacked pseudo-sections because the former was applied on a line- by-line basis, to emphasize the relative contrast of the DP parameters along a given line.

5. INTERPRETATION AND DISCUSSIONS OF RESULTS

For each of the three survey areas, the EP-Chargeability and Resistivity anomalies were manually selected and prioritized by studying the standard colour pseudosections (of the Chargeability, Resistivity, Spectral-MIP and the Time Constant, TAU) for each of the lines surveyed. The locations and extents of these anomalies were compiled on the three Compilation Maps, labelled Plates CM-1 (for Glenwater Property), CM-2 (for Horne Property) and CM-3 (for Bateman Lake Property).

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5.1 THE GLENWATER PROPERTY

Plate CM-1 shows the Compilation map for the Glenwater Property. In the western region of this grid, three near-surface features representing areas having a relatively conductive overburden layer (CO-1, CO-2 and CO-3) were identified; these could have the negative effect of masking out the IP responses that may occur below the overburden layer. Thus, caution need be exercised in the interpretation of the IP data within these three shaded areas.

Striking approximately east-west across the grid, and running deeper, are two distinctly separated resistivity-low zones, RL-1 and RL-2, as interpreted from the resistivity data. Part of RL-1 are found to be in coincidence with the important chargeability zone, IP-1 (to be discussed later). A few other resistivity-low zones have been identified (see Plate CM-1); these are of smaller extent and probably of lesser significance.

A number of interesting IP-anomalous features and zones have been identified within this grid, even though the inter-line spacings were larger than usual (eg. some with up to 400 m line-spacings). As such, the correctness of the interpolation in the areas in between adjacent lines may be somewhat uncertain. Nonetheless, the following prioritized anomalous IP-chargeability regions were listed and described in the following:

Zone IP-1 : This is probably the most important chargeability-high zone in the grid (see Plate CM-1). It trends east-west from Lines 3600E to 4600E, beyond which and further to the east of Line 4600E, it extends approximately N-E, reaching at least Line 6200E, and possibly extending further eastward, till Line 6600E. Four important large Spectral- M targets (T-1 through T-4) are identified and selected within this zone:

Target T-1 is ranked low in priority. It was found to coincide with the resistivity-low zone, RL-1. It has a Spectral-M value of 209 mV/V, with a relatively long time constant (had the TAU value been short, T-1 could have been moved up in priority).

Target T-2 is ranked medium priority, requiring further detailed investigation in this locale. Its M-IP value is 238 mV/V, with a short to medium time constant (indicative of the possible presence of small to moderate grain-size mineralization). It coincides well with RL-1, hence the relative importance of this target.

Target T-3 is also ranked medium in priority (even though its location was found to be not fully coincident with RL-1), since its Spectral-M value (359 mV/V) is amongst the highest in the this grid. Its time constant is short to medium. In fact, T-3 is seen to correlate more closely with a local resistive-high layer (at n^), indicative of possible silicification process.

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Targets T-4 and T-5 are both ranked low in priority, even though their M-EP values are comparable to the previous targets. This is due to the lack of correlation with any one of the larger resistive/conductive zones at these positions. (Note, however, that T-4 correlates with a local resistive-low, whereas T-5 is located near a local resistive-high (silicification)).

Overall, it is important to state that Targets T-1 through T-5 are all reasonably well cross- correlated from Line 4600E through to Line 5800E, giving confidence to validity of the field results as well as to the interpolation/interpretation approach adopted here. Still, one would strongly recommend that the missing lines (eg. Lines 4800E, 5200E, 5600E and 6000E) be similarly surveyed in the near future, to property complete the IP picture, if at all possible.

Zone IP-2: Running roughly adjacent to and located just north of zone IP-1, lies the second anomalous chargeability zone, IP-2. This is rated as next in importance, after zone IP-1. There is no apparent correlation with either a resistive-low or -high zone in this case. Three target locations (T-6, T-7 and T-8) have been identified:

T-6: This is rated as medium priority target, having an M-IP value of 352 mV/V, with some correlation with a local resistive-low (at n=3) in the area. Its time-constant is of long duration, indicative of possibly coarser-grained mineralization.

T-7: This target area is rated as low priority since its M-IP value is quite small, at 143 mV/V. There is some evidence of the presence of a local resistive-low zone at depth ^5), and thus, this target may be of some interest.

T-8: This is also rated as low priority; its M-IP value is 254 mV/V, and the target correlates with a local resistive-high area as well. Its TAU value is of short to medium duration, possibly indicative of fine-grain mineralization.

Numerous other IP zones have been delineated and outlined (see Plate CM-1). Of note was Target T-9; this is located within the chargeability zone, IP-6. This target is rated as medium priority, with a relatively sizable Spectral-MIP value of 359 mV/V. Also, the target coincides with the second resistive-low zone, RL-2, at about the same level (n= l). Finally, Target T-10, of medium priority, was found where zone IP-1 meets RL-2 on Line 6600E. Its M-EP value is 246 mV/V, with a relatively long time-constant.

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Overall, the Glenwater Property has some well defined and interesting IP anomalies. The delineation and interpolation of the IP results in the areas located in between the lines surveyed can be improved upon by utilizing smaller line-spacings (eg. 200 m instead of 400 m), wherever possible. To balance this, one should also note that the maximum Spectral-M values detected in the area was about 350 mV/V, perhaps not sufficiently high enough to warrant a more detailed survey campaign, provided other geological and/or geophysical information were available to take into consideration. Notwithstanding, perhaps a limited geochemistry sampling survey could be recommended to be conducted over some of the near surface IP target areas identified above.

5.2 THE HORNE TOWNSHIP PROPERTY

The IP and Resistivity anomalies for the Home Township Property were compiled and plotted in the Compilation map labelled Plate CM-2. Again, the line-spacing for this grid was larger than usual, at 400 m; thus the following interpolation and interpretation could be problematic, and caution in this respect is advised.

Several resistive-low zones were identified (the shaded areas in Plate CM-2). As well, five IP zones were delineated (TP-1 through IP-5), these were generally found not to coincide with the resistive-lows. Three possible targets (T-1, T-2 and T-3) were selected; these were deemed of low priority. Their Spectral-M values range from 221 to 254 mV/V, with TAU of short to medium duration. It is recommended that Lines 6500E, 6900E, 7300E and 7700E be surveyed first before a more detailed and reliable interpretive work can proceed beyond this preliminary stage.

Relatively speaking, at the present time, the Home Township Property is ranked of lesser importance than the Glenwater Property, as far as the IP-responses are concerned.

5.3 THE BATEMAN LAKE PROPERTY

The IP-survey over the Bateman Lake Property grid, in comparison with the previous two grids, shows significantly better probability of finding possible economic mineralization. A number of promising anomalous-chargeability zones have been identified (TP-1 through IP-10, cf. Plate CM-3), and more than a dozen prioritized targets have been selected (T-1 through T-16) and recommended for further follow-up studies. Detailed discussions of these IP zones and targets shall be discussed in this section.

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5.3.1 The Resistivity Data

From the resistivity results, the areas showing resistivity-highs are labelled (eg. H, VH, WH, etc.) along each of the survey lines. No apparent overall resistive trends are readily observed from the compilation map (see Plate CM-3). Thus, only localized association of a resistive-high with each of the target areas will be discussed, if and when such a concurrence existed.

ha contrast, numerous resistivity-low zones (RL-1 through RL-13) have been delineated; some of these have partial correlation with the various identified IP-anomalous zones. Owing to the selected line-spacing of only 100 m over the entire grid, the interpolation here (for both the RL- and IP-zones) should be quite acceptable. As an overview, it was noted that the grid could be divided into two distinct regions: an area to the north of the grid, and an area to the south, separated by a central zone (which roughly range from Station Nos. 10000N to 10400N) where no apparent resistivity-lows are observed. In contrast, both the northern and southern regions have numerous zones of resistivity-lows, mostly trending approximately east-west, with a few trending north-east as well (cf. Plate CM-3).

In the northern region of the grid, a large resistivity-low zone, RL-1, striking roughly east- west, as well as north-easterly in the mid-region, was identified as one of the prominent geoelectric features in the area. It extended from Lines 9400E to 10700E, and was observed to be partially correlated with the chargeable zones IP-6, IP-7 and IP-8. Additionally, four important target areas (T-12, T-13, T-14 and T-15) were located within RL-1. These targets shall be discussed subsequently in more detail. A second, but less extensive resistive-low zone is RL-2; this is located near the south-east corner of the grid, from Lines 10400E to 10700E. Two important targets (T-4 and T-5) are positioned within RL-2, which correlate well with the chargeability zone, IP-3.

Numerous other resistivity-low zones have been identified, with quite good line-to-line correlation in their resistivity values (eg. RL-4, RL-5, RL-6, RL-7, RL-8 and RL-9). However, these generally do not appear to follow closely the various defined IP zones. Also, there are several occurrences where the resistivity-lows are apparently very localized (across 1-2 lines only); these probably have little geologic significance.

5.3.2 The IP-Chargeability Data

In this grid, at least ten anomalous IP-zones have been delineated from the chargebility data. Some of these are relatively extensive in strike-length, albeit somewhat narrow in width ^ 100 m ); a number of these notable anomalies can become wider at depth (cf. the colour-plotted standard pseudo-sections attached). The zones trend generally east- west, with occasional ones striking north-east (eg. IP-1 and DP-4).

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In the soth-west comer of the grid, a long, anomalous-chargeability region was identified and labelled as DM; it extends from Lines 8500E to 9800E, striking roughly in the north easterly direction (Plate CM-3). This is an IP-zone of moderate priority; it encompasses four target locations (T-7 though T-10), whose details are discussed in the next sub section 5.3.3. To the east of IP-1, three other chargeable zones have been identified: IP- 2, IP-3 and IP-10. IP-2 has two important targets, T-1 and T-2; and this zone is ranked high in priority. Adjacent to and just north of IP-2 is zone IP-3; wherein three target- areas (T3, T-4 and T-5) are located. IP-3 is ranked medium priority. Just north of IP-3 is the small, localized zone, labelled IP-10; this is associated with a medium-priority target, T-6. Finally, in the southern-half of this grid, to the north and west of IP-1, two other chargeable areas have been identified: EP-4 and IP-5; the latter has a target, T-11, contained therein. These zones are ranked low and medium priority respectively.

In the northern-half of the grid, at least four anomalous-chargeability zones have been identified (IP-6, IP-7, IP-8 and D?-9). IP-6 is ranked high priority, since it contains three important targets, T-12, T-13 and T-14. IP-7 and IP-8 each has one target (T-15 and T- 16 respectively), both zones are ranked medium priority. Finally, the last chargeable zone is IP-9, located to the northern edge of the grid. It is ranked low in priority, and even though no target has been selected, this zone appears to correlate well with the resistivity-low zone, RL-10.

5.3.3 Selection of IP-Targets

In this important grid, as many as 16 IP-Targets have been selected and prioritized. These were recommended for detailed follow-up studies in the near term. The particulars of each of these targets are listed and described in the following:

Targets T-1 and T-2: Both of these are ranked high priority; they are encompassed within the chargeable zone, IP-2. Their Spectral-M values are just over 540 mV/V, amongst the largest in the grid (indeed, the highest M-D? values of all three grids). Their decay time-constants (TAU) are short to medium in duration, suggestive of the possible presence of fine-grain mineralization. There is apparently some association with nearby resistivity-highs, indicative of possible silicification/alteration process in this vicinity. Further, T-1 and T-2 are positioned right next to each other (on the two adjacent Lines 9900E and 10000E, close to Station No.~9200N); this correlation would tend to suggest that these two target areas should be ranked somewhat higher in priority than the other high priority targets. Adjacent and to the north of T-1 and T-2, the standard pseudosection plots of Lines 9900E and 10000E show possible shear zones, indicative of geologic alterations, eg. hydrothermal processes which may be relevant to fine-grain sulphide and possibly gold formation (it would be even more desirable if the Spectral-M values were found to exceed, say 800 mV/V — which could improve the odds, considerably).

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Targets T-3, T-4 and T-5: these three targets are located in EP-3, and are ranked medium priority. Their Spectral-M values are in the range of 350-420 mV/V; with relatively long time-constants, suggestive of coarser-grained mineralization in these target areas. T-3 appears to be associated with local resistivity-high, whereas T-4 and T-5 are more closely related to resistivity-lows (RL-2).

Target T-6 : this is ranked of medium priority, and is located within IP-10. Its M-DP value is 370 mV/V, with a long time-constant. Deeper (^6) and just north of T-6, a localized resistivity-low is observed.

Targets T-7. T-8, T-9 and T-10 : these four targets are located in the IP-1 zone. Interestingly, not one of them are seen to associate with the resistivity-low zone, RL-7. These targets are ranked of low priority (compared to the other targets in this region), despite their moderate M-D? values of 268-358 mV/V. They are found to mostly associate with resistive zones, apart from T-8 and T-9. All have long time-constants, except T-8.

Target T-ll: this is ranked medium priority; it is situated in a resistive zone (silification), within the IP-5 zone. Its M-D? value is a respectable 390 mV/V, but it has a long time-constant.

Targets T-12, T-13 and T-14 : these three important targets are located within the IP-6 anomalous zone. T-12 is rated high priority; its Spectral-M value is quite large, at 488 mV/V. Additionally, it has a short time-constant ^0.1 sec), suggestive of fine-grained mineralization. To its southern flank, the presence of a shear zone is suggested based on a study of the standard pseudo-section plot for Line 9400E. This would imply the presence of some geologic alteration in the vicinity. Along the line, to the south, a moderately resistive zone is observed, indicative of possible silicification process. Hence the importance of this target area. T-13 and T-14 are both rated of medium priority; their M-IP values range from —450-466 mV/V, with short to long time-constants. Owing to the lack of evidence for the presence of moderately high resistivity values in the vicinity of these targets (they apparently coincide more closely with resistivity-lows defined by the RL-1 zone), they are rated medium instead of high priority.

Target T-15 : this is rated medium in priority. It is located within the IP-7 zone, roughly correlating with the resistivity-low section of RL-1. Its Spectral-M is high, at 536 mV/V; but its time-constant is of long duration.

Target T-16 is also rated of medium priority. It is located within the EP-8 anomalous zone. Its Spectral-M value is a respectable 439 mV/V, with an associated long time- constant. Since there is no resistive anomaly seen in this locale, silicification may be less prominent, hence the rating assigned to this target.

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As a final comment, one should note that the IP and Resistivity responses of the Bateman Lake Property area show rather complex distributions of the Chargeability- and Resistivity-anomalous zones. Additionally, one should note that there are numerous other instances wherein locations having rather high posted M-IP values may not be included within any IP-zone, nor have they been selected as targets. In such cases, the corresponding pseudo-sections themselves should be studied to appreciate the implied reasonings behind their de-selection (eg. the IP-anomalies may be too localized and limited in extent, to be of interest).

6. RECOMMENDATIONS AND CONCLUDING REMARKS

Of the three grids in this IP/Resistivity Survey, the Bateman Lake Property Grid shows the most promise in the search of possible economic mineralization. Over a dozen targets have been selected for follow-up work in this area; many of their Spectral-M values are in excess of 450 mV/V, with short to medium time-constants (probably relating to the presence of fine-grained mineralization), and often with closely associated resistivity- highs which could be indicative of possible silicification process. Many of these targets are ranked medium to high priority, and strongly recommended for more detailed studies in the near term. To further prioritize these IP targets and zones, a geochemistry sampling program is recommended. The sampling should be taken 'down-ice', along the defined IP trends/zones. In areas of deep overburden (eg. n=2 or deeper), enzyme leach techniques may be employed.

Next, the Glenwater Property Grid is ranked second in importance, as far as the IP/Resistivity responses are concerned. About half a dozen targets had been selected here, mostly of low to medium priority, the maximum Spectral-M values being below 360 mV/V in this area.

Finally, the Horne Township Property apparently show less significant IP-responses, and is ranked last in importance.

However, one should be aware that both the Glenwater Property and the Horne Township Property were surveyed with the larger line-spacings of 200-400 m, hence the above overall conclusions about these two properties should be regarded as somewhat preliminary, ie., more definitive conclusions could only be drawn if and when the EP/Resistivity data were acquired at the standard 100 m line-spacings, as per the Bateman Lake Property.

J VX

If there are questions with regard to the survey or its interpretation, kindly contact the undersigned.

Respectfully submitted,

JVX LIMITED

rT Andrew G. Hwang, Ph.D Geophysicist

Mr. Slaine Webster, B.Sc. President

[cc7CW7a:glenwtr.rep]

43-

APPENDIX A

i IPR-12 Time Domain Induced Polarization/Resistivity Receiver

l Brief Description

l l l l l l l l l l l l l l l

The IPR-12 Time Domain IP/Resistivity Receiver is principally used in exploration for precious and base metal mineral deposits. In addition, it is used in geoelec- trical surveying for groundwater or geothermal resources, often to great depths. For these latter targets, the induced polarization measurements may be as useful as the high accuracy resistivi ty results since it often happens that geo logical materials have IP contrasts when resistivity differences are absent.

Due to its integrated, lightweight, micropro cessor based design and its large, 16 line display screen, the IPR-12 is a remarkably powerful, yet easy to use instrument. A wide variety of alphanumeric and graphical information can be viewed by the operator during and after the taking of readings. Signals from up to eight potential dipoles can be measured simultaneously and recorded in solid-state memory along with automatically calculated parameters. Later, data can be output to a printer or a PC (direct or via modem) tor processing into profiles and maps.

The IPR-12 is compatible with Scintrex IPC and TSQ Transmitters, or others which output square waves with equal on and off periods and polarity changes each half cycle. The IPR-12 measures the pri mary voltage (Vp), self potential (SP) and time domain induced polarization (Mi) characteristics of the received waveform. Resistivity, statistical and Cole-Cole parameters are calculated and recorded in memory with the measured data and time.

Scintrex has been active in induced polar ization research, development, manufac turing, consulting and surveying for over thirty years. We offer a full range of instru mentation, accessories and training.

The IPR-12 Receiver measures spectral IP signals from eight dipoles simultaneously then records measured and calculated parameters in memory.

Benefits

Speed U p Surveys

The IPR-12 saves you time and money incarrying out field surveys. Its capacity to measure up to eight dipoles simultaneous ly is far more efficient than older receivers measuring a single dipole. This advantage is particularly valuable in drillhole logging where electrode movement time is mini mal.

The built-in, solid-state memory records all information associated with a reading, dis pensing with the need for any hand written notes. PC compatibility means rapid elec tronic transfer of data from the receiver to a computer for rapid data processing.

Taking a reading is simple and fast. Only a few keystrokes are virtually needed

since the IPR-12 features automatic circuit resistance checks, SP buckout and gain setting.

High Quality Data

One of the most important features of the IPR-12 in permitting high quality data to be acquired, is the large display screen which allows the operator easy real time access to graphic and alphanumeric displays of instrument status and measured data. The IPR-12 ensures that the operator obtains accurate data from field work.

The number and relative widths of the IP decay curve windows have been carefully chosen to yield the transient information required for proper interpretation of spec tral IP data. Timings are selectable to per mit a very wide range of responses to be measured.

Specifications

Inputs1 to 8 dipoles are measured simultaneously.

Input Impedance16 Megohms

SP Bucking 10 volt range. Automatic linear correction operating on a cycle by cycle basis.

Input Voltage (Vp) Range50 uvoltto 14 volt

Chargeability (M) RangeO to SOOmillivolt

Tau Range1 millisecond to 1000 seconds

Reading Resolution of Vp, SP and MVp, 10 microvolt; SP, 1 millivolt; M, 0.01 millivolt/volt

Absolute Accuracy of Vp, SP and MBetter than 1 "/o

Common Mode RejectionAt input more than 100db

Vp Integration Time1007o to 8007o of the current on time.

IP Transient Program Total measuring time keyboard selectable at 1, 2, 4, 8, 16 or 32 seconds. Normally 14 windows except that the first four are not measured on the 1 second timing, the first three are not measured on the 2 sec ond timing and the first is not measured on the 4 second timing. (See diagram on page 2.) An additional transient slice of minimum 10 ms width, and 10ms steps, with delay of at least 40 ms is keyboard selectable.

Transmitter TimingEqual on and off times with polarity change each half cycle. On/off times of 1, 2, 4, 8, 16 or 32 seconds. Timing accuracy of 100 ppm or better is required.

External Circuit TestAll dipoles are measured individually in sequence, using a 10 Hz square wave. The range is O to 2 Mohm with O.lkohm resolution. Circuit resistances are dis played and recorded.

SynchronizationSelf synchronization on the signal received at a keyboard selectable dipole. Limited to avoid mistriggering.

FilteringRF filter, 10 Hz 6 pole low pass filter, sta tistical noise spike removal.

Internal Test Generator1200 mV of SP; 807 mV of Vp and 30.28 mV/V of M.

Analog MeterFor monitoring input signals; switchable to any dipole via keyboard.

Keyboard17 key keypad with direct one key access to the most frequently used functions.

Display16 lines by 42 characters, 128 x 256 dots, Backlit Liquid Crystal Display. Displays instrument status and data during and after reading. Alphanumeric and graphic dis plays.

Display HeaterAvailable for below -15"C operation.

Memory CapacityStores approximately 400 dipoles of infor mation when 8 dipoles are measured simultaneously.

Real Time ClockData is recorded with year, month, day, hour, minute and second.

Digital Data OutputFormatted serial data output for printer and PC etc. Data output in 7 or 8 bit ASCII, one start, one stop bit, no parity format. Baud rate is keyboard selectable for stan dard rates between 300 baud and 51.6 kBaud. Selectable carriage return delay to accommodate slow peripherals. Hand shaking is done by X-on/X-off.

Standard Rechargeable BatteriesEight rechargeable Ni-Cad D cells. Supplied with a charger, suitable for 110/230V, 50 to 60 Hz, 10W. More than 20 hours service at -i-25'C, more than 8 hours at -30'C.

Ancillary Rechargeable BatteriesAn additional eight rechargeable Ni-Cad D cells may be installed in the console along with the Standard Rechargeable Batteries. Used to power the Display Heater or as back up power. Supplied with a second charger. More than 6 hours service at-30'C.

Use of Non-Rechargeable BatteriesCan be powered by D size Alkaline batter ies, but rechargeable batteries are recom mended for longer life and lower cost over time.

Operating Temperature Range-30'C to 4-50'C

Storage Temperature Range-30'C to -t-50'C

DimensionsConsole: 355 x 270 x 165 mm Charger: 1 20 x 95 x 55mm

WeightsConsole: 5 .8 kgStandard or Ancillary RechargeableBatteries: 1 .3 kgCharger: 1 .1 kg

Transmitters availableIPC-9 200 W TSQ-2E 750 W TSQ-3 3 kW TSQ-4 10kW

In Canada

222 Snidercroft Rd. Concord, Ontario Canada, L4K1B5

In the U.S.A.

85 River Rock Drive Unit # 202 Buffalo, N.Y. U.S.A. 14207

IPR-12/94

Tel.: (905) 669-2280 Fax: (905) 669-6403 Telex: (905) 06-964570

Tel.: (716)298-1219 Fax: (716)298-1317

JU— a *** a —J-*- a —*tt- a t*, a —J*-

Apparent Resistivity:

ARRAY GEOMETRY

Vp/I

where /-'a r apparent resitivity (ohra.m)n = dipole number (dimensionless)a ^ dipole spacing (m)Vp - primary voltage (mV)I - p rimary current (raA)

Pole-Dipole Array Array Geometry and Formula for Apparent Resistivity

l l l l l l l l l l l l l l l l l l l

and Commutated DC Resistivity Transmitter System

DANGER HIGH VOLTAGE

Function

The IPC-7/2.5 kW is a medium power transmitter system designed (or time do main induced polarization or commutated DC resistivity work. It is the standard power transmitting system used on most surveys under a wide variety of geophysical, topographical and climatic conditions.

The system consists of three modules: A Transmitter Console containing a transformer and electronics, a Motor Generator and a Dummy Load mounted in the Transmitter Console cover. The purpose of the Dummy Load is to accept the Motor Generator output during those parts of the cycle when current is not transmitted into Ihe ground, in order to improve power out put and prolong engine life.

The favourable power-weight ratio and com pact design of this system make it portable and highly versatile for use with a wide variety of electrode arrays.

Features

Maximum motor generator output, 2.5 kW; maximum power output, 1.85 kW; maximum current output, 10 amperes; maximum voltage output, 1210 volts DC.

Removable circuit boards.for ease i n servic ing.

Automatic on-off and polarity cycling with selectable cycling rates so that the op timum pulse time (frequency) can be selected for each survey.

The overload protection circuit protects the instrument from damage in case of an overload or short in the current dipole cir cuit.

The open loop circuit protects workers by automatically cutting off the high voltage in case of a break in the current dipole circuit.

Both the primary and secondary of the transformer are switch selectable for power matching to the ground load. This ensures maximum power efficiency.

The built-in ohmmeter is used for checking the external circuit resistance to ensure that the current dipole circuit is grounded properly before the high voltage is turned on. This is a safety feature and also allows the operator to select the proper output voltage required to give an adequate current for a proper signal at the receiver.

The programmer is crystal controlled for the very high stability required for broadband (spectral) induced polarization measurements using the Scintrex IPR-11 Broadband Time Domain Receiver

Technical Description of IPC-7/2.5 kW Transmitter System

Complete 2.5kW induced polarization system including motor-generator, reels with wire, tool kit, porous pots, simulator circuit, copper sulphate. IPR-8 receiver, dummy load, transmitter, electrodes and c lips.

IPC-7/2.SKW transmitter console with lid and dummy load.

T T

T T T T

Time Domain Waveform

Transmitter Console

Maximum Output Power

Output Current

Output Voltage

Automatic Cycle Timing

Automatic Polarity Change

Pulse Durations

1.85 kW maximum, defined as VI when cur rent is on, into a resistive load

10 amperes maximum

Switch selectable up to 1210 volts DC

T:T:T:T; on:off:on:off

Each 2T

Standard: T = 2 ,4 or 8 seconds, switchselectableOptional: T - 1,2,4 or 8 seconds, switchselectableOptional: T = 8 ,16,32 or 64 seconds, switchselectable

Voltage Meter

Current Meter

Period Time Stability

Operating Temperature Range

Overload Protection

Open Loop Protection

Undervoltage Protection

Dimensions

Weight

Shipping Weight

1500 volts full scale logarithmic

Standard: 10.0 A full scale logarithmic Optional: 0.3, 1.0, 3.0 or 10.0 A full scale linear, switch selectable

Crystal controlled to better than .01 "/o

-30"Cto + 55-C

Automatic shut-off at output current above10.0 A

Automatic shut-off at current below 100 mA

Automatic shut-off at output voltage less than 95 V

280 mm x 460 mm x 310 mm

30kg

41 kg includes reusable wooden crate

Motor Generator

Maximum Output Power

Output Voltage

Output Frequency

Motor

Weight

Shipping Weight

2.5 kVA, single phase

110V AC

400 Hz

4 stroke, 8 HP Briggs A Stratton

59kg

90 kg includes reusable wooden crate

222Snidercroft Road Concord O ntario Canada L4K 1 B5

Telephone: (416) 669-2280 Cable: Geoscint Toronto Telex: 06-964570

Geophysical and Geochemical Instrumentation and Services

HUNTEC

MA IP TRANSMITTER SYSTEM

MODEL 2500

OPERATOR'S MANUAL

l

WARNING

THE CURRENTS AND VOLTAGES PRODUCED BY THIS INSTRUMENT SYSTEM ARE DANGEROUS TO LIFE AND CAUTION SHOULD BE EXERCISED DURING USE.

L

L

LTT. T - or IP Transmitter 2500,May 15, 1980

Huntec Diversified Technologies 1750 Brimley Road, Scarborough, OntarioM1P 4X7. Canada'

Telephone: (416) 299-4100Telex : 06-963640Cable: HUNTOR, TORONTO

1.2 SPECIFICATIONS a) Power: 96-144 V line to line, 3 phase,400Hz

(from Huntec generator set) f 2500W

b) Output:

c) Current regulator

Voltage: 150-2200V de in 8 steps Current: 7A maximum on low ranges

"C. 1Z current change for 103! change in load resistanceSettling time to 1 7. approximately 15 msec

d) Output frequency (selectable in binary steps on front panel) :

1/16 Hz to IHz (time domain and complex resistivity) 1/16 Hz to 4 Hz (frequency domain)

e) Frequency accuracy: 50 ppm, -30 C to 60 O C

f) Output duty cycle- defined as'ON 7 (t ON * tOFF )

Jj to 15/16 in increments of 1/16(time domain)

15/16 (complex resistivity) 3/4 (frequency domain)

g) Output currentme ter:

Two ranges - 0-5A, O-IOA

h) Ground resistance me t e r :

Two ranges - 0-10K ohms, 0-100K ohms

i) Input voltage meter:

0-150V

j) Dummy load: Two levels: 500W, 1750W

k) Temperature range: -34 C to 50 C

1) Size: 53 x 43 x 29cm (21 x 17 x 11.5 ins)

m) Weight: 26 kg (57 Ibs.)

IP Transmitter 2500 Section l May 15, 1980

APPENDIX B

GLENWATER PROPERTY

TAU(msec)

Spectral—M (mV/V)

Chargeability(mV/V)

Resistivity(Ohm.m)

11=3

0=4

11=5

11=6

0=1

0=2

0=3

0=4

0=5

0=6

0=1

0=2

0=3

0=4

0=5

0=6

109+00 N 109+50 N 110+00 N 110+50 N 111+00 N 111+50 N 112+00 N

0.10 0.10 7.8 -.500 xx O 63 16 0.10 31 3.9 31 3.8 7.8 0.50 0.10 0=1

0=2 31 O 0.10 \50ox, o 125 2 125 31 31 62 7.8 0.50 3.9 0=2

62 62 31 U .1000. Y\A O 62 0.50 62 31 0.10

1.00 260 \ 500

16 62 250 \ 500

16 62

O 16 16 31 31 0.10 0.10 62

O 62 0.50 3.9 2 0.10 31 — v

62 7.8 16 * ' 1000 -XN O 3.9 82 16 0.20 0.10

0=3 0=4

0=5

0=6

109+00 N 109+50 N 110+00 N 110+50 N 111+00 N 111+50 N l12+00 N

.C.. 40 52 ,

'pTjmV 51 44 ( ( "67 \ V 40 "O. 68 —~. 52*~Wl L ^ t-^C^^^. ^\^m."fA^rr153 0=1

52" ^S 80 1^103 J; 70 0=2

11=3 0=4

0=5

0=6

IP-1 I P - l

109+00 N 109+50 N 110+00 N 110+50 N 111+00 N 111+50 N 112+00 N11=1

1*1=221,1=0.53.8

2.7 ^-3.2 \ 2.8 2.4\

.3.8 3.1 " 2.B x- '8.2* -2.7 - 4

2.5 1.00 0=1

1.6 x 0.30

0=2

0=3

0=4

0=5

0=6

109+00 N 109+50 N 110+00 N 110+50 N 111+00 N 111+50 N 112+00 N

56 110 IW

VWH(3)

- 164 - 205 202 \ 577 -363 307 297 -^,206 224 187 0=1

176 ^ 188 —— 202 —— 208 —— 229 ^ 314 \ 246 312 ^ 729 \ 370 439 455 340——301

239 273 269^^^-325 347 310 —— 305 333 \ 658 ^457 , 529 652^N 377

322 330 378 437 332 315 307 289 \ 782 \ 532 694 869

371 436 485 419 452 301 262

473 ^ 537 495 486 440 ' 251 307

701 684

'Tl73 ^ 698

0=2 0=3 0=4 0=5 0=6

TAU(msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

Line 3600 E

Pole— Dipole Arrayna

a - 25.0 M

plot point

Resistivity and Chargeability Anomalies

........ Very Strong

........ Strong

........ .Medium

....... .Weak

........Very Weak

xxxxxxx- ......... Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

-J t- (metres)

AVALON VENTURES LTD.INDUCED POLARIZATION SURVEY

GLENWATER TWP./SHABAQUATHUNDER BAY AREA, ONT.

Date: 97/03/21

JVX LW. (Ref. 9680, Jan 1997)

TAU

(msec)

Spectral—M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

110+50N^v m*.. 111+OON 111+50N , 112+OON | 112+50N , —— 113+00 N , 114+OON 11MOV

116+00 N 116+50N 117+OON 117+50N . 11B+OON ———— 118+BON ———— 119+OON ———— 119+SON ———— 120+OON ———— 120+50N , ,121+OON , 121+50 N ———— 122+OOJ ———— 122+50N , 12S+OON ———— 123+50N . 124+OON 124+50N . 125+OON 125+50N 126+QQN

0=1 0.10 0.10 OJO 0.10 31

n-2 g.ig 0.10 OJO 0.10 \^J2

n-3 2 0.10 0.10 0.10 0.10 0.10

ns4 0.60 0.10 0.10 0.10 2* 31 0.10 3.9 OJO

nz5 7.8 0.10 0.10 0.10 0.10 OJO 060 0.10

nz6 0.10 0.10 0.10 0.10 3.9 OJO 0.10 7.8

0=3 0=4 0=5 0=6

tu 0 10

flu1.00 0.10 0.10 0.10 7.8 OJO 2 HO

31 OJO 7.0 0.10 0.10 2 1.00 0.102 0.10 7.6 0.10 0.10 0.10 UO 0.10 OJO 31 0.10

0.10 f"""") "' * W0 Wfl al0 Oil0

fc20——0.10 OJO 0.10 0.10 0.10 0.10

MO 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 MO MO 0.10 0.10 MO MO 0.10 0.10 OJO 0.10 OJO OJO MO MO OJO OJO 0.10 MO MO 0.10 0.10 MO MO MO 0.18 0.10 OJO OJO OJO MO MO OJO OJO 0.10 0.10 MO 16

MO OJO OJO OJO MO MO MO OJO MO MO OJO OJO MO MO OJO MO 0.10 MO MO MO OJO MO MO 0.10 0.10 MO OJO OJO MO MO MO OJO OJO 2 OJO OJO MO MOj^JJO 7J 3.9 0.10 OJO OJO

-3.9 3J OJO OJO 0.10 MO OJO 0.10 OJO MO OJO OJO MO OJO MO 0.10 OJO MO OJO MO 0.10 MO OJO OJO OJO OJO 0.10 OJO OJO OJO MO MO 10 5 OJO (jT} OJO *1^|^3^!' -x *M (^T^J^^ M" U'

OJO ^""iT^ MO MO MO MO MO OJO MO MO MO OJO OJO MO OJO OJO OJO OJO MO OJO OJO MO MO MO 0.10 MO MO OJO OJO MO MO UO OJO MO 1J OJO —

010 .W——010 7J OJO 0.10 OJO 0.10 0.10 M, M, MO OJO OJO MO OJO OJO 0.10 MO MD OJO MO MO MO OJO OJO MO OJO OJO OJO OJO U 3.9 0.10 2.5 O

OJO

Ul U. L. U. U. 0.10 0.1, 0.10 OJO OJO OJO MO MO 0.10 0.10 OJO 0.10 MO MO MO MO OJO OJO OJO 0.10 OJO OJO MO MO 110 MO MO 0.10 OJO OJO —— u

117+50N 116+OON 118+SON 119+OQN 119+50 N 120+OON . 12Q+50N 121+OON 121+50N 122+00 N 122+50N , 123+OON ,123+MN 124+OON 124+50N 125+OON 125+50N 126+00N

87 87 87 (7(7878787876787(787878787676787878787878787676787

(7(7(767670767676787(767676767876767(76767876767(5

67 0767(7(7878767876787676767878787

4. 'S/r. iio^v 42 38

"-^.44X^85—— 87^64

67VA21, 21 l 44 /20 "

V40 40-—— H 40 —— 40 —— 40 —— 40

30 39 42 ^5?^ 40 42 40 4248 46/50/74 78 76

42 48 l 62/Ofc-

30—-40 —— 40 43 M wywx

*2 40 44 40 40 -'•W/ /M

55 62 —^63 62 59 ^ 74

I P - 2

110+50 N 111+OON 111+50 N 112+00 N 112+50 N 113+00 N 113+50N 119+50N 120+00 N 120+50 N 121+00N 121+50 N 12atOON 122+SON 123+OON 123+50N 124+OON 124+5QN 125+OON 125+50 N 126+00 N

2.1 2.3' 2.8

ILE 2.2' 1J

W 2.0 2^ 2J

M=97,T.125J\ - 1 .0 1.0 U U i^^^-l-' 8

U 1.0 1.8 1J 1J

1.4 1.6 1.8 /2J

11=110.1=00.10 OJO OJ7 042 0.14 0.17 0.28 0.43 O.S6 OJ1 (Ul 0.47 Oi? 121 0.32 0.23 0.55 OJ1 0.70 090 ~ O-TO

1J ——" 1.0

1.0

1J\2J U -Û) U U 1.6 U /U îy ^.74 -0.17 ^ U \3jJ UU Vj*^ 8 ) ** 9M ^

OJO ^2 7 3.0 /M/ U U U U ZJV^JI OJ2 -0.06 \ 2J U/ 1?\ 18^2/0.47^ O*,.7 v u) i (3j^w \i_u u u/ v //**/^ i " MI ^"-" j v®)/ ^ /-\ o- y) /^——* \— 1 .9 2J U' U 2-^^2J-X 4jOO /2J' 1.1——'B ^ OJ4 OJ7 2J 2.6——^^1.8 2.2 2.1 1J

U —— 1.1 —- OJ2 -OJO 0.080 OJO OJO -OJ4 OJ4 OJO OJ2

2 j -426 0.41 0.000 .72 -l 0.19 OJ6 -—— 1.1 l 0.01 ' L4

0.42 0.040 0.30 OJO M7 0.74 0.76 0.87 0.49 0.48 0.44 0.48 0.70 0.01 0.84 U U 17 li 1.8

0.000 0.20 OJO 0.73 0.65 0,08 0.68 0.66 0.67 0.52

.47 0.73 OJ6 .71 -U 0.42 OJ4 1.7 .96 1J 1.7 l J j 0.64 OJO 0.43 0.87 OJ6 S 1J^——-1 0.03 OJO 0.85 0.78 OJ3 OJ3 1.00 1J 1.7

-Z.6 OJ2 .t? ' 1.7 1J ^ 2.1

-3.3 OJ8 OJO 2.1 U ^ 2J S -—' 3J^ U 1.4 ^ 0.76 ^ 1.8 ^ OJ6 ^ L3

U 1.1 -— 0.00 OJ7 0.61 OJ7 ^~ 1.1 C J.72 0.68 f til* i n ^* nrK \

1^— OJ7 0.94 0.72 /lZ

1.1 U IJi 1.1 ' 0.73

~ OJ6 U .68. 0.78 j 1.1 OJ4^ J.93 1.1 - OJ4

1J 1J 1.5 1.7

1.7 1.0

U ZJ ~2.2 2J 2J~^— f 2.3 2.2 2.4 2.7

1.00 2.8 10 U 2J 3.8

2.4 2.8 2.6 2.73.1-3.34.7

3.1 SJ^ 2.4 2.8 23 /SJ 3.8 4.0 5J 6.7 5.8 5.7

110+50 N 111+00 N 111+50 N 112+OON 112+50N 113+0011 ' ' VWH(4)

113+50N 114+OON 114+50N 115+00 N 115+50 N 116+OONg- VWH(l)

116+50 N 117+OON 117+50 N ~

118+00 N 118+50 N 119+00 N 119+50 N 120+00 N 120+50N 121+00N 121+50N 122+00 N 122+50N 123+00 N 123+50 N 124+00 N 124+50 N 125+00N 125+50 N 126+00 N

0=1

0=2

0=3

0=4

0=5

0=6

672-374 363 347 -^210 247 212 -^. 180 178 144 ^ W

401 oo *m~ S52 îno^ZBS 'al -——ara aw x s" v 184^^.*"B. 600\ 300

S4B X ^TTO^Kl^ 648 847 X*. 408 302 366 610 —— 520^*4 \a8^167 \ 463 588^ ^

*8 \8WXM* *" 706 \ 433 475 __4(9,^651 709 576^-486^ ^X^X^ 500 491^ ^

300\ 040X^094 706 746 488^562 870 703 p83. 834 I78N. 313 212x^604

\17* Hl63 -^TSO 728 K2 564 748""loT"^ 737 018^- 720 695" 346 209 \ 500

Low ReSsistivity02 _- JO W _^ 102 130 103

07 00 .100 —— 115 183 120 137 S 104 14 100 100 107 1672(0 ^ Sil s 137 112 110 140 —— 101 142 160 210 ^ Ml 102 131^ 103, lil __ 107 Vl66 124 134

160 —— ISO 103 1(2 163 —— 164 103 i2 288 170 105156031 482 304 400 371 .500-^Wl ^280 217 f 371 295-^346104 177 160 102 215/326 337 ^-274 \ 100 207707 542 567 ^-482 tU-—m\ au 210^ 224 231 240 300——^327 401 442 478

104 188 104 103 O 304 422740 050 662 672260 020 lOBT* 030 042 1

+50N 127+OON 127+50N———— i i —— ,

SjJJvN. __ i* 02 . K 0.10f\^K _ K/) M/-^y \J" ~v \ \

' 125 125 j 02 31

8g^J5aA\\ (2 (j

H50N . 127+OON 127+50Ni ———— i —— i

H 48 41 -^Ji4i 87

1 f '*NV.J*,-/ W 87

os oe "" it /, yi^ /* \ f ' 'i \ — n y' ei n 42vOL-^ ** ™

^^~ ~ ~~) 92 M

— QO

•50 N 127+00 N 127+50 Ncxxxx 1 —— ' — 'xxxxx' — ' — ' — '^4

0.5 M=89,T=(2J 2 2J 2.5- OJ4f-û/^^3.7 4 ' '

- ___ /* \* / *I 42 48 \ 2.2

^47^^^^ 6.1 V 44

l 6.7 U

•SON 127+OON 127+50 N

tmA mtt KM taut mmm;^^r^\^y/™/- "\ \\\ **j* fm, 142,^40,

; 1503 1092 V^lOll

1343 1327 ) 1776

1134 1045

T A TT 1AU

(msec)0=10=20=30=40=5 0=6

Spectral-M(mV/v)

0=10=20=30=4

0=50=6

Chargeability(mVA)

0=10=20=30=40=50=6

Resistivity(Ohm. m)

0=1 0=20=3 0=4 0=50=6

——————— —— ———————————————— ————— ——————————— ———

Line 3600 E

Pole -Dipole Array, a na ai ———— —— i ——— i

' ®-j j-®-j\ s

\a s 25.0 Mv

plot point


——————...........Very Strong

—————— '"•••••••Medium

xxxxxxxx- . . . . . . . . . -Extremely Weak

Scale 1:25002SÔ 25 50 75 100 125 150

(meters)


GLENWATER TWP./SHABAQUA THUNDERBAY AREA, ONT.

Date: 97/01/27 Scintrex IPR-12 Rx

JVX LW. (Ref.9880, Jan 1997)

TAU (msec)

Spectral—M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

106+50 N 107+00 N 107+50 N 108+00 N 108+50 N 109+00 N 109+50 N 110+00 N 110+50 N

11=1 0.10 31 3,9 0.10 0.10 0.10 0.10 0.10 0.10 3.1 31 31 62 31 1.00 125 0.10 0.10 11=1

11=2 0.10 31 7.8 7.B 0.10 0.10 0.10 3.9 0 .20 0,10 31 125 250.80 82 125 3.9 11=2

11=3 2 62 31 IB 0.50 7.8 31 62 62 6! !^125 250 Vfim 580 ^82 62 11=3

11=6

n=611=8 62 31 125 - 250 —— 250 —— 250 ^ 250 —— 250 250

106+50 N 107+00 N 107+50 N 108+00 N 108+50 N 109+00 N 109+50 N 110+00 N 110+50 N

67 __ 67 67 67 67 __ 67-^-40

V s 67 66 67 //wNv 80

48 -v 84 :;— 84 x 74 ^ 86 -"^ 104 —- 94 ^ 86S48 f 36 , 40

66 l 60 92 f / 1 17 112 114 ^ 109

76 71 ——' 72 66 ^ 56 ' 67 66 ' 14

0=1

0=2 0=3 0=40=5 0=6

106+50 N 107+00 N 107+50 N 108+00 N 108+50 N 109+00 N

I P -

109+50 N 110+00 NL-J--L-i--L.-i-.-J

110+50 N

1*1=133,44, 1=011=1 1.9

0=3 0=4 0=5 0=8

n=4 ^1=104,1=2

'T"v2.7 \ 1.1 X 2.4 2.4 l 3.3 3.7/ 4.7 X 6.6 C BJ B.9 6.4 \ " 4.9

3.3 ^ 3 -—,2.7-^^- 3 ———— 3 3.9^ 4.6 f 8.7 5 j 7.3 7.3 \ 6.7S————^ l /^^—— t

3.7 3.5 -4.2 3.7 ' 5 5 4.B ' 5.B ' 8 .1 ~-~- 7.1 7.4 7

Near Surface - Low Resistivity

1.4 U 0-40 0.50 0.60 0.70 ^- 1.00 1,6 2.2 -.1.8- 2.22.6 2.1 2.9 - 0.90

0.90 1.6 1.6 1.4 2.7 ~^ 3.61.9 ' 2.3 "-- 1.9. 1.6

li 1.6 1.8 X 2.4 2.8 ^-^ 3.B

106+50 N 107+00 N 107+50 NH———i———t—

108+00 N 108+50 N 109+00 N 109+50 N 110+00 N l10+50 N

11=1 189 ^^ 128 82

0=2 278^^ 178 ~— 150

11=3 330 -^843"-- 196

n=4 403 286 __ 280

11=5 443 390 350 320 \ 229 ~~~~^ 184

53 69 ——

:-^iZl!LZl- 71 x /- - - \ -\132 113 109105——— 103 129 X 197 168 178 328 484__^418

147 __ 142 __ 140 130 X 193 189 174 208 326 \ 611V \ \

193 200 \ 383

57B ^-489 434 380 ^ 267 224 206 234 ' ' 1 11 ^ 184 -^206- 189 ' 225

VWH(l)

135 \ 183 278——.228 300 476 11=1

1B 164 265 449 295 571 11=2

0=3

0=5

0=6

191 )

TAU(msec)

Spectral-M (mV/V)

Chargeability (mv/v)

Resistivity (Ohm.m)

Line 3800 E

Pole-Dipole Arrayna

l___i

a = 25.0 M

plot point


........ Very Strong

........ Strong___ _.......... .Medium

-_.............Weak

...... ..........Very Weakxxxxxxx- - ........ Extremely Weak

25Scale 1:2500

25 50 75 100 125 150-J L-(metres)



Date: 97/03/21

JVXLTD. (Ref. 9680, Jan 1997)

TAU (msec)

Spectral-M (mVA)

Chargeability (mV/V)

Resistivity (Ohm.m)

109+00 N 109+50 N 110+00 N 110+50 N 111+00 N 111+50 N 112+01

16 3.9 0.10 0.10 0.10 0.10 0.10 0.10 0.10 7.8 0.10 0.10

S. OJO O." 0.10 0.10 0.10 0,10 —— 16 0.10 ^0.10

0.10 0.10 0.10 0.10 (GirO j 16 U^^O^)Xvirr^x vss^ggp/y31 0.10 0.10 ~~ 0.30 0.10 Z— 31

0.10 0.10 0.10 (Tti*)^) 'l ,

^ 0.10 0,10 0.10 — 0.10 ' 62

109+00 N 109+50 N 110+00 N 110+50 N 111+00 N 111+50 N 112+01

87 67 -—— 87 s 36 29 v ^ 67

109+00 N

I P -

109+50 N

IP-l

M "t

l112+50 N 113+00 N 113+50 N 114+00 N 114460 N 115+00 N 115+50 N 118+00 N 116+50 N 117+00 N 117+50 N 118+00 N 118+50 N 119+00 N 119+50 N 120+00 N 120+50 N 121+00 N 121+50 N 122+00N 122+50 N 123+00 N 123+50 N 124+00 N 124+50 N 125+00 N 125+50 N 126+00N 128+50 N 127+00 N 126+00 N

O 0.10 0.10 0.10 31 0.10 2 2 7.6 7.8 0.10 0.10 0.16 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 OJO 0.10 0.10 0.10 0.10 0.10 0.10 0.10

0.10 0.10 0.10 0.10 0.10 7.8 7.6 2

e 0.10 0.10 0.10 0.10 0.10 0.30 0.10 0.1016 16 0.10 040 1.00 2 0.10 0.10 0.10

31 16 0.10 ' 621) 741

0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10

0.10 0.10 0.10 0.20 7,fl 3.0 0.20 31 7.8 0.10

1.00 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0,10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10

04| 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0,10 0.10 0.10 0.50

0,10 7.6 0.60 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0,10 0,10 0.10 0.10

0.10 0.10 0.10 0.10 7.6 0.10 31 31 3.9 0.10 1.3 0.10

0.60 0.10 0.10 0.10 0.10 0.10 31 0.10 16 0.50 04)0 0.10

74 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 OJO 0.10 0.10 0.10 OJO OJO OJO OJO OJO

- 2l OJO OJO 2 0.10 OJO OJO OJO OJO OJO 0.10 OJO OJO OJO 0.10 OJO OJO OJO OJO OJ

OJO OJO OJO 2

OJO OJO OJO OJO OJO OJO OJO OJO OJO OJO OJO OJO OJO OJO OJO 2 ( 82 ) OJO MMM// 24) 0.10^-82\J/ ^^^^ //^~\

OJO OJO OJO OJO OJO OJO OJO OJO OJO 1.00 OJO OJO OJO 0.30 2.6 16 l J—-OJO — OJO OJO '~

0.10 0.10 0.10 0.10 0.20 0.10 0.10 0.10 0.10 0.00 91 0.10 0.10 0.10 0.80 24

0.10 0.10 0.10 0.10 0.10 0.10 0.20 0.10 0.10 0.10 0.10 0.10

0.80 31 0.10 3.0 OJO —— 31 0.10

14)

6.10 0.10 OJO sa OJO OJO 16 6.10 :—

112+50 N . 113+00 K . 113+50 N . 114+00 N . 114+50 N . 115+00 N 115+50 N 116+00 N 116+50 N 117+00 N 117+50 N 118+00 N 118+50 N 119+00 N 119+50 N 120+OON '__120+50 N ^__121+00N 121+50 N . 122+00 N . 122+50 N . 123+00 N . 123+SON . 124+00N , 124+50 N . 125+00 N . 125+50 N . 129+00 N . 128+50 N , 127+00 N

67 87 v M—— 46 44 x 66 ^— 49 -^ 49 tt ^ 61 __ 46

87 87 87 ^JSj) 49 ^ 65 J *T^-U ^ 50 47 v ( . 80. Z^Stf

, 87 8, \ -S,l S? Stfjj^}*l /——-—~ J \v——-y// *-'

87 67 66 64

1 128+00 N

67 87 V^**^- 876767676787678787676767876787678787 __ 676767676767578767 __ 87 __ 87 87 67

H l 73 ^ 67 67 67 C^. 76 ~~^** 87676767676767876767678767(11676787 (jT) 87 67 87 67 87 87 67 —— 87^J 1*44"" **~\^

\ '^

60 54 80 "' IN 84 ' —— 88

67 87 87 67 \\^^^sf^y67 87 67 (f 67 87 87 V 72 J 87 67 87 67 67 67

e787e7a7e787e7e787878787a767678767 |l e7878787676767878786 86^/^297^54

67

87676767876767878787876767876787 87^___67 87 66 67 67 67

70 66 ' N ' 71 - 57'- 65 67 ^ 54 ^ 87 87 87 87 87 87 87 67 87 87 67 67 ^ 85 -^lo"^ 67 85 67 67 61 -"*- W "" 10~***; 46 48 45 46

- 31 i K ——87,x- 39 \ fi ' 52 ~~~~ ^^

30—40 40 44 - 31 i K

40 48 48 48 43 40

--^ 'C""" S* " —— *" W —— * 58^88 87 68 67--70 —— 71 -^ 87 J 78 "~~ 82 -^ 74-——x x ^x^

79 75 ' 90 90 -*^' 11749 66 52 58 ' 68 ' 78 74 78 78 80

11=1

11=2

11=3 0=4

11=5 11=6

110+00 N 110+50 N 111+00 N 111+50 N , 112+01IIP, ^ 112+50 N 113+00 N 113+50 N 114+00 N 114+50 N 115+00 N

IP-2

115+50 N

I P - 3

118+00 N 116+50 N 117+00 N 117+50 N 118+00 N 118+50 N 110+00 N 110+50 N 120+00 N 120+50 N 121+00 N 121+50 N 122+00N 122+50 N 123+00 N 123+50 N 124+00N 126+00 N

M= 104,1=2. 2.7

xxxxx': ns5 ,' 14=75,1=0

. 2J___ 241 s 0.92 ,^J.OO 1.1 - 0.89 1.5 1.8 v -OJ!4 IK 0.67 0.88 1.4 - Ut

4.2———4.8^^4.3——-341^ 34 v\ 1.4 14) 14^^-2.1 —— 2.T" "2.1 \ -1-S OJO 0.86^^1 1.4 \ 2.4 2.2 N. 14) 1.7

04i3 fl.l 141 141 \ 2,5 2.3 \ 1.8 1.9 2J

3.1 x 2-' Z-' 2.8 V^ 0.41 0.73 \ 14! 1.3 14) ^ 2.8 2.4 24! 2.1 2.3 2.6 2.4 2.0

2.1 J.J———3—--*u 84i 3.9 3.1 14) 1.1—~~*12

2.6 2.7 ' 3.5 3.7 3.7 *" 4.2 ' 3.8 3^ 1J 14!

125+60 N 128+00 N ' xxxxx1 '

126+60 N 127+00 N , 127+51H . 128+00 Sm m m m mn=2

1=117,1=0

5.4 6.8\ "^ V

6.1 ^ 6.1

~0-01M

2 -——- 1.9 1.7 1.6 ~: -04MO 0.72 — 0.72 -0.40 0.070

.7 \ 2.2 ^, M((^^

3.1 ^ U 0.87 0.54 0.79 0.46

—— 1.3 0.11 0.0100 -0.020 0.21 04)20 -0.020 0.060 0.040 0.42 0.080 0.15 0.16 0.11 0.18 0.14 048 0.42 0.0100 0.26 0.31 OJ6

0'MO 0.44

2.7 2J 2.4 2.1 2.0

0.61 14 *

0.37 0.56 0.78 64B -—- 14 0.83

0.76 OJO 0.36 042 0.33 0.31 0.43 /1\ O* 0,83 0411 OJ6 | 0.60 0.64 0.73 0.92 OJO 0.96 0.98 '

0.44 OJ6 0.43 0.38 0.070 04i2 x/lJ.x' 0416 0.79 0.41 . 1J HH ^H 0.67 0.80 0.92 04B — JL*7^y 1.2 .-^JU.x—"l 14! 1.8

0,84 S 1 .8 . 0.72 0.93 0.70 0.46 0.91 0.53 f 1 .4 l Ml 1 .00 — 0.83 0.77 0.32 | 0.76 y 1 .1 —- 0.68 04)0 f 1 .4 —— 1.2 (f

^IJ 04B 0.62 IjN 0.91 -—— 1.2^ 0.14 M4i 0.60 ' 1.4 1.6 ' 0.46 04H D4J] /141 1.9 ' 0.45 - 14! -1.6 ' 2^^^1 241 -* 14) v 241 3

^^^^^^^ __ __ ______ ____________ ' ________(Near Surface Reaiativity Low)

0=4 111=76,10/4

U 14)

n=311=63,1=0

14) 1.6 i 2.1 20.86 0.72 0eOl 1.1

1J8 1.6 1.6 OJO 2.9 ^ 2.7 2.4 tt 3.1 '—- 2.6

U ~1.1 1.4 l J 1.3 1.5 u U ^— W 8.7 2.6 2J 3.7 3.6 ^- 2.B -J^ 1.3

2 —— —2 2.6 ^2.1 3.9 __ 3.8 3.6 3.4 3.5 ( 4.4 " 4.2

2.7 2.9 2.7 , 3.1 341 3.71.1 1.4 1.8 ^ Z.1

2.1 3.1 34) 3.5 4.1 34! ^44) " 63- 4.4 ' 3.7 ' 4.3 4.7 64! 5.0 N 4.1

ns3

11=4 11=5 11=6

109+00 N 109+50 N 110+00 N VWH(2J

110+50 N 125+50 N 128+00 N 128+50 N 127+00 N 127+59 N 128+00 N

TAU (msec)

Spectral-M


Resistivity

Line 3800 E

Pole-Dipole Array ^5———™———?^

*——OH

a = 25.0 M

plot point


—.—............Very Strong

————-—.......... Strong

—————•••••••••••Medium

—-----•••••••••••Weak

....... .......... Very Weak

xxxxxxxx- ......... -Extremely Weak

Scale 1:250025 O 25 SO 75 100 125 150

•J hi (meters)

TAU (msec)

Spectral-M(mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

106+50 N 107+00 N 107+50 N 108+00 N 108+50 N 108+00 N . 109+50 N . 110+00 K 110+50 N 111+00 N——l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————l—————H-

111+50 N

0=1 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 OJO

0=2 0.10 OJO 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 3!

0=3 0.10 2 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10

0=4 0,10 2 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 125

0=5 3.0 34 0.10 0.10 0.10 0.10 0.10 0.10 0.10

0=6 500~^ 31 OJO 0.10 OJO 0.10 0.10 x^60fl~~~~" 250"^ 4000

n=3 n=4 n=5 11=6

16 ((an — looo s eu-^m} 1000 ^Z^f^m'/L'

500 NO —— 500 —— 500' ^ 1000

106+50 N | 107+00 N | 107+50 N f 1 06+00 N f 1 0B+50N ; 1 09+00 N 109+50 N 110+00 N 110+50 N 111+00 N 111+50 N

n=l 6711=211=30=40=50=6

(5 67 87 87 87 67 67 67 87 87 87 i U^^^sJILs^r '** •^**

67 (64 X876767676767678767 67 ^eO^^M j liV H6\ /-X\ . .. M ,^/f^

85

67 87 67 87

44 N\ 87 87 87 67 67 67 67

20 - 38^- 61 67 •X"7T^N- 67 *7 ' '- 20

Xs[104

106+50 N 107+00 N 107+50 N 10108+00 N 108+50 N 109+00 N 109+50 N-

I P -

110+00 N 110+50 N

I P -

111+00 N 111+50 N

::199,Tr:l 11=226,1=1 11=215^=1.0/4.0

0=1 1.1 1.1 \ 0.70 0.10 OJO 0.50 0.60 0.70 OJO 0.40 0.70 0.70

0=2 1.1 1.2^ OJO OJO 0.00 OJO 1.00 0.70 0.00 0.80 OJO

1.5 M 0.00 OJO 0.00 0.00 0.70 0.70 1.00\

1.1 U 0.00 0.70 OJO OJO

1.6 1.3 1.4 1.1 ——— 1.1 \. OJO ^ 0.00 1.00

1.00 22.1 ——— 2.4 ^ 1.0 0.70 2.1 1.0

1.3 x , 3J l t l ^///s' ^ /^ ^ —•^.'^^5^'^ " /J ^.//S 16 -^ 14h j i

' -

106+50 N 107+00 N 107+50 N | 108+00 N 108+50 N 109+00 N 10 9+50 N 110+00N 110+50N 111+00N l11+50 N

0=1 107

0=20=30=40=50=6

SO! ^ 1195 3444 274 511 - 355

IS) 138 \ 310242 222/442 435 s 714 -~ 171 ^ 1530 -- 3303

246 ^280 211^^174 ,211 2S6^--194x 274' 487' 868^—-TOO" 131 014

118 -107 118^ 523

331 328^~~-30l 210 2(0 288 201 7 511

370 441 S48-X2M S07 f 287

405 485 404^^204 —— 205 480 400"- 702 780 878 '

358 0=1

0=2 0=3 0=4 0=5 0=6

TAU (msec)

Spectral-M(mV/V)


Resistivity (Ohm.m)

Line 4000 E

Pole— Dipole Arraya na a

' — ®n

a = 25.0 MV

plot point


........Very Strong........ Strong....... .Medium

........Weak

........Very Weak' - - - - - - - Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

B bi (metres)



Date: 97/03/21

JVX LW. (Kef. 9680, Jan 1997)

Tau(msec)

Spectral—l (mV/V)


Resistivity(Ohm.m)

110+00 N 110+50 N 111+00 N 111+50 N 112+00 N 112+50 N--——'——i——i————i——i——i——i——i——i—113+00 N 113+50N 114+OON 114+50N , 115+OON , 115+50 N , 116+OON , .ilBfMJL——UW*? ,——H7+50N . IIB+OON . 118+SON , 119+OON , 119+50N t 120+50N . 121+OON 121+50N

*WTW a124+OON 124+50N 125+OON

1000

0.10

|tf 9 1, MO 0.10 OJO 0.10 0.10 0.10 0.10 OJO 62 16 31 31 31 S.. SI 31 125 2 OJO OJO 0.10 OJO 0.10 2* 0.10 0.10 OJO OJO OJO OJO OJO OJO OJO 0.10 0.10 0.1* OJO ..,0 D.,fl o.,0

0.10 0.10 OJO OJO 0.10 8.10 OJO OJO 0.10 OJO OJO OJO OJO SI 31 OJO 125 62 OSO OJO "™ " 125 OJO ^ 3J OJO OJO (JO OJO OJO OJO 0.10 0.10 OJO OJO OJO 0.10 OJO 0.10

M0 OJO 0.10 OJO OJO OJO 0.10 16 0.10 62 31 0.10 OJO 62 OJO 62 2.5 16^——B 0.1* QjO*)J) l J 62 62 (HO OJO OJO 0.10 OJO 0.10 OJO OJO 0.10 0.10 0.10 OJO 110

127+50 N

10ÔJO OJO OJO OJO 0.80 OJO OJO 0.10 OJO 0.10 OJO 0.10 62

6JO OJO OJO 0.10 OJO 31 OJO OJO 31 U 62 62 125 18

0.10 62 0.10

0.1* OJO 0.20 OJO OJO 0.10 OJO 0.10 16 31 260- OJO 0.10 OJM 250

*" "-W MO 0.10 OJO 2ojo 0.10 ojo rg riisiN .

WO 82 OJO 0.1. OJO OJO OJO OJO OJO OJO u, OJO OJO 31 1,0 O.,0 6J6 0.10 31 080 e \!!L/ * 31 W **

u no ojo ij 0,10 0.30 0.10 0.10 ojo ojo ojo ojo au 0.10 16 L* oj* u 0,0 /™ M0 Ut Sl tM tM *****1 u.iu f sou i 0.1B U

6.10 OJO (J* TJ 6JO 0.10 250 ' 0.1

82 -Tau

(msec)

500___600

OJO 250 OJO OJO 62 62 OJO OJO OJO OJO OJO OJO 126

M* U 0.10 OJO- - - ^.Nx^y^'VÎu m - a, u-^s^Vii, /s-.k\ 1-5---5

250

1000

110+00 N 110+50 N , 111+00 N 111+50 (f 112+00 N 112+50N 113+mN 113+50N , , 114+OON , 114+50N , 115+OON , 115+50N , 116+OON . 116+50N ,——117+00N (——117+50N | 118+OON , 118+50N [ 119+OON , 119+50N , 120+OON , 1ZO+50N , 121+OON la+SON igg+mv123+50N 124+OON

-W5.

^

V 38 l .^ 66 —— 87 87

176 /21B .296.

VI

67 -•\ / *VJ ir /V^L\N 46/78 ———

67 07 ___ (7

74

. 109 ^ 104

rsrsûii-" 'is?*^N 44 108 ^.118 "' IWÎU llSx-m

I P - l I P - l

110+00 N 110+50 N 111+00 N 111+50 N 112+00 N 112+50 N 113+0)N——— . .—————,—————.—————,—————.—————,—————.—————l—————,—————l—————,—————(—————,—————l—————,—————i—————,—————j————^

I P - 2

113+50 N 114+OON . 114+50 N 115+OON . 115+50 N 117+50N 118+50 N 119+OON 119+50 N*——i——i——i——i——i——i——i——i——i——i—

n=l 11=176,1=1

11=1 M=208,T=4.0

i 15

IB ^- 17

0.040 OJO 0.44 U 0.91 OJO

M= 111,1=01.3 1.7 x 2.7 2.9 2J 2.1 2J

1J 1.9 \ 2J

11=90,7=0.0025U

M=94 > T=0122+50N | ia4flo N 12wsnM

- MlM

^

9J'

0.46 OJ5 . LO U

0.61 Ut 1.9 1.8 1.8 2 L7J 2.8' 3J

0.71 0.99 LI UJ8^-2.__^^1.8 /2— 2.4 2.9 SJ -—4^^3.6/4.4 4J

(T-S.N. l l LS \ 2.8 2J X 1J 2.7 2.4 SJ f M 4.4 4.6 6 6J ^ 7.1

^•3.6' 1.1 1J 1.9 2.6 2.1 2J 2.4 2.7 4.4 6.1- 4.9 4J 8J8 " 7.B 7.7

4.7

Û

.2.6

-0.15 0.70 OJ3

. 1.8\ 0.080 OJ* 0.97 W

-

f u 1.4 ^ ,.

0.43 0.5. 0.060 Ui0.8.

1.7 1.7

.1 X

0.71

0.9' 1-T\. 0.12 OJ2

3J \ 2.8 1J)\ O 0.70 ( 1 .4 U

i ^ 3 3.7 ^^ 3 l J * -0.11 l 0.95 ' 2.4 '

-1-^ 3 LS L5

IJS•J 1.7 Ut J U~

U '^ U LO^^-U^ÎJ^^Z^^^ u

U U

J24+OON | 124+SON [ izu^nn

"7 ^JM — OJO - U i.j.

1-3 U 1J ,-— tiT^^

I P - 3

^^^^t^^^^^^^,^^

J-T 1.7 LB. 4J __-5.1

u110+00N 110+50 N

y+rf 465

93 x. ^\ l

TIH(3) VWH(3)

— 180.-~-^ 140___ 190 242 x 497 —. 364 -v^ 2*7 200

120+00 N 120+50 N 121+OONn=6 VWH(4)

122+00 N124+OON 124+50N

.1*6 .1*0 _- 5*0 392 - -, 210

, 375" 1*8 -^ 238 243 \ 632 —— 7 396

670^^ 307^^Vm^ 271 2*1 - K -——107 — M x 223 166 201 16*^\ ^ZSzzSZ// ^ ^^-x^x \ \ ^——" —^^ \^

319 ( m/—— m\ ZOfjrZL280 C— m tft ~~^ a :——^163-^^128^^ 2*4—^260 ^-^ 657.x-^421.l\

77 '4 105 132 . ™ -^.- 118 136

.150" ^412 , Os\f \N 238 205

ai^m157 159 169 242

249 223 287

* 351 \ 297 28*

Spectral-M

Chargeability (mV/v)

Resistivity (Ohm.m)

Line 4000 E

Pole—Dipole Array

a = 25.0 M

Plot point


........Very Strong

....... -Strong

————.......... -Medium

——— --•-••••••••Weak

.................. .Very Weak

xxzrzzzx- ....... -. -Extremely Weak

Scale 1:250025 O 25 50 75 100

(metres)

Date: 97/03/31 INDUCED POLARIZATION SURVEY

JVX Ltd. ( ref.96BO, Jan 1997)

TAU (msec)

Spectral—M(mV/V)


Resistivity (Ohm.m)

6+50 N 7+00 N 7+50 N B+OON 8+50 N 9+OON 9+50N 10+OON | 10+50N 11+TON | 11+50N

11=1 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0,10 0.10 2 0.10 __ 62

n^Z 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 82 f aJO—ZlOO

11=3 0.10 0.50 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 oio 0.20 3in^ 0.10 3.9 OJO 0.10 0.18 0.10 0.10 0.10 0.10 0.10 0.10 2 125 ,250 -—' 500i-^ 1000 — l

n=5 0.20 31 7.8 3.9 0.10 0.10 0.10 0.10 0.10 OJO 010 x 2SO~~~^ 850 J*-*~"^——^ f j*^~*\ f

n::6 31 250 125 0.10 3.9 0.10 0.10 0.10 /"sOO^ 7J 250 ' 88 ' 1000 l

JVff^JV^SOO——500

125 l l "1000 1809 1000 = 1000:^500(l ^S KM *J^^ l MA 1AAA -X**Kllft l f J SiflD'VV^ Si

1A 11=1

129 11=2

500 11=3

500 11=42000 11=5

1000 0=6

6+50 N 7+00 N 7+50 N 8+00 N 8+50 N 9+00 B 9+50N 10+00N 10+50N 11+00 N 11+50 N

8707878787878787871787 ~

8787878787878787876787871

67 87 87 87 87 87 17

i f *r^nir\- 85 ___ W 87 87 e? IB

M N N SI ——— 38 ——— 4fl~y) 87 87 87 87' — f J' X^T~\

M —-^42 40 ^ 87 X' 40 "-X 86 87 87

87

87

I P -

106+50 N 107+00 N 107+50 N lOB+OON lOft+SON 109+00 H IQg+SON

0=1 1JO 1.00 0.80 tM 0.10 040 0.80 OJO OJO 0.80 0.10 OJO 050 0,70 14 , -Z

0=2 1.1 1.1 0.90 0,90 O 020 040 040 OJO 040 0.20 OJO OJO 1.6 /2.6

0=3 1.00 U 1.1 12 0.70 0.70 OJO 040 0.70 OJO 0.50 1.1 1.00

0=4 1.1 1J 1.4 1.3 0.78 0.80 OJO OJO 0.80 0.70 OJO 1.00

0=6

J.iU

U 3.8 2.9 ' IS 2.2 - 1.7 1.3 1.00 li ' 3.1

Near Surface Resistivity Low

| 106+SON | 107+00 N t 10 7+50 H | 108+00 N | 108+50N | 109+00 H | 109+50 N 110+00N 110+50 N .111+00 N 111+50 Nnfsny:11=1 11=2 11=3 11=4 0=5 11=6

76 76 58 207 ^301^ 641 8W l 1319 v v 212, 180 ^ Ul , 1 101 .2288 1084 11=1i 1319 y v 812 180 v 481 . 1101 .

1008 -.1076 \S273 W \ \ 821\ 1187147 __ 135 —— 150 113 131 122 128 ^-142 SOI'" 301 ^,506 735

211 218 230 ——205 -——.186-—814 —— 210——^224 250 676 722 820 v \ 1189 CvJ387^ 276. 493 ^ 1062

341 ^-298.^ 269^^324 —— 319 —— 341 403 ^ 530 703 303 5*4 \ 1428

389 409 462 403 379 467 449^^502^ 579

803 819 674 709 ' HI ' 545 ' 4(3 2J4 '364 381

TAU (msec)

Spectral-M

Chargeability

Resistivity (Ohm.m)

Line 4200 E

Pole-Dipole Arrayna

J±La = 25.0 M

plot point


• •Very Strong

• Strong

•Medium

1 -Teak

• Very Weak

•Extremely Weak

25Scale 1:2500

25 50 75 100 125 150mi b. (meters)


GLENWATER TWP./SHABAQUATHUNDERBAY AREA, ONT.


/W LW. (Ref.9680, /aa 1997)

TAU(msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity(Ohm.m)

110+50 N 111400 N 111+50 NH——————l——————l——————l——————l——————I-

112+00 N 112+50N 113+00 N 113+50 N 114+00 N 114+50N . 115+OON | 115+SON | 116+OON , 116+50N | 117+OON | 117+SON | 118+OON ; 118+508 t 119+OON ; 119+SON 120+00 N 121+00 N . 121+50 N | 122+00 N 122+50 N 129+00N 123+50 N 124+00 N 124+5QN 125+OON 125+50N 126+OON

126 82 -^^J*.——- 62 —-. 16 0.10 0.10 0.10 0.10 11 126 1.00 0.10 0.10 0.10 0.10 -.-.,

250 iSf} 125, 0.10 0.10 0.10 OJO OJO OJO 16 OJO OJO C 25?\\ OJ6~~——OJO 8.10 3.9

0.10 1.00 010 7J 62 __.31 62 SI \\260 \" 82 62 SSTl26 SI '' ^ \\ N ^ j&eg^^ y62

IM OJO SISI C

O x 290 x 126

^@)55 260

125 '^~250 260 ^CsS^V^ 8-* "-W

250 Oa —— 125 v^ 16 62 OJO

^ 600^^260 ^~-~ 260 ^62 16

02 0.106.18 OJO 1.00 62 ( (ajfi \ 82 61

OJO 050 SI OJO 62 62 ("iS N 62 J

1.00 0.10 16 OJO 82 -125^ 82^- 126 W

7J 1A 7.8 1.00 31 OJO OJO 6.16 6JM 8.18 3.9 0.16 3.9 125 \^**L——-J1 x iog v 1ZB K

31 62 SI * 62 82 SI 7.8 6.16 O M 2 7.8 19 42 62__62 Vl25Û6 r 25T^ 6.10 \^256 .Û^ls

126 f 268 \ 82 62 82 16 82 62 6.16 0.20 OJO 1.08 SI 31 16 62 y' 266 0s 82 18 .ttS l f^^\ " l l f^^~^---

L — V .. - - M 82 OJO 31 16 0.10 16 7J ( M\ K f 250 ZSJL^X*? J25 ^-126 —— i25

126 -

86

125 600

C 82

SI 82

^-16 82

OJO 31

l /72500s 82 t OJO 31

125- 250 ^ 31 125 OJO 62

82 18 040 0.10 0.10 — OJO 0.10

H 0 ] 82^^S18\ \ 26fl\ S-^ \ v \ v s*:^PX82^2503 m?Z*}

82 31^-- 125 /T/6oT\\ It-^^•s V \ \\ \V-^-SOB-CN K \ m\ 500 N

^260 ' 82 ^ 268 --'126 IB 1.00 U6 "^1000 — 1800

110+50 N 111+00N 111+50 N 112+00N 112+50 N 113+00 N 113+50 N 114+00 N 114+50 N 115+00 N 115+50 N 116+00 N 116+50 N 117+OON 117+50 N 116+00 N 118+50 N 118+00N 119+50 N 120+00 N 120+50 N 121+00N 121+50 N 122+00 N 122+50 N 123+00 N 123+50 N 124+00 N 124+50N 125+OON 125+50N 126+OON

K 116 y 53 51 46 47 SB 45

64" ^.59 42 45 ' /) 65-67 92

'i 66 l 63 46 /s 96 ' s 39 37 ^ 67 89

109 121 ^^109 92 -^ 7S 64

101 121 133 ~"',. l"

121 188 " 75 83 62 , "-y/

112 111 119 "121 136 143 124 t 75 66^ 52 —— 40

69 64 ( f ffl| } .95 43 56 42 ^x 71l l s~^ 'M S 62——IB J 66 -^^W s 39 37 ^ 67 89 64 V 96 i 71 61 V

*2 41 53 VsW1 67 61 — 68 80 7675 74 87 __ 64 M 64

W 121 104 98 167 169 115 96

81 188 113 108 119 114 'W*

77 83 69 80 88

74 86 74 92 —— 90 99164 ___ 174 . 262 \ "148 146 \ 91 —^ 91

46 44 4007 70 70 79 79

HI

104 102 US' 142

109 " 129 199

11=3

0=4

0=5

11=6

I P - l/^vT-l,MP

110+50 N A 111+00 N

I P - I P - 2 i P11+50 N 112+00N 112+50 N

11=2 M2*2QM^2

m m m m m

11=13371=0.5 11=92/1=0.0624.7 4.9 . v l.6: ""7x B\ 4\\:\

•U-^t* U \ 4.B 4J\

5.3 V 4J

113+00N 113+50 N 114+00N 114+50 N 115+OON 115+50 N 116+OON 116+50 N 117+00 N 117+50 N 118+00 N 118+50N 119+00 N | 119+50 N 120+00 N 120+50N 121+00N 121+50 N 122+00N 122+50 N 123+00 N

— 3

. 123+50 N 124+OON 124+50N 125+OON 125+50 N 126+OON

11=108.1=0.031 11=2 11=98,1=0.125

ns2 n=l 11=97 11=84 11=104,1=2

11=6" "0=6"" 11=110,1=0.5 14=89,1=0.5

1.9

1J U 2- Ul 1.6 ^ 2.1 i O

n=4 11=122,1=2

0.78 — 1.00 __ 1.5 y 2J

2.7 2.3 3.5

.*T^4

^1.00 U 2Jy^('7j^^V3J -- 4.1>SNÛ l tJttA/ U M ^-'M tS 6.2 l"/ M "S \'\\"N"*\ " ^~ S ( 1J J U u ^ 2J U ' 2.6 X^":^*^4J8 4.1 4JI 4J ^ U t ' 6J ' vT ^ 7 7 6,5' 'u M ' 74 \ S 3.9 U ' te U t8 2.1

L7 U L9 1.8- 2.1

U N 6J \ 4J " 4.6 ? "^ 3.7 3J 3.1 3.7 16"

X \M l. 5.1 \ 8.8 ~

S2 3.8 4.6 4* \ 5J1 \ 3.3 \W ^^ -

3.7 U ^ U 4.1 4^ M^ 2J 3J ^5 ^ M 6J -^~vi~-

Possible Shear/Fault

110+50N 111+00 N 111+50 N 112+00 N 112+50 N 113+00 N 113+50 M 114+00 N 114+50 N 115+OON 115+50 N 116+00 N 116+50 N 117+OON 117+50 N 118+00 N 118+50N

- 1160 99511=1 236 ^ 148 v N 480 i l

432 282 ^ 178 ^^ 377^ 1281 1095 ^ IBM

-VWH(3)-119+00 Ni——l——i i 119+50 N 120+00 N 120+50N 121+00N 121+50 N 122+00 N 122+50 N 123+00N 123+50 N 124+OON 124+50 N 125+OON 125+50N 126+OON

11=6 11=4

2679 2261 1374

1929 \ 1317 l 738 V 1488

.~\^ ^ \V^,-'^ 2045 1147 \941 V 8B7 l ( 3116 1B4S v- 1490 ^^1379 981

_ xu~ v-v ^~. ™. — -~ 1310 ZT 1879 r- 2106 \ 1712 IMS 881\ r—^S^v ^~, \. \ X \ V - —_^-^—.^ .M. ™, S^Z; - Tss-Ngu, asu\ 1832 1385 ^961 777 530 N 483 367- 798

^ ..- ^ K4 -^êiT~~- 494 ^^ 332

2694 j 1234^ 1U6 -x^6B —^.872

78 -78 j 110 "L- 1B - M '

131 ^ m-^ 123 124 118 /188 ^-196——.189.

186~~~~ 163 -^ 168 174"^-. 148 ( 230

160 188 ^ 178 187 215 v^ 168 , 251 v 123-

162 \ 262 279

194. 277 f 314

235 276 244 204

272 257 248^291 363 330 --280

492__ 460/ 676\435 369

462 468 401\227v\626 666 626 570

849 496 486

__ 10 v 227 188. 103 122 127^ M7 131 ^ 156 -^. J30j , 237 251 ^ H9

313 —— 293. 269 236 246^--- 32B7^V128 (\S" ] 1*2——"173^—181 166 ^148^ i" "" "" ' — \ ™"

472 __ 420 319 SB \.J8L/ 426 SK \^ Ml "\ 284 ___241 278 __ 247 \ 180_ 196

S84 498 456 ^ 277 ^ 612 ^430 478

298 "Vies 173 173

235 ^194 ^233/369 302 374 441[/^642v 317 214. 163

383 \231 217 /330 367 349 488 ^ 656 665 \ 386\ 196

247 290 326 411 446 ' 807 573 678 N 364(

TAU(msec)

Spectral-M (mV/V)


Resistivity (Ohm.m)

Line 4200 E

Pole-Dipole Arrayna

I±La = 25.0 M

plot point

Chargeability and Resistivity Anomalies

Very Strong

- Strong

Medium

-Weak

- Very Weak

Extremely Weakxxxxxxxx-

Scale 1:250025 O 25 50 75 100 125 150

(metres)


GLENWATER PROPERTY, HORNE TWP.THUNDER BAY AREA, ONT.. NTS; 52A/12

Date: 97/02/14

JVXLTD. (Kef. 9680, Feb 1997)

TAU (msec)

Spectral-M (mV/V)

Chargeability (mVA)

Resistivity (Ohm.m)

l O 9+50 K 107+00 K 107+50 K 109+00 N 106+60 N 109+00 N 109+80 N l10400 K 110+50N 111+00 H 111+50 H

0=1 0.10 3.9

0=2 2

0=3

0=4

0=5

0=6

0=1

0=2

0=3

0=4

0=2

0=3

0=4

0=5

0=6

K

0.20 OJO OJO 31 7J 0.10 0.10 O.lfl 0.10 — 0.10 0.10 0.10 OJO 19 11 16

0.10 0.10 7J K 31 OJO 0.10 0.10 (UJSgl) OJO 0.10 0.19 3.9 2 0.10viSsi-x l0.10 2 31 (2 19 19 0.10 O—— 0.10 0.10 0.10 0.10 OJO O 62 128 ((.1000' ) /2SO -^ 600 0=6

7J -^MO^ 16 31 19 /^fiflT^ 0.10 0.10 0.10 M& OJO /"wT^ OJO 280 —- 128 128 :i— 800 —— 600 0=6

aso , w j im 0=10.10 0.10 0.10 0.10 0.10 0.10 0.10 0.20 0.10 0,50 0.10 3.9 62 31 M . W , W s 10. .tsa s ant' . tMH7.6 7J 0.10 7J 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.20 0.10 7J 1.00 16 11 82/290

108+50 N | 1 07+00 N | 107+50 N | 1 08+50 N ( 1 0WMK 1 10+00 N 110+50 N 111+00 N 111+50 N

VI 87 17 17 17 11

10&+50N 107+00 N 107+50 N 1GB+OON 106+50 N lOft+OON 108+50 N 110+00 N 110+50 N

I P - l

111+00 N 111+50 Nn=l

14=192,1=11.00 U OJO 0.60 OJO 0.40 0,40 OJO OJO 1.2 - 0.90 v 2.7 14

U l J l S 1 .1 .OJO OJO 0.70 9.80 l 1 .1 l J M \ 3 17. u.w ,m ^ .. ..w y 1.1 ij M \ s1JO Lt U U \ 3

^ U 1.1 U

l.7'\ 2.7 !J^ 1.4 U ^ l 3'3 'S" OJO 1-00 Ci5 U 1J

2 '" tJt 2.7 U —— Z it —— 1.1 x OJO

8.1 U 1.00 0.70 0.70 OJO

2J 2J \ 1.4 1.1 \__OJO ,-l-0

U U 2.1

106+50 UT | 107+00 S | 107+SON f 106+00 N [ 10B+50N ^ lO+OOW t 1 09^50 N 110+00 N uo+soy | 111+00 N 111+50 N

TAU(msec)

Spectral-M(mVA)


Resistivity (Ohm.m)

1083 1605 \ 208

6429 2041 (to -s. 13)9

0=1 HI 130 133 100 -67 — 199

199 —— 199 —— 212— 243 2M-—-SW

27e 287-- 358 293——296 372 394

363 401 466 ^" 839~~~ *77 3M 491 MO— 687 U9

6H 805 ,710. 681 590 860 J88 — UK 793

66* 129 794 882 B4S ——77J HI BM W7 U7

0=1

0=2 0=3

0=4

0=5

11=6

Line 4400 E

Pole-Dipole Arraya na a

'—®n

a s 25.0 M

plot point


........Very Strong

........Strong....... .Medium

........Weak

........Very Weak•••••••Extremely Weak

25Scale 1:2500

26 50 __75 100 125 150•d i ha (metres)



Date: 97/03/21

JVX LTD. (Ref. 9680, Jan 1997)

TAU(msec)

Spectral—M (mV/V)


Resistivity (Ohm.m)

110+00 N 110+50 N 111+00 N 111+50 N 112+OON 112+50N 113+OOK , 113+50N114+flON 114+50N 116+OON , 115+50 N , 116+OON , 118+50N , 117+OQN , Itt+SON , IM+OON , 11B+50N , 11B+OON , 119+50N , 120+OON 120+50N 121+OON f 121+50N | 122+OON | 122+50N | 123+OON 123+50N 124+OON 124+50N 125+OON 125+50 N

0=1 OJO 31 0.1, 31 62

0=2 16 OJO 62 0.10 250

0=3 16 OJO 16 jjP^ 18W

0=5ns:6 no ino no l Sn - ino"

ow | 10 OJO 0,0 Oilfl OJO OJO OJO 2 0.10 WO OJO OJO OJO OJO OJO OJO 0.10 OJO OJO OJO OJO OJO OJO OJO 0.10 OJO OJO OJO OJO OJO OJO OJO 16 250 62 126 125 260 5OJO 0.10 0.10 OJO ^w MO u u B 10 U8 8 U o u ut 9M 0 10 , 10 wo U9 0 10 jj, wo U9 fllo D 10 jjj 7J OJO 7J 62 0.30 62 82 125 2SO__ 10 ^n,-^ 10

125 500 2i OJO 250 OJO 0.10 OJO OJO OJ, 0.10 OJO OJO OJO 0.10 OJO U 500 OJO 110 16 62 125 16 62 OJO 126 250 5ojo au 7J 0.10 ojo ojo 0.10 0.10 0.10 siu 7.8 2 6.10 OJO OJO OJO OJO OJO SI 0.10 OJO

OJO 7.8 OJO 0.10 OJO OJO OJO 16 OJO 7J

20 7J 0.10 WO OJO OJO 18 OJO OJO OJ, OJO 0.10 62

IQH 1000 1000

62 62 SI 31 02 2n 0=1

OJ, 250 62 82 2n 0=8

\ "//\""/ li" B — B B 0=3 wo ojo 1ZS 0.10 0.10 aifl 2J nO 250 2J 110 OJO OJO OJO OJO OJO OJO OJO OJO OJO OJO OJO OJO OJO 0.20 OJO OJO S 250 OJO 125 OJO 250 0.10 OJO 5^) 1000 500 -^ IONTTlOOO

MO e.io ojo ojo u w 10 u sn 5 us ojo 62 si ojo ojo 0.10 5 ojo ojo ojo m ojo u ,.i, u 62 ojo ij ij 62 mo u ,.u sn. to y ino sn looogg OJO 5 500 125 125 IM'^~~m'^ 16 0.00 2.5 OJO OJO 0.10 OJO OJO OJO OJO OJO OJO 1JO 2J 2.6 OJO 0.0 16 U 125 250 125 125 ' 1000 1000 500 1000 1000 ^1*5^ \

110+00 ir 110+50N 111+00 N 111+50 N 112+00N 112+50 H . 113+001! 113+50 N 114+00N 114+50N 115+00 N 115+50 N 116+OON 118+50N 117+OON 11+50N | 11B+OON | 118+50N 119+00 N 119+50 N 120+00 H 120+50 N 121+00 N 121+50 N 122+00 N 18Z+50N 123+OON 123+50 N 124+00 N 124+50 N | 125+00 N 125+50 N

0=1 147 i M

0=2 80

0=3 W^V W.-^ l" 04

0=4 111 M 106 y^ M/ /217 217

0=5 in in/ la f i68\ 217 at0=0 124 14S 156 1M- 2n 214

6767676767676767676767676767676767676767676767S787 67 07 64 44

67 67 6762 H tt 67 67 67

-^. 40 -—^ 20 33 87 87 87 67 67

42 30 SO —S 44 85 67 67 67

76

63 40 41 40 —~ 20"N 64 85

52 46 46 46 —— 44 'X~S3 ——

54 J 37 tT^~~ 40 46

76 63-76 H 76 42

40 —— a \ H SO —— N -C- 41 —— 40'44 —— 43 48 56 67 X n \ 142 142 148 137 ^ 117 ^ 74

38 40 SO ^--40 ——^42 B 48 48 54 64 86 S n 115 IsT^N 166158^^^ 153 ^24.

48 47 52 64 58 n

40 61 40 48 S^uT^ 8 86 O 60 76 ' in 116 ' la 126 N 172 163 in 16?"

110+00N

I P -

110+50 N 111+00 N 111+50N 112+OON

-Alteration Zone with minor Chargeability?

I P - 2-Broad anomaly/souarce

I P - 3112+50 K 113+00 K 113+50 N 114+00 N 114+50 N 115+00 N 115+50 N 116+OON 116+50 N 117+OON

1 ' " * m m * m m m m *' m m

xxiax.

11=203,1=0n^

M=192,T=10.05

118+00 N | 118+50 N { 119+00 N | 119+50 N ( 120+OON | 120+50 W | 121+00 N | 121+50 N f 122+OON } 122+50 N | 123+OON 123+50 N 124+OON 124+50 N

14=12471=0/10.70 1.1 ojs an ,.TO ojo u O.M u u 14 as 2.8 4 4j 4j 5__ u v u

125+00 N 125+50 N

u ^*"^" J*////,/U \

2^Sf((* ^" ' - -i/ ' u \ 15 u

U/

1.8 1.2 0.75 U -fl.n 14 U

3.1 3.1 ' -0.15 U 0.03

2.1 U

U U / 1.7/2'* u U 4.1

24 —2——1.8 l J 1.7 l J 0.61 OJ2 OJ1 a78 LI l J L6 l J

l 2J W——2——-'il J

s l ^- — ~ Ol* *v "^x^ a ** '•'

/8.6 7}. 10 11 10-—— 10 v 8.1^ 5J 4.6 4.8

3.0 SJ 3.7 ^ 4J 4J 8.7 6J •5.0 8J

a. r

-, N 3.1 3.0 SJ 3.1 3.1 SJ 4.4 8.1 '0.1 8.7^- 11 11 11 11 10 ^7.6

+50N 111+00 N 111+50 N 112+00 N 112+50 K 113+00 K 113+60 N 114+00 N 114+50 N 115+00 N 115+50 N 118+00 N 118+80 y 117+00N 1150N 118+00 N' 118+50N 119+00N 119+50N 120+00 N 120+50 N 121+00N 121+50 N 122+00 N 122+50 N 123+00 N 123+90 N 124+00 N 124+50 N 125+00 N 125+50 N

WnUJ n=6

0=40=5 0=6

0=1

0=2 0=3 0=4 0=5 0=6

45- 5223 , 1 167 1614i ajuini

0=4

0=5

0=6

252 188 157 148 03 110 x 60

1071 ^.014-^415 333 328 409

at 225 227 \ 171 172536^ 400 374 4611603 2278 2064

437 3*9 476 426 287——'310

01 1W\ 107 110 110 127 137 \ 103

Ml \ 400 406 4f7 ^""540 376 m ^ VA.1111 1140 11S2 2577

se / m~

2230 2674

116 117 113 -

la 117 iso176 .in —— 215 221140 164/237 270 262

in 211 200 —— 203 —— 291

l Ml201 XI 367

17

220 270

f173/246 207

la ] 224 2*4 3H 41,

in ^ 288 ' 347 427

in in I m " 322 sn 3322H 477 -^*B y US 246

290 269/311 369 ( 581 517 ' 364 \ 230 232

440 877 ' 307

21S ^.178__^2n 274 107 248 182__.170___163 0=1

271 248 257 ^, laT^— 2M -^61~~^ 310 ——- 280 257 0=2

320—^W 328 351 445 444 403 Sn 0=8

eiS^VSH 378 Sn 494" 510 53T^\ 447 0=4

ra 0=5 0=6

8\ 747^434 417 488 581 608 an" \ MI in tat

TAU (msec)

Spectral-M (mV/V)

Chargeability (mVA)

Resistivity (Ohm.m)

Line 4400 E

Pole-Dipole Arrayna . a.-S-*-

a = 25.0 M

plot point


•Very Strong

••Strong

————— •••••••••••Medium

————— ••••••••••Weak

....... ...........Very Weak

xxxxxxxx .......... Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

^(meters)




JVX LTD. (Ref.9680, Jan. 1997)

TAU (msec)

Spectral—M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

106+50 N 107+00 N 107+60 N 108+00 N 108+50 N 109+00 N 109+50 N 110+00 N 110+50 N 111+00N 111+50 N

0=1 0.10 31 0.10 0.10 0.10 0.10 OJO 0.10 0.10 7.6 0.10 0.10 OJO OJO OJO 126 0.10 OJO 16___.16

0=2 0.60 (2 0.10 0.10 0.10 0.10 7.8 0.10 OJO 31 7.6 2 OJO 0.10 3.0 7.8 31 02

11=3 2 62 0.10 0.10 0.10 0.10 31 0.10 2.——,O 0.10 OJO O OJO OJO 7.8 X 290'

0=4 0.10 126 0.10 0.10 0.10 0.10 10 0.10 .ul^j)) 16 0.10 O 0.10 OJO 7J 260 260"^~260 260 /m

0.10 0.10 0.10 0.10 31 0.10 2,

0.10 126 0.10 0.10 0.10 0.10 10 0.10 (T

11=5 0.10 62 7J 0.10 0.10 2 16 0.10 ~ OJO i Wtj 0.10 0.10 0JL^J? B M 126' 7 600 600

125 2 0.10 0.10 •^000""'02 62 —-260 600 600n=6

0=2

0=5

31 31 7J 0.10 0.10 126 16

0=1

11=2 11=3

0=6 0=0

106+50 N , 107+00 N 107+50 N 108+00 N 108+50 N 109+00 N 109+50 N 110+00 N 110+50N 111+00N . 111+50 N

* " (v "o) -\ 46

106+50 N 107+00 N 107+50 N 108+00 N 108+50 N 109+00 N 109+50 N

I P - l

110+00 N 110+50N 111+00N 111+50 N

2J 2JS

Ms 118,1=00=1 1.6 x2-7 17 OJO OJO 0.00 U - OJO 1.00 U 1.2 1J 1.1.- x SJ - 2J U 2.1

1.3\ 2.7 2 0.70 OJO 1.1 l J OJO Vl4 1.0-.1.6 1J

0=3 l J V 2.0 2J \ OJO 0.00 V U 1.0 0.00 * 1.4 L 2.6 ^ l J U -— OJO l 2 2.7 U

0=4 1 -Z \ ZJI ZJ 0-7B 0.00 ^M J ^11 l J 1.00 \ 2.4 ) l J 0.10 0.00 2 3"——"3J 3.9 \ J 7.8^,^ ,.

1.3 \ 2J 2.3 \ 1.00 0.00 \ 1J 2 1J 1.0—— 1.7 ' OJO 0.60 B M -c—s '" ** .SB'/f i n ——

0=8 U 2J ZJ - 1.00 1.00 IJ \ 2J Z3 ^ 1.0 1.7 0.00

106+50 N 107+00 N 107+50 N 108+00 N | 108+50 N | 109+00 N 109+50 N 110+00 N | 110+50 N . 111+00 N . 111+50 N

126 . — 133 — 164 - 367 —— 436 337 2640 1600 — 1363 1116 i 2666i \^^ .

v- 2140 — 2166 J 1604 — 2116 62641201 1427

672 -—— 736. ^v, 314 262 267

076 —— 1024 .XC 436 307 346 487 633 ^772 x "40 UU 3234 ~ 3060 N 7031

1260 1366 X: 641 ^— 406 -._ 401 066 S 662 S* 1 100 1020" 871 762 6343 S 3366 2113 ^ 2004 "3067 3462

623 ' 172 f 1103 1076-026 021 2460 4204 ^ 2066 48H

067 nsl 0=2

0=3

0=4

0=5

0=6

TAU (msec)

Spectral—M(mV/V)


Resistivity (Ohm.m)

Line 4600 E

Pole-Dipole Arrayna

a = 25.0 M

plot point


........Very Strong........ Strong....... Medium.........Weak

,....... .Very Weak

....... -Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

•l bi (metres)


GLENWATER TWP./SHABAQUATHUNDER BAY AREA. ONT.

Date: 97/03/21

JVX LTD. (Ref. 9680, Jan 1997)

TAU (msec)

Spectral-M (mV/V)


Resistivity (Ohm.m)

0=10=2 0=3 0=4 0=5 0=6

11=2 11=3 11=4 11=5 11=6

0=1 0=2 0=3 0=4 0=5 0=6

110+00 N 110+50 N 111+00 N- 111+80 N 112+00 N 112+50 N 113+00 N 113+50 N 114+00 N 114+50 N 115+OON . 115+50N 116+OON , 116+SON 117+OON 117+50 N 118+00 N 118+50 N 1UWJON

82 OJO 7.B 82 31 600 260 , 2000 i 20 128 OJO 0.10 0,10 0.20 0.10 0.20 0.10 7.8 1.00 1.00 31 34 SI SI 2900 , MM- 128 OJO OJO OJO 0.10 OJO 0.10 0=1

OJO tM 1 .3 18 280 128

OJM 280 82 128 0.10^^,600

2.8 128 too — eeo-îooo''82 260/ 1000 1000 /~OJO ^^WO?, 2000^-^1000^2000

To^ 1000 - 900250 -^ 1000

7.8 0.20 0.10 0.10 OJO OJO 2 1.00 82 31 0.80 128 82 128 OJO 2.6 M 018^? 800 -\JMO, ' 125 O6 OJO OJO OJO OJO OJO

1000 y^2dflO———2000 X P-W W* *1* 0-1B "O O.W S.* 82 U 82 125 2,6 280 OJO 25^-580 CÎMO 109)) 0.28,__ 28__126 260 — OJO OJO OJO OJO

2000 2000 20*0 r 2080 ^"-W W* '-l* *J* B-W Z M W W MO O-10 1.3 ^ 600 500. 1080 l 18\ 1000/20

.000 /f~4m^j OJO 0.10 0.10 OJO OJO SZ IB 0.10 5 0.10 OJO j' 1000 l 5S"——"X. \ l l f f f ^fflll l

U 1080 ' 4000 f' 1000 0.10 0.10 OJO 0.10 260 18 128 2* 'lMc

10 OJO 10 0.11

m 0.10 0.101000 "V 10 280 288 31 OJOe

(M 600 OJO 0.10 0.10 0.10 10 ' 1000 1000 ION ^ 125 129

11=2

0=3 0=4 n=5 0=8

110+00 N 110+50 N 111+00 N | 111+50 N | 112+00 N | 112+50 N [ 113+00 N | 113+50 N | 114+00 W , ,115+OON 115+SON 116+OON 116+50 W 117+OON 117+50 N 118+00 N 11B+50N 119+00 N

0=1 u .iiiasv*^-* -n*7 *7 S 88

W/ 41

90

78 (2 s i 187 238 \Jv W

M M slit ( t* 248 *\X 88 .

86 102/128 12* f 178 200 238 24S^N

4* 83 ] 99 /133 159—^171 1*4 200 232

,/

82 -^ M s 47 81

83 77 47 54

" / M , 84 115

1*3 188 1*8 ai\ 248

1*6 ^~BB 190 1*3 1*3 ^ 285

118 \ 88 68 87 87 87

131 131 122 122 78 88 87 87 87 87

78 80 7* 88 78 78 -^ B* 107/138 137 117 117 —ÛZ *1 M "ITX 87 87

76 88 78 -^ 84 88 82 98 108/137 137 121 108 108 \ 128, 88 84 39 87

•l 104 103 117-^ IS? 1S7 122 108 188 113

87 87 87 87 87 87 0=1

87 87 11=2

0=3

0=4

0=5

0=6\ \

128 11 90 43

110+00 N 110+50 N 114+00 N

O.K -0.070 O.K OJ7 1.6 2

I P - 2

114+50 N 115+OON 115+50 N 116+OON 116+50 N

2.1

U U

U

''' "nVT"' 14=106,1=0

\S 1 .7

-i——i——t——i——t——i——i- 118+00N 118+50 N 119+00 N

0.84 041 -0.1* 0.82-0.11

OJO 1.2

0.070 OJO

2.5 2.5 2.0 2.6 2.6

2.7 3.1 3.7 3J8

3.8^- U ___8.6 \- 2.7

6J8 ^ U 17 B^X

2.7 ZJ -^.0.44 -0.090 -020 -0.28 HUM) -0.1* 0=1

-- — — - — -. ^^^ U M M1 0'18 ~fta •*2B ~0'B7I) ns8

S4 ^4-——-U 8.3 ^ U^rtJl U t BJ/Xo —— U/Û 023 -OJB -0.1* 0=3

4J 4J \ 1.8 0.40 -0.060 nz4/ ^————^~——————-^ /^/^ \ \ \ \

•0.11 LI 1.8 '2.7 3.1 , i3 4.8 4J 4j 5.1 *-*/ 7JB S U J t* U ^^" 7J) --^M \4J 4J \ U 0.40

OJ29 1.8 X 2J S ,4J 5.1 M ___M it^ U 13 Stt /l U/U 7 \ M,\5J 4J \ I.* 8.70

IA 9AI i it 2.7 42 5.1 5.7 / T& ~~~M~ 8.6 8 ' to ' *.4 4.1 /M 74 7.4 - *J \ 52 U ^ 22

0=5 0=8

110+00 N 110+50 N 111+00 N 111+50 N 112+00 N 112450 NWH(2)

113+00 N 113+50N.———l———i———H 114+00 N 114+50 N 115+OON 115+50 N 118+00 N 116+50 N 117+00 N 117+50 N 118+00N 116+50 N 119+00 N

0=1 1388 093 , 2524. . 1021 \ 29(2

0=2

0=3

0=4

0=6

0=6

880

1888 —' 21*4 — 1888 — 2130 8150 \ 1101 1316 \ 702 \ 308

f 1422 ( 2907 2880 \ 8104 \ 1321L \ \ \ \ \ NNS1727 11IBM

\ \I7M \1945 179* ^ 3723 - 2933 738*

1S14 1538 ~ 210-^1*7 -IBS

278 258 21B ~—- 1841B20 r- 2144 ..B17 986 431 4T4

708 788 487 4S1 427 327

0=5

180 151 .x ut ^ aa -ât , n 10* -*^68ya ^^ ^m ^,254 223. \117^__^120 108 158^^88 _^

3Xr\W 216 278 204——' 184 J f 77 A 153 "~-~ 141 207^^136

' '"—-^129^^94 l us m' 2*8 \ 182386 \ 268 241 215' 151-

118 1S3. 118 \ \ 231 231

132 138 184^ 133^ SOS 272

TAU (msec)

Spectral-M (mV/V)


Resistivity (Ohm.m)

line 4600 E


a = 25.0 M

plot point


-Very Strong

. Strong

•Medium

. .Very Weak

.Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

•d . H5 (meters)




JVX LW. (Ref.9680, Jan 1097)

TAU(msec)

Spectral-M (mVA)


Resistivity (Ohm.m)

0=2

0=3

0=4

0=5

0=6

11=1 11=2 11=3 11=4 11=5 0=6

100+50 If 110+00 N 110+50 N [ 111+00 N | .111+50? | 11Z+OON | 112+50 N | 113+00 N 113+50 N 11*400N | 114+50 N | 115+00N 115+50 N 118+00 N | 116+50 N 117+00N 117+50N 118+00 N 118+50 N

7.8 0.60 0.10 0.10 31 OJO 0.20 31 ION

16 I.N 0.10 0.10 o.ifl 0.10 ojo ^ "".Js^HS.020 31 2 0.10 OJO

62 16 2 OJO 82 /if 20N 20N, ION

OJO 3.9 2

125 1JM

— 2000/0.10 0.10 2 31 600 \ 0.10 20 ^ ION 20H ^ 7.8 16 i ION ~~

OJO SI i

OJO 125 500 ^ 1000 (10

5 i^itS^T^ 0.402. U 1. U 250 ^ 5N 0.19128/1000 /"" 1000 1000

ION ION 1000 600-^7.8 020 82 260 OJO 0=1

1(00 6N^ ION ION \ 82 3.9 250^-SN 0=2

500 250 20) ION O- 62 31 ION 0=8

0=4

0=6

109+50 N 110+00 N 110+50 N 111+00 N 111+50 N 112+00N 112+50 N 113+00 N 113+50 N 114+00 N 114+50 N 115+00N 115+50 N 118+00N 116+50 N 117+00 N 117+50 N 118+00 N 118+50 N

39 54 67 87 36

44 61 87 86

50 . 39 53 I'iT(_J l

45 50 58 l

64 87

58 ' K

N 117 103 117 153-x 2H x

J(C^\1,/ iTf/X* /**

li. "l ,

t7

218

B 71 N s"*

87 6S j 124/

B 67-^10*' 172

112 104 v 133 ^-IN 186 188'

143^111 '171/226 309 220

127 J N) /U/ ( m^m \ 212 244 ^^" ^_____^^ , \\\

71 —— 86 / Ut l 187 183 187 \ 221 \ 255 2Sl^XllT 103 119 182 181 \\267 \ 359.

v IM^— IM IK IM^ zsa an ZTir^ tt* tM 121 in i IM \ jfu-

12367-10*s^~f 150

159^,193—^189 171 - 204-' 171 v 64 62 N 98 67 0=1

2S'-~855-\ aft j 'f'TXj91 VS.V n \ "

-^^^ 278 255 \ 183 V 114 \ 2o7^^ 166 xN. M x. WN IN

.., . ^ vsS\4S9XSS04. 255X 87V 154 \119\A225•(-" ..^v^lAv".. "\ v •\\-"1 ^-XM0=2

0=3 0=4

'I'Good Spectral target

109+50N 110+00N 110+50 N 111+00 N

IP-4

111+50 N 112+00 N 112+50 N 113+00 Nn=l

14=286,1=2

H———i———l———i———l———i———h- 114+00N 114+50N 115+00 N-H———————l———i———l———i———l-

I P - 2J"-6M

115+50* 115+00 N

M^

IP-2

116+50 N

IP-2

117+00N

\\183- 261 232 0=6

117+50 N 118+00 N 118+50 N

11=255,7=1/2 11=204,7=1H ——. 12 —, 14 11 4.1

19 v "S 14 f 7J VV " l \\N\V X\\ ^

^ —^ s 1 1U 2.3 U / 1A l l

33 2.6 3.3' ' 7.3 ' U -

5.7 s 1.3 0=1

66. 7.8 0=2

0=3

0=4

0=5

11=6

109+50N 110+00 N 110+50 N 111+00 N 111+50 N 112+00 N 112+50 N 113+00 N 113+50N 114+00N 114+50 N 115+00 N 115+50 N 116+00 NV 91 6J 81 B

116+50N 117+00N 117+50 N 118+00N VWH(1)'

118+50N

328—288— 461 s 793 1866 9078 ~- 1312 1340 c~cZn v- 1841 2042 — 1774

— 4868 \ 1896 X 4946 3623 -2782437 21N 1683 ' 2782 i 1487 — 1843 ^ 1321

1698 1834 \ 6998 5500 6738 6NO \ 1884 4484 ^ 4684 \ 2249 N^- \\

-X 1688 54N 3862 1626

TAU (msec)

Spectral-M (mVA)


Resistivity (Ohm.m)

Line 5000 E

Pole-Dipole Array

a = 25.0 H

plot point


————~-i.......... .Very Strong

——————.......... Strong

——————.......... Medium

————— -••••••••••Weak

....... ..........Very Weak

xxxxxxxx.......... .Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

lie fa(meters)


6LENWATER TWP./SHABAQUATHUNDERBAY AREA, ONT.


JVX LW. (Ref.9680, Jan 1997)

TAU (msec)

Spectral-M (mV/V)


Resistivity (Ohm.m)

0=5 0=8

11=1 11=2 11=3 11=4 11=5 11=6

110+50 N t —^111+00 N ( .mf50 ? i , 112+OON | f112+50N 113+00 N M^nv llft+OON H6+50N 117+OON . Itt+StN IIB+OON 11B+50N 119+OON 113+50 N .nVT" .u+finw 115+00 N , 115+50 N————HW** ,——li?™*!——————————————————.————. .————————i——————— 119+50 N 120+00 K | 180+50 N . 121+00 N

O'so

tffltfjsy^- 7/—^s \hjjf- .(CL)^ -Ifob 600 500- 500' 125 '

5N i OJO 0.10 0.10

500 ( 125 82 0.10 125

250 ( ( ION 1000 V 500 l VIS——'k rv xxJ;))i500 500 N 1000 x ION ION "

111+50 N 112+00 N 112+50 N . 113+00 N 113+501 114+OON . 114+50 N 115+00 N 115+50N | 116+OON | .116+5011 | ,117+OON , 117+SN | 11B+OON | 118+50N | ^19+OON | 119+50N 120+00 N 120+50N . 121+00N

33118 12005 100 110 111 107 1JS

188

X^ltt^^^lTB^

339U\ 273 V^ 196. 184' .^ VNVÎ i J

*a^J5M\^ Pfrf' * "^- ' " ' V \ 44^ U '..UI/ 181 ^™^ ™ ^^

^.08 S Ut S O* 187 -——- 174 156 \ 202

171 —^ 187 184' 162 —- 143X^88 -^tU "^J42 ' 184 187 208 \ 156

143 148 181^ 182 .82 16V\ 136 /MB 179 187 200 187

•"116 146 155 152 187 204-^ 128 s 186 182 200 186 185

IP-4111+50 N 112+OON

IP - 5112+50N , 113+OON 121+00N

-8.MP116+50 N f 117+00 N\ 117+5N

. , . 8.8——^8V l* s U/

Kfr?û, s^ u

U 7.7 10 X*' x f i

8.1 9.4 14 ——— 14 12 û^M^b/y'v * r^\ V0 /x^*""^^^— iT^jir^ v* u u/*/ a\ ll ff,' —^^ '-i^T Z1^ 7r^ 12 ^ U 12/16/13 B l 7.5 l 4JI 6 ^ 11

0=4

0=5

0=6

110+50 N 111+00 N 111+50 N 112+OON 112+50 N 113+OON 118+508 . 114+OON 114+50N 115+OON 115+50N U6+OON 116+50N 117+OON 117+51? 118+OON 18+SON . 119+OON , 119+60N 120+OON 120+50 N 121+00 N

n^ 2*-^HB----J*l -

nS2 K*^——-"l

0=3 ***;0=4

0=5

ns6 070 V 350

-. , — rf — _ i*"v ia~— W4o _m/ r 2700^^0007016. 262,Y^7^îi^^^Zj?^ {MlV^.

4080 , 2609 r ^^îw^wC^lin^ oro . XNi8a!N,

2764 4230 \\ la-~~-171 -^ 101 121 i 47 2374— -

4488^- 9731 \ Mf\ UK 9798\"\\ NO, S y— 6860 x 7887 2278 3901 3401 4737

4403

337 380 v 774 -^351 683 0=1

1018

. x^^

—— x-— v^ — 0113 ' U -^ 6838 J 3905 ~ '

! 2SM 3187^ 6445St^W67^/ 6087 6641^4492 gw. x .™ x™

2836 2683 ^482 — 3873 -. 8788 79/4137 3808 3485. 1854\V 338 .-—'291

l \ MM 4SM 3348 4800 3362 1489 N\ 278 307

"248^636 640 N 260 ' 373

•172 162 s- 479 644 300

0=3

0=4 0=5

0=6

TAU (msec)

Spectral-M (mV/V)


Resistivity (Ohm.m)

25

Line 5400 E

Pole—Dipole Arraya na . a

I±La = 25.0 M

plot point


zxxxxxxx

'Very Strong

•Strong

' Medium

•Weak

•Very Weak

' Extremely Weak

Scale 1:250025 50 75__100 125 150

(metres)


GLENWATER PROPERTY, HORNE TWP.THUNDER BAY AREA, ONT.. NTS: 52A/12

Date: 97/02/25

JVXLTD. (Ref. 9680, Feb 1997)

TAU (msec)

Spectral-M (mV/V)


Resistivity (Ohm.m)

110+50N 111+00 N 111+50N 112+00N . 112+50N113+00 N 113+501? 114+OON 114+90N 115+OON , 115+50N | 116+OON | 116+50N | 117+OON 117+50N | 11B+OON | lia+SON | ,119+OON ^ 1UH60N | 120400N f 120+90^ 121+00N

0=1 0.10 OJO 0.10 0.10 0.10 0.10 0.20 110 10ns2 0.10 0.10 — 0.10 0.10 0.10 0.20 0.10.——.M

n-g l*\^^f) " "fl 8'lfl 0lW

ns:4 260-^31 WO

a.-5 250 ) 31 10 0.10 (2

0=6 K

0=2 0=3 0=4 0=5 0=6

^xO.10 0.10 125 vfi (2

~Ctt 0.10 0.10 X 125 \ 02 125 125

2SOv -SOBâO j K 0.10 0.50 K E 0,50 E 125.,,,, ION y, 250

5^ "\^ 0.10 02

0.10 f f .600 \^ (2 -^XSO-——260^15)

02 3.9

0=3 0=4 0=5 0=6

11+00 N +50N 112+00 N 112+50 N 113+00 N 113+50 f 114+OON 114+50N . 115+OON 115+50N 116+00 N 116+50N | 117+OON ^17+SON .116+00 N 118+50 N 119+00 N 119+50 N 120-00 N J20+50N . 121+OON

nsl 8787876787870B87T8

ns2 86 ___87 ___ 87 ___ W 87^_ 80 87 ' 64 \ 80

ns3 40 ^ 40 ^ 85 r 127 \ \ 87

0=4 42 38

0=5 42 39

0=6 48

71 -x 51 88 89153 ^ l

"-^ "-^^——v

106 r*" t"l l . " — "N/v 1M * vil-4 -\" 1W117 117__-121 133 121 ——121

97 114 \ 88 84 41 , A 109 f 133 140 1S5^^J40

148 148 S^M *-

110+50 N 111+00 N 111+50 N

IP-4 IP-5112+00 N 112+50 N 113+00 N 113+50 J

IP-5 IP~1114+OON 114+50N 115+OON 115+50N 118+00 K

n=l 11=76,1=0.016 11=114,1=0.25 11=267,1=1 11=21

IP-2117+OON ,117+aON 11B+50N llfl+OON

IK ^ IS N 1(7 1(5

ip-e118460 K 120HUN 120+50 N

11=111=2 0=3

11=4 11=5 0=6

121+OON

0=1 U 1.3 0.90 190 170 140 1.1 1JW ' Si 1J 130 1.9 v. 19 4J 4J8 3J 2.8 44 4.7

2.9

U 1.1

Ut

Z.7

2.7

1.10 U HUO ,2.( 4— — ^l.5 14 \" *-7 *-7 "

IS 1 .9 -OJO ,M SJ/ 8~^4j"X 1.7 X-2J\U U 8.8-^15

yiD li^-2^0 2^^8.1 l U\ 4.4 ^ U 2.1\ 8.7 __ BJ,/ 7.8 !^- (.1 .

4^ 2.1 (Y^k iTj) (jN^J-^Û 2i\ 8.4 TZ/ M U ~~^** '/" X * .v

6.3 ' 0-^* (j - (^ (J-"— 9^^ 0.90 ^ 3.1 \ l U (J -11 -^14 U 10 '2.4 2.9 Vi 4.7

11=121,1=0.574 ,( -^7.1 ^^ 4.4 ZA 2,7 U M 2.9

-100 .4.1,__2.7 3.6 2J __ 3.7 —— 10;:^.-\/'.j — — — — — '•'L—-J ^* ' ^ ^ /~\*Ss*r—

19

n=2 14=165,1=0.5

M S. 1-1 -170 -170 -OJO 0=1

"''/" tf ^v^vH6J ^- 94 —— 7.2 S~ 10 12 ——- 12 \8.4X\ 2.2

, ,û^^V -B \^xu, ^ a 12 ^\ i(

12 13

-2 -1.0

-0.80

•2.3

M 6.1-8.4

0=2

0=3 0=4 0=5 0=6

110+90 N 111+00 N 111+50 N 112+00 N 112+50 N 113+00 N 113+50 M 114+OON 114+50 NWH(2)WH(2)' zEj

115+00 N 115+50 N 118+00N 116+50 N 117+OON 117+50 N 118+00 N 118+50 N 119+00 N 119+50 N 120+001* 120+50 N 121+00Nnsl

0=1 74___TO,__ 62^70 ^ 91

0=2 14( -^ 12T^~*- 99

0=3 212'—~ 188 J~~~ 161 i m 240

0=4 298^^258 ~217 261 / / 104'-

0=5

0=6 802 382 ^ 173 1(8 189 x 131 199-^"1008

56^.1^1,0,^,73

,. 1165. Bf\^m\\417 1(7 1(7- 160 v 33944U 3148 — 2844 2997 ^ 1286 B v JW 1113-^.*.,__.

V ITS - 280^^4 -— 149

2391 \ 7103 (782 7133 .... .... .

"" J1W - tm^^^^^^/'/^:^^2140 ^-898^—— 1049 "Îtt '' 884—— 12(0 f" 42K1(1 " 297 2488 ^ (242 47(0 MOO 7025

TAU (msec)

Spectral—M (mV/V)

Chargeability (mVA)

Resistivity (Ohm.m)

Line 5800 E

Pole-Dipole Arrayna

J±La = 25.0 M

plot point


' Very Strong

1 Strong

' Medium

'Teak

1 Very Weak

•Extremely Weak

25Scale 1:2500

25 50 75 100 125 150mSsamaSf(metres)



Date: 97/02/25

JVX LW. (Ret. 9680, Feb 1997)

TAU (msec)

Spectral-M(mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

116+00 N 116+50 N 117+00 N 117+50 N 118+00 N 118+50 N 119+00 N 119+50 N 120+00 N

1000 'f 2000 "^ 1000 " - 126 ™* 2000 ^" 125 1.00 0.10

1000 = 1000 j ,, 500 , i IS 0.10 0.10 0.10 0.10 0.10 0.10 O

0.10 0.10 0.10 0.10 0.10 0.10

0.50 0.20 0.10 0.10 0.20

0.10 0.10 0.10 0.10

0.10 0.10 0.10

0=10=2

11=3 0=4

11=5 11=6

116+00 N 116+50 N 117+00 N 117+50 N 118+00 N 118+50 N 119+00N 119+50 N 120+00 Nl————l————c————l————————l————i————l————,————l————————l————i————l————————l————c————l————c————l————i————\————,————l————c————l————l————l————.————l————l————l————l————l————l

11=1 H2 j

11=2 187

11=3

0=4

0=5

0=6

143 -__ 117 111 ~JS*-V m - 8M ' 172 x 111 92 ~~- 672^wSjttfS(2 l'"214 178 143 152 S 200 ' 237 2M V 133( v y /^ s

J 162 ^~ 153

92 85 91

143 ^ 187 216 214- — 204 209

176 186 171 ^ 206 ^ 221 ( 189 199 161 \ N 103 100

182 187 '223 x 202 202 191 195 174 N 98 117 143 —^ IK

\ ~c -— _ C — f ^^~

-148 J 1 16 ^ 138\ \ 67 65 87 67 (ClW

S^UZ 121 118-^-80 67 67 64\,1 106 S, -"^^~ - -

\ \ 103 100 \

11=111=2 11=3 11=4 0=5 0=6

IP-1116+00 N

IP-l

116+50 N 117+00 N 117+50 N 118+00 N 118+50 NH————l————h-

119+00 N 119+60 N 120+00 N

11=1 1^=202,1=0.5

0=1 8.7 , 7.4

0=2 0=3 0=4 0=5 0=6

14=220,1=1

) l J^\\\12 f 14 l 12 A\\V x \\\\\\12 -^14 IS ^ \ X 11

0.70 0.90^-1,2 , 0.90 0.60 -. 0 .40 11=1

0=2 0=3 0=4 0=5 0=6

11 X 8.3 g\\ 1.5 . -0.20 0.50 0.90 0.30 l 2.1

0.90 0.50

3 \ 0.50

116+00 N 116+50 N 117+00 N 117+50 N 118+00 N 118+50 N 119+00N 119+50 N 120+00 NVH(2)-

0=1 5654 7118,

11=2 4456

0=3

231 15K 201834339

259 -^ 173 m 165 'Z5Sx 139 151 .204 286

221 303 428

5298 — 6886271 1585 1335 1155 702 420 193 314 339 459 260 292 418

2879 — 4448 ^ 3337 -C 1275 1139 1446

1794^=647^ 2929 s 1011 1340 1728

284 l 389 424 l 574 \ 323 372

541 310 475 502 688^- 391

180 221 0=1

0=2

0=3

0=4

0=5

0=6

TAU(msec)

Spectral-M(mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

Line 6200 E

Pole-Dipole Arrayna

a :: 25.0 M

plot point


xxxxxxxx

'Very Strong

Strong

'Medium

Weak

•Very Weak

'Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

J L- (metres)


GLENWATER PROPERTY, HORNE TWP.THUNDER BAY AREA. ONT.. NTS; 52A/12

Date: 97/02/14

JVX LTD. (Ref. 9680, Feb 1997)

TAU (msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

n=l

11=20=3

11=4 0=5 11=6

114+00 N 114+50 N 115+00 N 115+50 N 116+00 N 116+50 N 117+00 N 117+50 N 118+00 N 118+50 N

11=1 125 16 125 31 16

11=2 0.20 0.10 0.10 62

0=3 31 0.20 16 31

0=4 0.10 16 O

0=5 260-^K

0=8 500 250 '

.2000 ^ 1000 r-^125 O 16 0.10 0.10 0.10 0.10 O 0.10 O

i 125 O 0.10 "250" 0.10 0.10 0.10 0.10 0.10

125-'III 2000 i- 2000 ^ 1000 1000^2000^^62 0.10 0.10 2 0.10 0.10 0.10 0.10

1000 )) 2000 XT 1000 "" 10wT\ 1000 V- 2000 AW 31 __ O 0.10 3.9 0.50 3.9 0.10

.2000 X1

2000 f/ 1000 C (500 J 1000 1000 - - 1000 ~ 1000 ^) O 0.10 0.50 16 16—'J J //~"—""^2000 '' i OOO ' 1000"" 1000 ' 1000 '2000 — 2000 ' "'-"it 0.10 0.10 250- 62

11=1 11=2

11=3 11=4

11=5 11=6

114+00 N 114+50 N 115+00 N 115+50 N 116+00 N 116+50 N 117+00 N 117+50 N | 118+00 N 118+50 N

^ 140-/ 246 x 176 X'sy/ u ( ^iQ S S no* 013 ._ ia

.121 ^^ 117 111 99 97-^ 140 y 246

166 (f 203 m " l l "W*} 107 92 ^/^ 159 -^Y 236 212

117) 166^^111——.117 116^/1" ( Wt 217 230 ' S//^^ C~ XX ^-____.

206 204 ) 221

29 52 ' l ' 193 x 2H -

195 214 220 239

195 204 '

I P -

114+00 N 114+50 N 115+00 N 115+50 NT-10.MP

N 116+50 N 117+00 N 117+50 N 118+00 N 118+50 N-l————c————l————————l————c————I-

n=2 M=100,T=.002

1.00 1.6 1.9 —— 1.2

\^.-. ; u1.00 ON 3.3 ~CT 8.1 1.6

-0.60 0.60 /\ U \ 2.2 " 2.5

-1.2 1.5 . "N j.3 — 3.2 3.1

114+00 N 114+50 N 115+00 N 115+50 N 116+00N 116+50 N 117+00 N 117+50 N 118+00 N 118+50 N

TAU(msec)

Spectral—M(mV/V)


Resistivity (Ohm.m)

Line 6600 E


r±La ^ 25.0 M

plot point


•Very Strong

Strong

' Medium

Weak

•Very Weak

" Extremely Weakxxxxxxxx

Scale 1:250025 O 25 50 75 100 125 150ar"-"—g

(metres)



Date: 97/02/14

JVX LTD. (Ret. 9680, Feb 1997)

TAU (msec)

Spectral-M(mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

113+00 N 113+50 N 114+00 N 114+50 N 115+00 N 115+50 N 116+00 N 116+50 N 117+00 N 117+50 N

11=1 0.10 x 500. -/v '-20 \ 250 \ 0.50 .125 y//. 11

11=2 500/7,0.10 62, \ W-^1KM.,VM

11=3

n=6

n=2 11=3 11=4 11=5 11=6

O O O 0.10 ___3.9 ^ , 250 i 500 i 250^x31 125-^ 0.10 n=l

O O 0.10 f . 250 250 ( 500 ^^ 500 , 500.\\ 62. (({. 100) 11=2

O O 125 V 250__ 25pi ((1.1000^500 X^/250\^ 82 n=3

n=4

11=6

0.10 ^ x 250 s '125-^500^ 1000 — l 500 /Y/ 1000 l 16

260/500 --75 125. 82 0.10 31 125 _ 125

250 250 250 * 2000 W™ 82 0.60 125 ^- 250

113+00 N 113+50 N 114+00 N 114+50 N 115+00 N 115+50 N 116+00N 116+50 N 117+00 N 117+50 N

IP ZoneJ13+OON 113+50 N 114+00 N 114+50 N 115+00 N 115+50 N 118+00 N 116+50 N 117+00 N 117+50 N

11=1 1.3

11=2 2.8 ' 1.1 y1 2.6

11=3 0.90 S 2.7 ^ 3.6.

11=4 2.B

11=5 4

Low Resistivity

11=126,1=1 1*1=140,10.5/1.07.5 6.8 x 3.9 x x -0.80 -1.3 -0.80 0.10 s 2 .8 i 4.8 i 6.7 _ 5.3 -~^ 4.6 ^ 6.5 \ \ 2.5 n=l

8.9 ^ 4.7 NN 0.30 S 1 .9 3.2 ^^ 4.5 ; . 6.2

3.1 ZZ ' 4.8 l ' ' 8.9 ' - 5.8 ' 7.2

113+00 N 113+50 N 114+00 N 114+50 N 115+00 N

n=2

115+50 N 118+00 N 118+50 N 117+00 N 117+50 NVWH(6) VWH(6)-———VWH(3)~ rj VWH(2)-

11=1 121 205 186— 211 239 201 260 187 ^.^ 123 ^ 171- 198 200 ^, 312 -620-—— m --W ^- Utt 1096___^1009 1300 11=1

191 297 —— 337 383 307 ^ 276' 493

240 44!i^— 496 ^^ 443 365 418 804

326 ( 594 557^^- 497 —— 491 —' 598 l "1131 ^^~ 850 -^597

408 \ 848 597 825 657 . 781 \ 1523 x^ 1142 J^ 713 "N 796 868 814

x (lin \

- 620 --—605^-346 v- 1166

330 ( ( 1293 — 1289 ;\ 389 V 1134 ' 2229 ^ 1560XN\\ \\\ \ l *\ 1507 \\ Ml. \\ 1771

430 866 706

659 681 \ 411 532 V ^ 2105 ^x 1507 X\ 361. \\ 1771 2927

2163

11=3

11=4

11=5

1916 1309 ' 618 N 1019 1107 711 548 x 2838

TAU (msec)

Spectral-M(mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

Line 7000 E

Pole-Dipole Arrayna

a s 25.0 M

plot point


'Very Strong

Strong

'Medium.

Weak

•Very Weak

'Extremely Weakxxxxxxxx

Scale 1:250025 O 25 50 75 100 125 150

J L-(metres)


GLENWATER PROPERTY, HORNE TWP.THUNDER BAY AREA, ONT.. NTS; 52A/12

Date: 97/02/14


HORNE TOWNSHIP PROPERTY

TAU (msec)

Spectral—M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N

0=1 129 125 0.10 0.10 0.10 3.9 31 125 - 125

11=2 125 125 16 3.9 3.8 f 'm) \ 1 6 125

0=3 0.10 3.9 0.10 16 W-^-x. 250^--125 125

11=4 0 .10 3.9 16 31 16 1500 \.31

0=5 3.9 It 16 31 ^ 250 500

0=6 500^ 3.9 16 '500

0.20 0.20 250 __ 250 ~- 0.50 0.10 0.10 11=1

3l 125 —— 62 125 7 500 - 31 0.10

31 31 , 250 OJO 125 500

125 250 ^- 250 — 250 -—— 250 -^ 500 —— 500

1000 N N 31 250 250 126 500^— 1000 '500

9W50N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N

0=1 121 143 121143^- 117 108 * 143

0=2 143 ^__ 121 r 103"S*- U7~"^~ 117 98 111 121 152

0=3 101 ,__ 117 ( (m) ) 111 111 104 121 -, 121 117 117— Q ^——-S/ / S ^\ VN \

0=4 170 ) 117 ——' 107 108 "l^-- 121 C~~ W (—"-OV 1M 'U 1 M

0=5 U7 107 111 117^^^133 116 \ 66 \\ "' '82 ^117

92 ^ 54 67 87104 123^ ^^ ..

117 ( 56 ^\ 110 106 103 \ V 38 67

0=6 76 117 111 121 143

143 121 -*^ 143\

116 107 lOt \ 40

114 114 112

104 113 119

82 ^ 117 146 146 143 N 151 ^ 82 — 118

0=1

0=2 0=3

0=4

0=5

0=6

IP zone I P - l IP-1 IP-3W+50N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N

0=1 2.8 —— 2.7 ^ 3.2 3.1

0=2 4.6 " 4.1 3.6 3.6 3.7

0=3 3.7 3.7 3.5 4.1 4.5

0=4 1.6 j 4.1 ——— 4.1 4.6

0=5 3.9 4.^ 4.6 4.6

n=2 n=l M=98,T=0.5 1*1=143^0.125/0.52 ^-^- 3.3 i 4.6 \ 5.8 —— 5.4

^1=149/1=0.251^=92,1=0.25/0.53.1. —— 4.2 t 5.7 \v 1.4 1.00

0=6

1.00

1.2

4.6

Shear / Fault?

99+50 X 100+00 N 100+50 N

0=1

0=2 0=3 0=4 0=5 0=6

101+00 N

Shear / Fault ?

101+50 N 102+00 N 102+50 N 103+00 N 103+50 N\H(2) ' n=6

-VH(l) L —— JVH(1)'H^6)'H(3) '- H———'———h-

n=2

321 s .W •^ 6B83 _ B4W

0=2 31K S 1 31 16K^--30I A 7734 -^ 1391

11X 14K ^ 49K j 211. -^ UK - 2120

UK f 1 351 .30K 27K ^ l

23K 44K 321 MB

TAU (msec)

Spectral-M(mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

Line 6300 E

Pole—Dipole Arraya na a

a = 25.0 M

plot point


XXXXXXXX'

' Very Strong

•Strong

' Medium

'Weak

- Very Weak

Extremely Weak

Scale 1:250025 O 25 50 75 1 00 125 150

mf ' L- (metres)


HORNE TOWNSHIP PROPERTY THUNDER BAY AREA. ONT.. NTS; 52A/12

Date: 97/02/14

JET LTD. (Ref. 9680, Feb 1997)

TAU (msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

99+00 N 99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N

0=1 0.10 0.10 0.50 1.00 125 , O 31 16

0=2 0.10 3.9 0.50 31

0=3 0.10 0.20 0.10 \ 125 125 125 f 250

0=4 0.10 0.10 125 /•250 -C^125 125 \ 250'

0=5 0.10 16 125, f r5o7v\ "\ 125 125

0=6

31 16 y/ 500-x 250 ^\ 500

0.20 16 125—-250 250 11=6

99+00 N 99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N

11=1 11=2 0=3 0=4 0=5 0=6

. 117 111 111 117

121

67 67 __^ B4 v \ 138 ^- 116y- ^^N. \ \ V ^^

67 40 l ) 103 —— 108 ,~^. 117 121 C 116,—- 121 v 116.///^^\ ^ { ^^-^ V67 ——' BO f// 1B77\\\ 121 ) 116 121 133 121

/////L-J\\\ ^ l ^ //, 65 (ff 1 70 J ) y 1 16 119 116 143 ^i 133 133 x

^ / V //S105 116 121 143 143 -S*- 143 S S ;

168-\ 111 116 146 133 -—Iff? '''21* •'•"153 138 117 '" 203-^~ 117 N x 187 —— 178 "^ -221

133

117 i 143 11=1188-*^ 254 ^v^ 146 , 116 ___ 105 117

121 ~\ 151 ^r 171 \ 143 , 168 —— 106 ^ 1B7 ^s 186

138 i—— 151 NA 105 ^ 162 f f f 254 /A 178 -^T 152

0=6

99+00 N—f————'————h-

IP-5 IP-299+50 N 100+00 N 100+50 N 101+00 N

I P -T-1,MR,101+50 N f lOS-toON

n=l n=l 1^=116,1=0.125 1^=117,1=0.031

0=1 0.50 \ 1 .3 1.9 3.5 4.8 ^^.^-^-.0-/ss 4A 3 .7

\2.3 \

M=2

(Long T and relative low Resistivity)

IPh3102+50 N 103+00 N 103+50 N

n=2 n=3 25 1,1=154,1=0.5 1^=187,1=2

5.8 -__ 4.5 __ 3.8

0=2 0=3 0=4 0=5 11=6

0.90 1.8 \ 2.3 \ 4.3\ \

0.90 1.6 2.8

0.90 2.2

1.6 '

- —— - . , . - __ . _ . x^^

—— 5.2 j^ 7.1 "cU AX *.3 x 5.5"^^

5.4 5.1 5.9 8.3 6.1 6.2 ^— 6.9 J 4.6

2.8 ' 4.6 5.9 ' 7.7 ^ 6.4 -" 4.3 ' ' - 8.8 '"' 1 .7 - N 3.9 3.9 3.2 4.1

99+00N 99+50 N 100+00 N

0=4

0=5

0=6

H(l)

0=1 166 ^ , 418 , , 2024. , 9457 811

0=2 364 j w y^yj ^®-0=3 BIS \

H———'———H 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N-VE(2)*———VH(1) VH(3) VH(1)- -VH(3)

17K \ 45K i 491 39K , 82K v52K^- 77K 731 , s 20K -— 13K 161 __ 19K -^ 271!i ( "—' y —— . . ..281-^281 54K 661 — 78K 991'— 105K UK 7 s W , 22K ^ 271__ 26X

41K 30K \ 851

-78K 991-

^*J

1777

148K Offi ,.i,

54K \ 42X 41K l 991 108K 1111 OK''-""- - \ - V v———} \ ^ S,7770 A 321 X53I 56X 62IJ 93KV 12BX — 1201 X,\\\\v\ \ J/ J—j 7 \\\ri gj04 ^ 3d ' *™ "i* — "iiw i nw 717T ^ wnr

l1BK l 37K 39K

\

-49K

BBS BIS - 101

L 26X V 48K 351 \ 17\ \ \\

28K 28K. an VS. 1 71

1071 717K X'33K 3K ~ 291 28K 23K~~~~ 3 11 301

79K 11=1

0=2

0=3

0=4

0=5

0=6

TAU(msec)

Spectral-M(mV/V)


Resistivity (Ohm.m)

Line 6700 E

Pole-Dipole Arrayna

a = 25.0 M

plot point


xxxxxxxx

'Very Strong

Strong

"Medium

Weak

•Very Weak

'Extremely Weak

25Scale 1:2500

25 50 75 100 125 150-l b. (metres)


HORNE TOWNSHIP PROPERTY THUNDER BAY AREA. ONT.. NTS: 52A/12

Date: 97/02/14


TAU (msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

99400 N 99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N

Ox y 250 -^- 31 31 16 s 125 125 —18 sSO __. 125 3111=1 0.10 125 x 31 0.10 16 16 0.10

11=2 0.10 VJ25 O 31 ———^ O 125

11=3 0.10 O

n=4 On=5 0.10 16 J 126 125 /- 250 250 J 125 125'

11=8 0.10 125 126 '260 250 ' 125 125 ' ' 600 / m -^250—'"'Vi ^ 125^- 25(T

250 V V 500 31 ss: 0.10 125 125 V 250 \ \ 3.8 3.8 — 31 7.8

125 ( (f 500 n 31 125 ' ( f 500 l ) 250 S 125 \ 250 126 —— . 125 ' 31 \ \ 250

250 ' 125 125. 125 —— 125

11=1

11=2

11=3

11=4

11=5 11=6

99+00 N 99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N

121 , 1 17 —— 82 , 1 11 ——— 111 v ^'ZW^în ts^^îf^, 182 , 108 108 ^ 107 121 121 111 \ v 56 -^ 44 SB ^ St nsl" //?^\\ ((tfF^^^^ ~^^^/] ( \ ///^^ / ~ V N^—x\ \ÎIUKV nlliy.ii? U1\.U Jill IK — isi ^14J——'162^ 148 117 OCfflaJn 121 143 ) 108^^-117^~- 83^V 60 36 n=2

187302/0 x^^' "116 U Uaj!11?^.117 Ml S ,\W 162 143 146, \ 11^—x 143 —— 143 .117 f 133 | 106 C 78 67 11=3

11=4

11=5 11=6

116 —— 116 117 / 162 162 143 143 __ 143 —— 143 146 ' 117 118 —^ 121 ——- 117 "\ 81

162 143 143 124 j 152 146 ' 116 108 116 137 114

62 143 143 ^124 146 -^ 162 ' 117 121 105 124 133

IP-599+00 N 99+50 N 100+00 N

IP-2

100+50 N 101+00 N

11=1 0.40

11=211=311=411=511=8

0=211=116,1=0.125

0.60

-ir, lîe^TÔ.S M= 16211=0.25

^4.8 -^.3.7 .

•3.8' 43=^6'""

101+50 N 102+00 Ni 0=1

11=121,1=0.1254.5 y 6.1 4.1

IP-3102+50 N 103+00 N 103+50 N

— — — — -0=4 11=117,1=2

4.14 (

2.4 n=l2.3 ^ 1 .7

3.7 ^ 3.2———3. M.6 n=2

6.8 "—- 5.8 -Z^^J! "\ 3.3 n=3

n=4 n=5 n=67.8

99+00 N 99+50 NVH(1)'VH(3)

100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 NH(6)

11=1 11=2 11=3 11=4 11=5 11=6

531 ^3150 vSffi/- 8527 ^ 171 111 ^* 2738

608 ^ 8632 —îa ^ 1 51 ' - 31K —-" UK^^-J///^^ 1178 ^ 8782 ( 64K ^^

, l Wl -.6466 2176K N \ l \ 18K\ 101

5446

3833 \JB88 " 1817 — 1463

3484 3765 ~~ 3200

3324 S649 " 5045) . ^~

,8038 ~~ 7153

111

11=1

11=2

11=3

11=4

11=5

11=6

TAU(msec)

Spectral-M(mV/V)


Resistivity (Ohm.m)

Line 7100 E

Pole-Dipole Arrayna

a = 25.0 M

plot point


Very Strong

- Strong

' Medium

'Weak

- Very Weak

'Extremely Weakxxxxxxxx-

25Scale 1:2500

25 50 75 100 125 150-l L. (metres)



Date: 97/02/14

JVX im (Ref. 9680, Feb 1997)

TAU (msec)

Spectral—M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

99+00 N 99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N

0.10 3.9 31 31 . 125 - "125^^125'

n=l 0.10 — 0.10 7.8

0=2 5M\\ 0.10 16 0.10 0.10 16

11=3 500^tllO 1.00 0.10 0.10 31 ") 125 X 250

n=4 2000 M 0.10 0.10 0.10 0.50 125 S 250

0=5

0=6

W/

•125 It i i \W s/ 0.10 31 i /l 1000li C^ J (((iSs16 l 250 S/ 0.10 62 ^ , 250

"250\ 125 -"0.10 125^^250

250 J 0 .10 31 j 250

O 0.10 0.50 16 16 V 250 250

o 0.10 ia^~^en^ 31 - ^ 250

0.10 0.10 3.9 y \

^ 7.8 2 16

125 ^ 31 —— 31 ( 250 -A. 0.10 Os 250S

' 125^=00 X 31 31 ^^^\^•^J/2""

—— 500 ^ 250

11=1 ns2

11=3 11=4 11=5 11=6

99+00 N 99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N

0=1 0=2 0=3 0=4 0=5 0=6

67 , 1 17 117 108 v. 143 —— 143 s 107 121 ^__153 - 117 v. K *^^ M zsss. N __ M s 40 29 0=1

0=2

0=3

0=4 0=5 0=6

67 "C\ 134 > 111 111! 182 , 133 , 143 A ( 74 "S~ 106 ^f 75 138 l 105 ^ 124

124 \\ 59

IP-2

99+00 N 99+50 N 100+00 N 100+50 Nfi

1*1=117,1=0.031 M0=1 1.00 ^-0.90 1.8 - r0.30 0.90 j 3.4 y 4.7 8.8 - Ji2.

0=2 ^^.0,10 VlJ)

0=3

0=40=50=6

-2.MPN 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N

1*1=117,1=0.45.8 s , 1 .8 ^ , 5.4 x 7.8 ^M 16 tuna,. 1 .1 1.1 1.6 1,7 11=1

5.7 J ) 3 .3 Ss 5.7 5.8 Ui 0.50 —— 1.2 1.6 1.4

4.8 '— 3.4 r S 13. 6.3 7 7.3 x?5" 3.8 Z^ 3J \ 1.9

5.5 —— 5.9 !—— 7.3 -J 8.1

4.8 C 1.2 AV 6.6 f 7.4

99+00 N 99+50 N VWH(2j

100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N

461 —— 441 -

/'iftv 40K

—— 681' l 5730 3081 ~ 3316 9147//////) r? \ \S S 13i L 2993 4606 5183

11=6 212 4818

n=l n=2 n=3 ns4 n=5 0=6

TAU (msec)

Spectral-M(mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

Line 7500 E

Pole—Dipole Arrayna

a = 25.0

plot point


xxxxxxxx-

1 'Very Strong

1 Strong

Medium

' Weak

Very Weak

'Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

•l bi (metres)


HORNE TOWNSHIP PROPERTY THUNDER BAY AREA. ONT., NTS; 52A/12

Date: 97/02/14

JVX LW. (Ref. 9880, Feb 1997)

TAU (msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity(Ohm.m)

99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N 104+00 N

0=1 0.10 0.10 16 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0 31 1.00 .w500^y 0.10 .125 , 31

0=2

0=4 0=5 0=8

0.10 0.10 31 0.50 0.10 0.10 0.10 0.10 0.10 0.10 0.10

0.10 0.10 62 2 0.20 0.10 0.10 0.10 0.10 0.10

0.10 0.10 GM 0.10 0.10 0.10 0.10 0.10 0.10 'V250

250 " 125 __ . 125 82 125 __ 125 125

0.50 3.9 l 250/^500^250 l i f ^

0.10 0.10 3.9 2 0.10 0.10 0.10 0.10 f , 250 /, 0.10 0.10 ^16 O 18 ( 250

0.10 0.10 31 16 2 0.10 0,10 /250 //O O O 0.10 O O 18

0=2 0=3 0=4 0=5 0=6

99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N 104+00 N

0=1

0=2 0=3 0=4 0=5 0=6

67 67 \ 44 67 67 67 67 67

67 67 \ 44 54 \. 65 67 67 67 67 67 67

67 67 46 48 64 67 67 67 67 67 ' J 162

87 St -^ U 71 Z^ W \ V? 67 67

67 67 - 63

67 ' 53 39 —— S3"7 67

203 x// 121 117 0=1

0=2

0=3

0=4

0=5

0=6

99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 Nxxxxx 1 11=1

0=1 0.40 0.50 v 1.9 0.80 1.00 0.60 0.20 0.20 0.10 0.10 0.20 0.20

0=2

0=3

0=4

0=5

0=8

I P - 4 IP -4104+00 N

n=3 1*1=187,1=0.56.3 x. x. 3.4 _s 4.5

1.3 0.90 0.30 0.50 0.30 0.50 0.40 0.80

1.00 - 0.80 0.40 0.20 0.40 0.30

1.2 1.3 \ 0.60 0.70 0.50 0.50 'sf 4.6

1.2 1.00 2.1 1.3 1.00 0.70 1.1 'fff 6.5

1.4 0.60 N 2.5 ^ 1.7 1.5 0.90 1.2 '-"" 5.2 -^ -2.7

4.3 0=1 0=2

0=3

0=4 0=5

0=6

99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N 104+00 NH(2) -5=3 VH(1)

0=1 103 145 y 204—-, 120^ 116 -.66^ t? 72 ^ 85 100 ^161__..745 ^-^W,^ 4483 -^ 2899 f J48?.^^^, ^ 7™ \ | ®* n=l

0=2 202 264 s^~~W~~~-- 260, 249 ~~^. 147 __ 147 ——- 167 .—— 210 —— 257 475 437 J

0=3 295 388 /"~593~^-444 __ 462 J^~ 258^ 259.^^-309 394 ^_.528., 388-—Jflj^glgf 19K\~~ 7082 ^ 6828 { 131^ 16X^*2347 0=8

0=4 408 y 572 f 883^727 —— 728 ^\ 396 413 ^.495 679 ^461" 692. C^.M^ IK ^x.111 —— 10I— 14K j m 0=4

0=5

0=6

582 785 l 1325 "1051 — 1040 ^x 581 604 771 805~- -731 1119 l 1820 1587 — 1431^* 798 873 692 402 ^^ 84 76 ^106 A x 29K N 12K 15K

0=5 0=6

TAU (msec)

Spectral-M(mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

Line 7900 E

Pole—Dipole Arrayna

l__l

a ^ 25.0 M

plot point


Very Strong

-Strong

1 Medium

-Weak

- Very Weak

Extremely Weakxxxxxxxx-

25Scale 1:2500

25 50 75 100 125 150 -J L- (metres)



Date: 97/02/14

JVXLTD. (Ref. 9680, Feb 1997)

BATEMAN LAKE PROPERTY

POLE-DIPOLE ARRAY

TAU(msec)

Spectral-M(mV/V)


Resistivity (Ohm.m)

91+50 N 92+00 N 92+50 N 99+00 N 93+50 N 94+00 N 94+50 N 95+00 N

—— 10 '"2000 *' f~?S"^ 20

1000 11=111=8 11=3 11=4 0=5 11=6

91+50 N 92+00 N 92+50 N 93+00 N 93+50 N 94+00 N 94+50 N 95+00 N

108 105 __ 111 121 ^ 116 xxx/183__. UT ^<.o:. 135 -^ Itt ^. 124 - x 159 n=l

133 164 SX* 129

148 —— 152 \ 171 -^~ 163 \ 182 \ 204

166 -——. 168 X 183 , A 1661 \ m \ 206 232 l x 256

282- 277 ^^238**^ 180

I P -

91+50 N 98+00 N 92+50 N 93+00 N 93+50 N—l———,——^-

IP-4

94+00 N 94+50 N 95+00 N11=4 11=2/6

1*1=219^=1/2 1(1=211,1=212 - 13 v^. 8.8 .

l ( i x^——-^^^r ^—-^ V \ \ r11 -x 15 -^- 13 s 15 -^- 13 13 12 X 14 ' 16 ' It

0=1

0=2 0=3 0=4

11=5 0=8

91+50 NL-J.-1.-.L-J

92+00 N 92+50 N 83+00 N 93+50 N 94+00 N 94+50 N 95+00 NK K M. A. l—— M

n=2/6 -VH(1T

0=1

0=2442 . 20K - 421 , 561 -441 34K 20K v, 7862__ 101 141 0=1

30K ^^ 21K 21E ~O 14K 14K

20K 29K 30K 471 ^ 271

0=5

0=6

301 28K 38E \ 20E

342 485 ~~- 1263 \Vl8K ^ 158-^-241 r35KVOl9K\ 53? m .

0=3 192/^315 476 ^^iu^ lv^\ r~ ^ .' , x0=4 161 ^.297 ^ 546 1498..\V 33K 311 361 \ 851 \ 221 29K 25K 321 34K\ 241 28K

145 -^"338 -~. 534 "~x'""'xx

160 ^^ 332 790

34K 39K 43X \ 191^- \351 351 -^Hsi - 341

271 2tt. 371 ^ Z3I

26K 22K 28K 35E

0=2

0=3

0=4

0=5

0=6

TAU(msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

Line 8500 E

Pole-Dipole Array

r±La = 25.0 M

plot point


XXKXX XXXXXXX,

•Very Strong

•Strong

'Medium

'Weak

•Very Weak

•Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

-J L^(metres)

AVALON VENTURES LTD.INDUCED POLAKIZATION SURVEY

BATEMAN LAKE PROPERTY, OntarioConmee A Horne Twp., NTS; 52A/12

Date: 97/03/11

JVXLTD (Ref. 9680, March 1 997)

TAU (msec)

Spectral-M(mV/V)

Chargeability(mV/V)

Resistivity(Ohm.m)

91+00 H 01+50N 92+00 N 92+50 N 93+00 N 93+50 N 94+00 N 94+50 N 95+00 N 95+50 N 96+00 N 96+50 N 87+00N

0=1

0=2 0=3 0=4 0=5 0=6

tt 16 2.5 250 0=1—-^

0=2\

.500

i\\ 4WXJ ,v, OiÔ^__^5(*_JOOe____10^0_^- 500 125 SOO 500-^^125 i 1000 —- 500 1000 1000 -2000 1000 -\J900^- 1000 2060.x 1000

2000 ^JOOO y 1000 ("250 0.10 1.3 10 -——250 500 1000 500 10,^ 1000 'iSOCoN.. 1000 \ 2000 J J 20 20 \ Y 2000 X 1000 f 2000 "N. JOOO ^"500. 0.10 500

MîJ 2000 \J080 iÔ-lOj^TlMO^^ 125 (QÔ/ 250 500 1060 ' 5 f f 2000 2000 -. 2000 ' ^ 1000 ^ 0.20 1000 \ 20 28 ^ 1000 ^ 2000 H

1000^) 2000 jFgOO ^ 2008 ^ 1000 \ 2.5 10 250 ( 1000 ( 10 506NV 1006 x^"20 ^H'ZOV 1000 \ 0.20 1000 \ 10 20 ^ .1009. . (iSoT

2088 *![^Q))l *®* \|[i!L-) im ~^ 50I) CT'lWO \ 500 —— 500 (^ 1000 1000 f O.W ' ^ 29K Y 0.10 1000^^ 1000^ 1000 1000 \ 20 .

106(^^4*00 ' 4000 ^ 206T '10 5 ^ l . —-^ - - -- - -— ' - -- —- ^-*^*- — -— — -— - -— '

2000 -v 1000))\\\^^ VIt 2009 ~~ 2000 2060

0=3

0=4

0=5

0=6

91+00 N 91+50N 92+00 N 92+50 N 93+00 N 93+50 N 94+00 N————l————l————h-

94+50 N 95+00-K 95+50 N——i——i——i——i——i——t— 96+00 N 96+50 N——i——i——i——i——i——*— 97+00 N

202 -/^ 121 -^-^ 78 - 94 i 116 107 i , 146 -~^- 126 — UZ s Ito ^ **. 143 j i 187 __ 181

M3^rcl07 13J 115 f 135 01 183 ^^ 157 '7 186

143 X^ 117 \ fii* S: 118 124 l 146 S 159

\ ^C^152 ^~ 142 \ "S 160

171 ^ 148 ' 168 - ^ 148 ^ N 1*1 ^- 168 169 181 113 ^ N 232 ^ 204 204 ' * 183 181 ' 205 ' 227 ~~- 208

IP IP-4

95+00 N 96+50N

IP-4

98+00N 96+50 N 97+00N-9,LP

01+50Nn=4

=216fT=25.9 . 6.9 7.2 i t 9.6 --^ 8.3 ^ 9;4 ^ 11 \ - 9.8

7.6 7.1 7.6 \^ 6.1 J 7 .6 r 6.8 1Z —— ' 12 l 14 (i W- —— v ""-O — ' !6.2 ~^- 7.7 7 8.*. ^- 7^ J 8.3 l 9.6

f \ N ,2 -^x r8.4 8.8 8.4 l D.* ^- 8.8 —' 9.8 s^ 10

15 14 13 - 12

0=2 0=3 0=4

0=6

91+00 N 01+50N 92+00 N 92+50 N 93+50 N 94+00 N 94+50 N 95+00 N 95+50N 96+OON 98+50 N 97+005

0=1 8821 3605 4284 \ 1170 y 3263 v. 7284 x 2334 — 1656 4401 ^8565 7327 t 19K 27K 21K 2SL \ IK ^. IW. ^ 3B16j 9138 8985 8224 - 7043 s. 1292 616^___585 —— 707V \ X V^—' l V, ^^--—^ S J / / ^^-— ———*^ I \ \ \ \ f^ ^ -——' v ^ ' ——— ^ ^^ vvsî^ ^ ————— —————

24K 291. j H9S 10K -^ 8403 7118 , 4960 [ fm8757 \ 3684 \ \

11=4 0=5 0=6

\ 2691 4857 3427 4S84 3631 f 6372 — 7939 \. 14X

\ \8266 4681 UK 7858 ' 13E

l '^ ^'^' S J/ / /

.2094 2836^^2296 ^3740 3867 /.ill MK 111 , . . .. ^ — . . ...

241 V Sai \ 201 ^141 V 8481 15K ^ 6598 -^MSE\ ^-^ l ^ v—^ \\\ x5199 " 306Z V 6433 5063 6501 5639 ' H1K "\ 8402" 15K IK 14K y \ 231 28S J 131 121 I2X 141 \ N 46*3 ^ 6192 8989 \ 141' 1W ^ 7720

5414 3782 ttd ^ 6524/8498 8966 v. 11K\ 8890 15K 15K 14K \ 1(H——19K \ UK 15K 11K-— 9430 7432 4735 7882 \ 19K 2W

8449 15K—— 151 121 14K 161 14E 131 ' 6874 ' 15K ^ 5517 5039(

TAU(msec)

Spectral-M(mV/V)

Chargeability

Resistivity(Ohm.m)

Line 8600 E

Pole-Dipole Arrayna

a - 25.0 M

plot point


XZXXXXX .

•Very Strong

•Strong

'Medium

•Weak

•Very Weak

•Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

^™ fa- (metres)


BATEMAN LAKE PROPERTY, OntarioConmee tt Horne Twp., NTS: 52A/12

Date: 97/03/11

JVX LW (Ret. 9680, March 1997)

TAU (msec)

Spectral-M(mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

91+00 N 91+50N 92+00 N 92+50 N 93+00 N 93+50 N 94+00 N 94+50 N 95+00 N 95+50 N 96+00 N 96+50 N 97+00 N

V-——"-Ox^s. ^ /- -\4000 J 2000 ^ 1000 1000 1000*-—-—"* jf / r / *~- \ y

11=6 4000

11=111=2 11=3 11=4 11=5 11=6

91+00 N 9I+50N 92+00 N 92+50 N 93+00 N 93+50N 94+00 N 94+50 N 96+00N 95+50 N 96+00 N 96+50 N 97+00N

137 s x 171 ^* 126 , 148__148 138

154 \ 185 171 —— 188 ZTT 162 ^ 153 V k ' 185 . VO- 143

153 /- 1*8 —— 171 \ 143 CSX 187 *—— m / 212 -~^- 218 .J-- 208

IK -~ 190 187 183' '286-^190 183 ^ ' 208 ^ 227 -" N 200 182 " s 244 255

I P - IP-4 IP-4

91+50-7,LP92+00 N 92+50 N 93+00 N 98+5&N 94+00 N 94+50 N 95+00N 9&+50N 9&+OON 96+58 N 97+00N11=2

.10,1=2/418 /IHWS. 33 leaanfft 15 ^ss^** 8.8

11=4 81=220,1=2

11=5 11=244,1=4

91+00 N 91+50 N 92+00 N 92+50 N 93+00 N 93+50 N 94+00 N 94+50 N 95+00 N 95+50 N 96+00 N 96+50 N 97+00 NVH(I)

0=1 8619 15E 141 13K

11=3

3234/6478 60585818 ., 101 ^^4184^^- MM x ICE IK \ m __, 24E 26K^ 171 761

0=2 6854 "ill \ m j 121 y 6967 X 3981 111 151 N 6893 f Iffl MI ) 191 l 381 \ 211 /- IflT ^ 151 ^^ "til^T 8*97 4037 -- 6801 X 1*7 ' 6727 \ 9718 l , 2166 -^ 1340NXvLy/xy /lv /-\ \ \ /\ -^ l ' \ ^^^^^ < ^^~ i\6BM \ 12K 141 l 6840 S 4838 X 6403 \ 121 \ 161 -. 9707 ^ 13K s 161 ^ m. 271 14K 111 \ Iffi ——-161 \ 6072 -- 4904 4828^- 9901NT /ii S \\ } ^\ \\ f ^^ y v \ f \\\\ v x\ \ /

0=4 7328 ^* 10K —- 8272 4350/6049 8987 \ 161 191 \ 8902 \ 15K 171 m '~~ IK \ la 121 l 27K \ 14K\. 6486 \ 3662 — 3024 \ 9378 3639 4880--__^ ^-^ \ \ i \ \\ \ x—^^ l \V \x x\ \ ' \\^-^ i11=5 6041 6480 5382 5040 6255 8408 \ 191 16K 9118 151 ——^ 141 13I^-N 18K \. 14E ^ 161 \ 231 \ 14X \ 5604 2314 3109 -N. 5821 ^ 4078\\ .. \_v\_ .- .. .\^—^r^-X .\.\N\ \ 1Mi .... \.v0=6 3958 4003 6854 5987 7504 HE x 18E 151 ^* 9006 12E 12E 11E x 171 17E' 13E ^ 23E 3461 2182 2047 8223

TAU(msec)

Spectral-M(mV/V)

Chargeability

Resistivity (Ohm.m)

line 8700 E

Pole-Dipole Arrayna

l __l

a = 25.0 M

plot point


xxxxx xxxxxxx.

. yery Strong

. strong

. . .. - Weak

. . . . . Very Weak

- - - - - Extremely Weak

Scale 1:250025 O 25 50 75 iOO 125 150—l ""C

(metres)


BATEMAN LAKE PROPERTY, OntarioConmee fc Horne Twp., NTS: 52A/12

Date: 97/03/1*

JVXLTD (Ref. 9680, March 1 997)

TAU (msec)

Spectral-M(mV/V)

Chargeability(mV/V)

Resistivity (Obm.m)

91+00 N 91+50N 92+00 N 92+50 N 93+00 N 93+50 H 94+00 N 94+50 N 96+00 N 95+50 N 96+00 N 96+50 N 97+00 N

=1 20 \ loco v IMP ~

— 2000 — 2000l^2000 -— 20 vu 4080

500 -^ 0.50 0.10 0.10 0.20

20^" 11

10 2.5 31 0.20 16 OJO 508 ^ 1000 1000 500

2008 ^* "40 iOOo"x 5 250 16 1.00 250 5 0.10 1000

2 2.5 —— 0.50 16 250 v 1000 //"^\\ ~"looo { 0.10 2 0.10 e,ie (2000 y si si it ' 500/^ sT^rrLi^ V 2000 ^ 2000'l \2so-

125 500 0.10 l 1000 ^~mT^- 1000 \JOOp S 1000 ^^

1000 ) 0.20 0.18 8.50 1JK) ~" 500 5 10 ^,500 \ * MM *Z tm ~ im /^~vi it

1000 W/ k-////s

1000 580 ' 2080 '

2000

l v^lOOO 0=1

r vm 0=2 0=3 0=4 0=5 0=6

91+00 N 91+50 N 92+00 N 92+50 N 93+00 N 93+50 N 94+00 N 94+50 N 95+00 N 95+50N 96+00 N 96+50 N 97+00 N

~270163 152 /t 870™ 138- , 188- ,

t 166 -^y, 196 ^ 196 ^: 15* /~ *M /140

1 100 J J 148 /148 f

190-^^ ' ' "'2t2*^ 255 ^^ 193A ^ x 135 ^^ 75 78

Possible Shear zone

91+00 N 91+50N

I p -92+OON 92+50 N 93+00 N 93+50N 94+00 N 94+50 N 95+00 N

I P - 4

95+50 N 96+00 N 96+50 N-H————i————t— 97+00 N

1^=303,1=4n=3

111=287,1=15.1 5.5 —^- 8.1 , 1 1 ^^-- 15 —^ 16 16 ^^* 7.6 -^- 11

22 -x^^ 16 ' 17 17 19 ^^^ 13 ^ 84 -^ x 4.4 3.3 3.2 ' ' 8J " - 12 ^ 11 ~- 13

91+00 N 91+50N 92+00 N 92+50 N 93+00 N 93+50N 94+00 N 94+50 N 95+00 N 95+50 N 96+00 N 96+50 N 97+00 KVH(1)

0=1 log0=2 9148 . 121

0=3 8878

111 VSL 1 31 s 8558 5776 4940 -^ 1598 o^ 337 -^ 288 344 352 s^.- 2888 ^O f

9321 5845 5879 4548 s^v 231 271 ^- Iffi - 111 - 6194 i 4845

151 8415 4388 7909 498 —— 561 -^ ffi 2330

Hit 8886 5684 7778

t*OS M7 —— tOt9 \ 4188 (~24745776 x 8312 7968 8485 7333

5294 7125 5883 \ 8842 7438 l OX. S239 ^ 1884 — 1418 11*4 ^ 2691

4281 — 4789 5490 ^ 7948 9284 15K 231 441

TAU(msec)

Spectral-M(mV/V)

Chargeability(mV/V)

Resistivity(Ohm.m)

Line 8800 E

Pole-Dipole Arrayna

J___i

a = 25.0 M

plot point


xxxxx xxxzxxx.

- Very Strong

- Strong

' Medium

-Weak

-Very Weak

- Extremely Weak

25Scale 1:2500

25 50 75 100 125 150-l Li (metres)


BATEMAN LAKE PROPERTY, OntarioConmee fc Horne Twp., NTS: 52A/12

Date: 97/03/11

JVX LTD (Ref. 9680, March 1997}

TAU (msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

92+50 N 93+00 N 93+50 N 94+00 N 94+50 N 95+00 N 95+50 N 98+00 N 98+50 N 97+00 N 97+50 N 98+00 N 98+50 N 99+00 N

11=1 0=2 0=3 0=4 0=5 0=6

0.40 1000 500 0.20 0.50 0.10

1000 ' i 0,40 20

1000 v 40 liN i /i1000 .OJO

2000 —i

0.10 3.9 12S 0.10 20 \ 2000 2000 2000 i 10 ^^500 31 16 125 2501 1000 500^ 1000 1000 0=1

10 62 3.9 0.10 125 0.10 16 5 500 ^ 20 \ 1000 2000

10 10 250 3.9 0.10 16 31 500 500 1000' \

500 0.10 1.00 0.20 0.10 5 L.. —— "V^^^ff^\

, 1 25 62 16 5 5 500 250 10 ^ 20 10.111.8000^111 r^-^^^^^Z-——-^T-v. —"-"k \ V \\V^IB^V*PFb-t / S^ ^^\\ l *~-

10 "' 4000 = 4000^ 2000^ 1000 N 250 0.30 125 2.5 125 2.5 2.5 250 250 500 *™ U.10 1 '- 4000 N'' 20

C 11000 1000 J 20..__ 250 f 1 000 .500^1000 1000 .2000 ^1000 0=2

5 /Y.2006~|^ 500—~~ 250 10 //2000 \ 1000 ''j 2000 0=3

500 —— 500 '( 2000 2000 2000 0=4

-Z 1000 1000 ^ 500 2000 v \ 500 V 2000 \ 2000

2000 x 500 ^ 2000

0=5

0=6

92+50 N 93+00 N 93+50 N 94+00 N————l————l————h-

94+50 N 95+00 N 95+50 N 96+00 N 98+50 N 97+00 N 97+50 N 98+00 N 98+50 N 99+00 N

0 = 1 282 —— 276 —— 275 /y// 191 i*a*i 106 -—- 107 i 126-^6=170^^100 ^ 122 214 ^— 239 227 M i v v 303 v*i* 193 98 —- 111 -^. 91 ^ 105 -- 124 i , 158 -^-* 133 —— 126 0=1

I P -

Possible Shear zone IP-4

92+50 ,93+OON 93+50 N 94+00 N 94+50 N 95+00 N 95+50 N 96+00 N 96+50 NH———————h-

97+00 N 97+50 N 98+00 N 98+50 N 99+00 N

0=1

0=2 0=3 0=4 0=5 0=6

'11=2'

1^=303,1=1/415 ^- 17 16 i ux 2318 ^^ 20 —— 20 , /, , 13 xxx 6.6 .-^4.8 12 ii 7.7 ^ -^ 4.8 4.9 —— 5.1 s 6 .2

U~ lT~~~"- 12 12 \ 15/ O'y^~rr—-

7.9 —— 7.6^ 8.9 8.9 ' - 6.3 7.1 -"^15 22 21 17 13 7.35.2 8.7

0=1 0=2 0=3 0=4 0=5 0=6

92+50 N 93+00 N 93+50 N 94+00 N ' vH(3)J-t*. L--nVl~~

94+50 N 95+00 N 95+50 N 96+00 N 98+50 N 97+00 N 97+50 N 98+00 N 98+50 N 99+00 N4-H(4)-

0=1 6168 ^ 7509 101^- 5509 5381 -. 1258 567 445.

0=2 8882 /MslT^ 4463~^ 6067 X10K^^2425 CJ435 ~ 1479 — 1743 -^ 2258' 2181 1706 \" 6471 7231 4744 — 5394 N 87iB2^-- 5972 — 4990 6940 ^ 3420 2416 V 9214 \ IK ^161-^ IK.__ 171

0=3 8969 /3155 4569 8538 .18X^5: 5049 — 369?\ 1942 300l"^~3MO 2199 ~ 2174 \ 8053 /-10K^^ 6677 4735 — 4974 4492/9404 7983 3701 \ 2937 v\ 111 \ 191-—20K 241' \ ( \ l s——^^^ \ X l \\ \ l ^v\ i r-^ i \ \ -J \\X\ (

0=4 3849 3266 6137 \ 12K ( 311 -ij 111 C\ 4026 \ 2744 3793 2778 2547 2573 A "I iac X M75 M35 S288 7547 9MO M*8 M76 3130 -0s 101 \ x 22K 231 0=4

0=5 0=6

4124 4161 7464 } 1 1

4920 4857 \ W.'' 361 '^ 54E

/ \\\\ \ \ \ f ^ \ \ . ,in -^^ 5190 3212 — 2916 2946 2792 ^ 3184 V 12K 121 \ N 5550 3550 , 7929 7284 9545 8224 4195 x 2672^Cv^ V l /—-^-^ \\V \ ' ' -^^ 14K ' 5892 KW4 MM 3DM 31B7 XIKI ^ UK iMf

•231

9686 ^ 7041 "- 4874 7282 7053 8756 8884 3556 2689 N 111

0=5

0=6

TAU (msec)

Spectral-M(mV/V)


Resistivity (Ohm.m)

Line 8900 E


l i

a = 25.0 M

plot point


xxxxx xxxxxxx,

•Very Strong

•Strong

'Medium

•Weak

•Very Weak

•Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

-l L. (metres)


BATEMAN LAKE PROPERTY, OntarioConmee A Horne Twp.. NTS: 52A/12

Date: 97/03/11

JVX LTD (Ref. 9680, March 1997)

TAU ( nasee)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

92+50N 93+00 N 93+50 N 94+00 N 94+50N 95+00 N 95+50 N 96+00 N 96+50 N 97+00N 97+50 N 98+00 N 98+50 N 99+00N

n=l

11=2 11=3 11=4 11=5 11=6

2800 o 1000 X 500 ^ 250 0.10 0.20 126 0.20 1.00 500 v^ 2000

0.20 ^ 2000 J, 1060 , 1000ffes. LI f m)

269 250 260 -— 500' 1000 500

2000 ^1000/260 0.10 0.10 250 250 500 f 1000 i- 2000 \ 2000 2000

v~ XN-yc^l 600-^j))"*^-•/s'

^7^™

..500 1000 •x: 2000 — 2000

3.9 126 500 1000'lj/"4000

500 600 ' 2000

11=2 11=3 0=4

11=5 11=6

92+50N 93+00 N 93+50 N 94+00 N 94+50N 95+00 N 95+50 N 98+00 N 98+50N 97+00 N 97+50 N 96+00 N 98+50N 99+00N

Shear zoneI P -

92+50 N\

93+00 N 94+00 N 94+50 N 95+00 N 95+50N

I P - 4

96+00 N 96+50 N 97+00 N 97+50 N 98+00 N 98+50N

IP - 5

99+OON11=2

51=316,1=1/217 -__ 19

n=l M=202,T=4

~n"2——61=243,1=2

0=2

11=3 11=4B^5

11=6

6.1 -. 5.3 -^. 3.8 3.6 3.5 2.8

22

23

24

92+50 N 93+00N 93+50 N 94+00 N 94+50N 96+00 N 95+50 N 98+00 N 96+50 N 97+OON 97+50N 96+00 N 98+50 If 99+00 NO—— VE(4)- H(3) 11=7/2

6105 5710 74*4 — 739S — 6078 ^ 9256 \.2420 r" 2144 3366 s 5381 N 1764 .2580 ( 7916 -^5431 ^ 4626 4247 3621 3987 3286 X^ 902 \ 417

4838 ' 6030 6747 ^Itf-——1SI l 8360 rr 8171 " 2894 5949 *?22 \ 2143 3768 V 1121 ^V; 6887 \ 3324 3637 4872 6497 " 4082 ^"931

4Z10 4232 ) 10K 'f 281 \ 121

3908 6176 f 22K 24E 28E

5689 ^ - UK ~~— 171 f m ^ 281

KM 4783 4436 2548 4475- \

9136 \ 324ff 4259 4893 2772\\ /~\ ^x V6770 7 2783 4607 5043 2888 4960

x* 1843\\V\\ "N \"" * """ 2756 8137

1699 3308 4408 \\12I 131

6817 , 2878 4405 6434 7454 4288 \ 1241 612 X 1868 ^ 2350 \ 4359 \ 101\\

6520 ^^3547 5723 7367 7721 ^5497 \ 1199 ,^^ 639 \140B N gOO 3411

7857 \ 4482 8708 7850 9589^ 5308 ^ 1338 ' 841^ 1375 ~~ 1026

TAU (msec)

Spectral-M

Chargeability(mV/V)

Resistivity (Ohm.m)

Line 9000 E

Pole-Dipole Arrayna

a = 25.0 M

plot point


xxxxx xxxxxxx.

Very Strong

r Strong

Medium

Weak

Very Weak

Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

^g- l- (metres)


BATEMAN LAKE PROPERTY, OntarioConmee k Horne Twp., NTS: 52A/12

Date: 97/03/1

JVX LW (Ref. 9680, March 1997)

TAU (msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

92+50 N 93+00 N 93+50 N 94+00 N 94+50 N 95+00 N 95+50 N 96+00 N 98+50N 97+00 N 97+50 N 98+00 N 96+50N 99+00N 99+50 N

11=1 11=2 11=3 11=4 11=5 11=6

0.10 0.20 \^1000^x 260 600 0.10 31 \1000/ 0.10 0.30 16 1000 1000 s 1000 125 62 ^N^JOOOîy 2M__^20^ | .2000 -v^ 4000 ,yc 8000//v—" ^v\\ — ~-—' ~——A N S0.20 J im 2000 ; j 20 ,—— 250 125 0.10 0.30 125 2.5 500 250 125 250 250 3 1 1 .00 \ tOOO ^ lOOO '..js^x ^—z// /s^^. r~-——\ ^ ~ /

4000 Y ^ 7 1 00Q ^-- 0.10 ( ( 2000 Xs 500 0.60 2.5 125 0.10 125 500 62 250 0.10 ^ 1000 1000 \ 62 \ . 1000 f 0.10\\\ \

2000' f l OOO' ' 0.40 0.80 V 2000 } \ 5

1000 40

0.10 1.3 0.10 0.80 2.5 250 500\XT" l "—————N80 ) 10,00 1000 ) 6 0.10 0.10 62 5

"^-^*^

10

^..uuu 1000 1000 ^ MONî"4000 Hf^'BO .1y /—x; ^\^^^^ } ]500 ^-^ 1000 ( 0.10 ' —— -x " —— "" " '

\ l ^ VlJ1000 *v 40 l .r 1000 li

1000 im ' 20 5 500 0.10 2.5 0.50 0.10 '2000^- 500 0.20 —— 20 ' "3)00 - wo"^00"

jW^lSpO ~- -mil 250, 2000'^"8066^2000 "^10

2000 2000 0=1

MOO 0=2

8000 0=3

0=4

40M"^^WV4000 0=5

4000 '^^8000^^4000 0=6

92+50 N 93+00 N 93+50 N 94+00 N 94+50 N 95+00 N 95+50 N 96+00 N 98+50 N 97+00 N 97+50 N 98+00 N 98+50 N 99+OON 99+50 N

119 -^ 169 v v 87 —- 108 67 ,—- 117 103 76 67 j , 149 v 239 255 390 .380 343—321 n=l-

117 108 122 X 149 ~— 140 105 91 . 100 109 117 —C 95^ 129 ^ ^ 96 ' 117 \ 88 418 ^C 380 , / 277

110 115 118 105 X 143 146 ~T^ 110 115 vos f y ma 'ô^î' l*' //W 221 ^^236] s s S \ x>^===a<^^—'149 90 62 117 152 143 137 U 244

142 121 105 105 105 i 124 \ 158 ^^ 124 200 . 171 ^-- lS l 149 f 133 171 275

202 224-206 223 ' 186 137 121

Shear zone

I P - I P - 592+50 N

T-ll.MP,98+50 N

n=l

11=2 11=3 11=4 11=5 11=6

16 - 20 i 17 .Nv*i 33 v,*,, 8.2 - 8.3 i 5.3 4.4 -__ 4.8 7.4 -37 -28 ii 9.1 vi -23 . 5 .5 3.4 5,3 4.6 3.9 —— . 5.2 4.3 ^ x 10 -, 17 * 19 /, 32 29 27. ^ x -, * /y,

7.1 v 9.3 == 8.9 ~ss: 8 . 5.2 —— 6.1 6.5 , V 2.6 12 ^ 9.5 \ 6.4 . \ 2.8 ) 5.6 s B-9'.7.5 - — 6.3/9.3 9.9 14 24

7.7 6.5 6.1 5.4 10 18 87 "- 32

9.3 "* 7.4 5.9 5.9 5.4 ^^ 7.8 7.6 __- 8.3 ^ 13 14

5.2 5.8 ' 0.46 18 ^ ^ 11 -13 14 16 15 18 " 12u xîpaiifcr^ v )14 ' 18 18 *"fr' 47 ^^8I 14 -^ 9.1 ^ 7.2 '

92+50 N 93+00 N 93+50 N 94+00 N VH(3)————*~

94+50 N 95+00 N 95+50 N 96+00 N 96+50 N 97+00 N 97+50 N 98+00 N 98+50 N 99+00 N 99+50 NVH(2).

14K ,.— l0=1 801 482 __.425 515-^- 1459 _ 3611 ^ 5044 — 1185 1576 ^- 4113 -^ 361 105 289 s 554

- 2264604 991 \ " 39K x 28K^2978 — 1362 20131039 iV- 161 ~— 11

75E 27K 25K/^ 8943 2098 ^ 562 -~ 1911 r 297 296

31K 31K X 5365 3113 6717 \ v 62K 521—- 46K 7989 5038 3456 5106 6327 \ 3061

38K 331 35K, Y 5420 3248 8565 X 44K 321 45K 9039 ' 4100 6336 . ' 1278 ? 3270 . 8287 x 4634 \0380——-297 237 202 ^C 471 sJT 5801 1777

40K 35K 33K v^ 5434 4007 4944 4523 5504 8612 6296 3898 3636 J X 503 323 259 177 x 202 -^ 5743

2Slffi^ 7280 s 3000 n=l

6934 .4419 " 4401 0=2

4168 4554 — 5967

0=4 0=5 11=6

TAU (msec)

Spectral-M(mV/V)


Resistivity (Ohm.m)

Line 9100 E


I±La = 25.0 M

plot point


xxxxx xxxxxxx.

. . . . . . . Very Strong

- - - - - - - Strong

' ' ' ' ' ' ' Medium

--- - - - - Weak

. . . . . . . Very Weak

- - - - - - - Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

-l L-i(metres)


BATEMAN LAKE PROPERTY, OntarioConmee Se Horne Twp.. NTS: 52A/12

Date: 97/03/11

JVX LW (Ref. 9680, March 1997)

TAU (msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

11=10=2 0=3 0=4 0=5 0=6

0=1

0=2 0=3 0=4 0=5 0=6

92+50 N 93+00 N 93+50 N 94+00 N 94+50 N 95+00 N 95+50 N 96+00 N 96+50 N 97+00 N 97+50 N 98+00 N 98+50 N 99+00 N———l———'———h- 99+50 N 100+00 N

10 500 1000 . 2000 2000 , 0.20 1000 1000 i 2.5 10 125 0.10 250 16 62 0.30 16 1000 ^ 2000 ; , 31 31 , 1000 v 2000 , 250 500 v 20 —— W -*,*s WU \ ^-^^ *~..^^*' s s —-————. J -—^^—^ J l /i ^-—* J -~~-^ ^ ^—" -——z*fsZZ~i xu-\^—^^y/ '~ ~ —'-^ "' " "' "" "' " " "" " -^^^J l x i 'v— j0.50 -^500 0.40 \ 1000 f 40 0.10 0.10 2SO 0.50 250 62 16 250 16 31 250 3.9 0.10 \ 500 s l limn L

2.5 500 10 62 250 2.5 0.10

4000 ^ 500 250 0.10 — 500 '^2000

10 250 ^ ./V^^r

125 f 1000 \ 125 j f ^2000, 1000

f-1 20"A '2000" ~ 1000 \ V P-20

: "125 500 2.5 500 500 250 ' 2000" 250 500 1000 1000 2000^ 2000

5 l 1000 *- 1000 —- 1000 — 1000 -" 1000 (, 2000 C^ 4000

500 ^ 1000 C 40 U\ 4000 l 2000 7 0.40 J 2000\

2000

^^ \((7^^^ \r^\^^ 1 000 f 40 Ut 4000 ) 2000 l 0.40 J 201^ \ N^feV/// //^^ 10 S s 1000 20 ^^ 2000 Vk 20 W/ 4000 ^^^ \ f ,. ^\\f^i^ y^

..._ . ^80 ^ 40 ^ 2000 ' 20 1000 2000

92+50 N———l———————H 93+00 N 93+50 N 94+00 N 94+50 N 95+00 N 95+50 N 96+00 N 96+50 N 97+00 N 97+50 N 98+00 N 98+50 N 99+00 N————l————l————l————'————l————l—

99+50 N 100+00 N

0=1 204^—214 j 148 _ , 171 \y\ 278^^196^-^^142 __ 143 y 105 108 , 91 i 117 v 86 103 85^ 108 97 - 74 g 412i. 108 ^ 78 82-

0=2 0=3 0=4 0=5 0=6 160 181 -"-254 •"''172-i^26S ^ 2M

221"- 179 85 ~~ 185 — "200 244

90 185 186 X 211 - —— 216 _ 227 265

114 —— 119-^ 97 105 111 92 106 117 109 117

111 110 105 109 107 , 121

121 ~- 121 —— 121- —— . 119 -— - 122 ^ 1 13

142—^119 135^ ^133 189 124 108 l f 1 51 \ Wy// l" ^ m ^-196—^811/255^^-36^X244.^-^287 200 \C 245 -X J 204

184 ^-"148 157 146 146 117 ^149 '172 -199 224 226- 221 248 ' 270 ^ 244' 211

418 0=1 0=2 0=3 0=4 0=5 0=6

Shear zone l

92+50 N

I P - 5

41=432,1=4/87.1 ( 5.2 4.4 5.1 4.5 4.5 5.3 4.3 4.9 -12 ^ 4.8 —— 3.9 5.3 __ 7.3 -^4.5 , 7.6 - x , 16

7.3 C 12 \"" 7.4 ' S \.\

13 13

13 /^15 __ 1515 ^ X "li""""-- 18 18

18 '18 16 18 20 18 ' 15 15

92+50 N 93+00 N 93+50 N 94+00 N 94+50 N 95+00 N 95+50 N 96+00 N 96+50 N 97+00 N 97+50 N 98+00 N 98+50 N 99+00 N 99+50 N 100+00 N~ ~ ~ 11=1/3"

0=1 2220 f 762 646 ^, 404; 279 ,i j 4144

-3 7910=2 0=3 0=4 0=5 0=6

483 380 265 -

504 -_. 454 435 .—- 547

^"^ '\

5,57 ^. SIX -- 17K x

46K 29K 21K ^

•38K 19K -^ UK v. 23K -^ UK 17K \ 251

" 22K ""^^V 15K ) 24K \. UK \-17K

662 554 ^- 796 -\ 566 1170 \ V WK. w\\\\799-1024 793 573 2088 A 17K

1184 892/^368 293"^ 2331"' * 22K 25K ^ 15K ^ 22K 21K 22K 17K ^ SK. ' 25K

34K 33K. 22K\ 47K \22X 27K\ C^ \ \32K^ 341 32K \ 17K\ 47K N 25K

171 N. 28K —— 29K 25K \ 16K\ 51K V 29K ~^ 30K ,17K 1 . 3440 — 3036 - 3412 8566 \ 3534

1731 ^^ 456—^232^ 274— 418 xv 2196 3745 , 7643 9062 4887 4320 0=1

... _ W® ^. 1410" ~ 1084 -^438 368 539 \ N 2330 5289 l 8633 ' 3706 — 3126 0=2

13K /- 8096.^-. 2072 .3349 ~~ 2477 ^..1550^.480 441 ^.873 \\ 33871 7193 ~ 6687 \ 2570 0=8

0=4

0=6

503 944 A \ 4564 6307 6669

111 ^ 2991 4191 4027 4174 6541 x 3314 N 1593 ^ x 595

645 \ 1341 \ 4203 . 6370 \^\ X

4284

TAU (msec)

Spectral-M(mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

Line 9200 E

Pole-Dipole Arraya^ na a

1)

a = 25.0 M

plot point


xxxxx xxxxxxx

•Very Strong

Strong

Medium

Weak

•Very Weak

•Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

B"" b- (metres)


BATEMAN LAKE PROPERTY, OntarioConmee le Horne Twp.. NTS; 52A/12

Date: 97/03/11

JVXLTD (Ref. 9660, March 1997)

TAU (msec)

Spectral-M

Chargeability(mV/V)

Resistivity (Ohm.m)

93+50 N 94+00N 94+50 N 95+00 N 95+50 H 96+00 N 96+50N 97+00 N 97+50 N 98+00 N 98+50N 96+00 N 99+50 N

11=1 0.10 125 ^500 i 580___600/-x \ l S—\l500 i-^ 10 \ 500 O 1000 l .

0=3 anoi'AV J-M ;^Jo __ i* -^, MO ''s ' 0.10 _ 10 — - 100=2

0=4 n-5

0=6

82 0.10 2.5 Zi, 3 1 18

1.3 0.80 0.10 125 250

0.18 250 250

^^l/rS^XT QIUU1 f/ lA^^*"looo ^ im — urn— 1 000 ^ MO "' 2000 ~- 2000 AX o.io — ft.io —500 -^ 2000 ^ 500 looo - o.io '500 MO leoo ^- zm "" 10

93+50 K 94+00 N 94+50 N 95+00 N 95+50 N 98+80N 96+50 N 97+00 N 97+50N 98+00 N 96+50 N 99+00 N 99+50 N

57 \ \ * 105 - 121 -133

148 ~~~ 136 O~~ 113 —121 —— 122

183 \ IT? i 187 X 188 \ M 138 \ 123 M

187 182 193 188 148 151 200 143 135 -^ 122 ' 155 - ^ 131 ^- 119 -~~ 121

I P - l

93+50 N 94+00 N 94+50 N | 95+00 Nm m m m- m

95+50N

0=1 3.4__ 4.7 AU i 12 /li 6.3—- 7.3 v 6.4 5.1 5.4 ^-^-K

.\ \ x^ r \\\\\\ 11 \ 8.5^-——9 12 \\\ \ J ( li)

13 N 11 N 8.7 10 ^ ^ IS

96+00 N 96+50 N 97+00 N 97+50N 98+00 N 98+50 N

IP - 599+00 N 99+50 N

3i~1^=^7,1=2

6.8 7.8 v M ^~- 3-8 -^ ** *-3 __ 4.1 4.S , 8.3 6,17

7.8 l A ^- 8.5 \ X W y 5.8 [^ 6.6 X 5.6 . 8.3\ /~~\ \X . ' . —

8,5 ^ 7 ' B l M \ "•l \ 5-' 5-8 ^ H '-1 6'e

4V^ 7.6 8.1 83^^7.40x5^ 8,2 t2 ' 5.7 \ 6,7

6.8 7.6 ) 8,4 f 8.1 Vs^ 7 .9 "\ 6.1 7.1 v 6,1 Z^ 6.6

24~^K-2-4-^S 7.8 —^8.5 (z U^Kl^~ 7.1 7.7

8.2 0=1

0=2 0=3 0=4

11=5 0=6

93+50N 94+00 N 94+50 N 95+00 N 95+50 K 96+00N 96+50 N 97+00 N 97+50 N 96+00 N 98+50 N 99+00 N 99+50 N

247 288 ^ 2128 14* 8835 - 20K 19K IM ^ 161 15K 171 i 8918 6296 7 1067 x 3914 — 2084

24 . C^ 485 -^ 2489 \V 151 l 28K 151 2K 231 6388 S 2288 -^ 4080- - -i*™ s^"^*w- TWM \ R****w y/^

87~N\ 177 L 521 K 28894286 "A 171,^ 4209 — 2122 Iff ^ 8281 ^ 13K ^ 20K 181 V 211 ^ 181 131 111 -^ 8803 X 1842 X 7684 4460 8801 X 3223

7802 6304 8103

2210 v IK ' 67W ' 12K

9285 ' 4437 --~ 2524 ^. 9678 8637 ^ 8571 -s 5016

3165 ~ 48B5 ^1880 ' 9079 9683^ 6882 — 7588

141 0=1

0=2

0=3

0=4

0=5

0=6

TAU(msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity (Obm.m)

line 9300 E

Pole-Dipole Array

a = 25.0 M

plot point


xxxxx xxxxxxx.

•Very Strong

•Strong

'Medium

•Weak

•Very Weak

•Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

mi l-(metres)


BATEMAN LAKE PROPERTY, OntarioConmee ile Horne Twp., NTS: 52A/12

Date: 97/03/11

JVXLW tfJte/. 9660, March 1997)

TAU (msec)

Spectral—M (mV/V)


Resistivity (Ofam.m)

93+50 N 94+00N 84+50 N 95+00 N 95+50 N 96+00 N 96+50N 97+00N 97+50 N 98+00 N 96+50 N 99+00 N 99+50 N

11=1 0.10 1C 19 0.60 16

11=3

11=4

11=5 11=6

3.9 3,9 1.00 0.10 2 1.00 1.3 250 250 250/500 11=1

0.10 0.10 0.60 125 2.5 62 31 7.8 0.50 0.29 1.00 125 C 500 -I 1600 ; l 2000 ? 2009 - 2000 A 1000 ^S-500 250 x 0.10

7.8 16 2.5-250 2000 — 2090 jg: 1000 A 2096 — 2090 l\ 125 ^ 250

K 125 125 62 0.50 31 0.10 ^.250 ~^- dOO 500 _ 560 500

500 v \ 1000 — 1000 — 1980 \ 5002600 V 1000 — 1000 1006 -f, 2090 2* l

m ^~ im " 2000 x" toeo

500

b \ j 0.10 \ 5005 0.10 ^500 580 62 * (M- 250 0.10

93+50 N 94+00 N 94+50N 95+00N 95+50 N 96+00 N 98+50 N 97+00N 97+50N 98+00 N 98+50 N 99+00 N 99+50N

54 i - 106 i 75 84 ^ 92 98 0=1

i P -93+50N 94+00 N 94+50N 95+00 N

T-10.MPN \ 97+50 N 99+00 N 99+50 N

5.7 i 6.5 11=1

2.2 4.3 4.1 8.1 5.1 ^3.8 3.2 U 3.2

7.1 ^ 6.1 s 5.8 __ 5.8 5.0 ' 6.6

6.3 6.7 6.7 6.3-—--—————--^

7.3 7.5 7.4

15 x x - H N 9.8* 8.1 8.3

5.2 5.9 \ 4J 3.4 3.6

3.5 W f 8.6 \V 5.4

4.7 7.8 V 9.4 ^\ 65 . \ 4.3 \ 6.3 8.7 \ x 4.7 —-^ 6.9 ^ 7.4

4.4 - N 6.5 7.1 -—- 7.7 7.7 ' 9.5 9.1 8.4 - 9.3 10 x 13

93+50 N-H———'———t- 94+00N 94+50 N 95+08 N 95+50 N 98+00 N 96+50 -W 97+00 N 97+50 N 96+00 N 98+50 N 90+00 N 99+50 NVB(I)

2136 -^993,^, 36K

5623 , 3987 ~T 1474

n=l 2444 — 2136

0=2^~.

11=3 6357

11=4 101,^ 6879

11=511=6

36K VSls,\Si 1 2J 2286 2051

lit 9622

__ 9180 -7657 14K \.524* ^ 6992 —

6597 ~~ 7662 ) 9677 V 181 \T 7647 111 x 5149 2841 1341 1320;

3153 5887 ^ 86ftl ^121^ (ztt XN 101,_ 8419 5060 \ 1968 — 1645 ~~ "i9W.'..\ N 361 "\ffil 24K

'ill ^ 4028 \ 7690 MSS. 151 ^Isi^- 14E ' 7787 3372 2274 2371 2241 N 481 SOI 291

5ffi' 411 x22Iv 16K 0=1

W \ 241 0=2

0=3

1059 1532 1724 17K 17K - 141 \ 29K 29K -v

261 x36K/ (831)^J7174 — 6282 151 221

2669 1816 1933 161 \ 25K 261 171 N 271 821 261 31K

19S. 181 \ 271 241 \ 171 431 431 \ 591N 241

32K 171 201 341

TAU(msec)

Spectral—M(mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

Line 9500 E

Pole-Dipole Arrayna

a s 25.0

plot point


xxxxx xxxxxxx.

Very Strong

- Strong

1 Medium

1 Weak

Very Weak

r Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

•d Si (metres)


BATEMAN LAKE PROPERTY, OntarioConmee ft Horne Twp., NTS; 52A/12

Date: 97/03/11

JVX LTD (Ret. 9680, March 1997)

TAU(msec)

Spectral—M (mV/V)


Resistivity(Ohm.m)

95+00 N 96+50N 96+00 N 96+50 N 97+00 N 97+60 N 96+00 N 96+50 N flfltOON | 99+50 N | 100+00 N | 100+50 N | 101+00 N | 101+50 N

0=2 0=3 0=4 0=6 0=6

V v\ V.UNX\ON . -_ ^ION ^N5 OJO -~- 250 —' 0.10 j^J25

1000 j^ 0.10 2J 0.10'0.10 250, 0.10 ST!

UN \

125 0.20 OJO S.1 0.10 0.10 250 .^2J U 2500.10 3J OJO 0.10 0.10 0.10 8.100.10 5

125 0.10 0.10 OJO 2

s* '-w woo loo -loooojo 0.10 0.10 ow —

C V.1V

82 ^ 3.8 ^500

5—— olio 2.5 125 2J OJO 3.0

5 0.10 0.10 U 0.10 0..0 82

—""xT v v

250 0.10\\(gv)) W 0.10 125 OJO 0.10 0.10 C-——^S-

K ojo

92+50 N 93+00 N 93+50 N 94+00 N 94+50 N 95+00 N 95+50 N 96+00 N 96+50 N 87400N 97+80 N 98+00 N 98+50 N 9800 N 99+50 N 100+00 N 100+50 N 101+00 N 101+50 N

14. 7-198-^107 102 104 104 .vl

\ 112 X 109 y 114 118

v X 88 \^ 113 112 J 124

115 114 114 v/^ 100 ) 118 /-" 124

204 XVSN 135' x 100 110 110 116 117 ' 120

—-M0 102

IP - 299+50 N | 100+00 N | 100+50 N | 101+00 N 101+60 N

11=202,1=0.01 11=153n=l 11=171,1=2

•--•1413^8.7-08.4—- 92^ 10-

"X^U 0.1 l H fu J 18^--9J

0.0 \U \ OJ-^.^10^— 10 /""tt" X. k- >V——' ——— ^V J.. t~

M 0.1. 5.1 V" ".IJt 12 ^ 0.0 8.2 \ 7.4 7J

0.0 ^ 7J 7.1 ' 5JI l

92+50N 93+00N 93+50 N 94+00 N 94+50 N 96+00Nvn(5)

95+50 N 96+00 N 96+50 N 97+00 N ' 'VH(2)

97+50 N 96+00 N 98+50 N MV 99+50N . 100+00 N . 100+50 N 101+00 N 101+50 N

l __ 771^~: 780 1047 S\

ait m m 40i 3K42i r^yn SK X 4a 411

—- 17*0 Vs. 611 On 661 \ 42K

1302 _ 2070 ^v 661 6(1 - 4K 351

1856 15*9 2291 \\43I 471 391

1*68^361 3H 471 311-——291

4704 — 3428 7038 111 1H 171

4tt 371

TAU (msec)

Spectral-M (mVA)

Chargeability

Resistivity (Ohm.m)

Line 9700 E

Pole-Dipole Array. a na a

\ , ' a = 25.0 MV' plot point


zxzxz xxxxxxx.

- Very Strong

- Strong

'Medium

'Weak

-Very Weak

m Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

(metres)


BATEMAN LAKE PROPERTY, OntarioConmee It Horne Twp., NTS; 52A/12

Date: 97/03/11


TAU (msec)

Spectral-M (mV/V)


Resistivity (Ohm.m)

93+50 N 94+00 N 94+50 N 95+00 N 95+50 N 96+00 N 96+50 N 97+00 N 97+50 N 98+00 N 98+50 N 99+00 N 99+50 N 100+00 N 100+50 N 101+00 N

11=1 11=2 11=3 11=4 11=5 11=6

2000 /j, 0.50 0.10 0.10 250 0.10 0.10 16 125 s s 1000 1000 r--.- 0.10 0.60 31 250 0.10 ^-- 250

0.20 0.10 16 0.10 0.20 62 1000

10 0.10 0.60 0.10 62 0.10 0.10 250 ^-— 10 l 1000 — 1000 2X: 260 125 0.10stf/iSN 81- ,-v^

.... , .1000_ 1000^0.10 1.3 0.10

lOpoY) 2.6 0.10 2.5 2.5 0.10 0.10 16 250 c 0 .10 \( 2000.1^. 0.10 0.10 250"Ml// l

0.10 0.10 260 5 , , 500 —— 500 .

0.10 0.10 1.3 0.10 0.10 — 0.10 500

10 _. 0.10 0.10 0.30 126 0.10 0.10 0.20

10 2.5 1.3 0.10 0.10 0.30 16

10 ' , wro \ \

7 '^~N ^ ' ' -- -- 2.5 ((( 1000')) 5\VlOOO 1000^500 500 ^ JOO ) 5 / ,W —— 500

0.10 5 0,10 0.10 16 —— 2.5 5^ ^" 500 -'2A\ J 500 l 125" 0.10 ^ 500 500' ' j /^ li \ -—-,__"~~^^^'—"\5 6 ____^S/'®H ) 0.10 10___0.10 f mj l 5 /\SOO 500 500 ( im*\ 500

0.10 0.10 ^1000 — looo ''lo 0.10 /^siir^- m s /ara 'W^- SM'^s^^m


105 ^ 117 103 105

136 i^lM 105^)

^ 148X\ 114 ——^111 117 \ x 97^ 108 r- 1 10

'148 OO 114 C~~108 —— 109 105 ^- 110

I P - 293+50N

103 108

260 ^"^ 215^NN 154 - N 118 102 v 120 —— 126 ^ 108 107 - 117 x 140 146

IP Zone

94+00 N 94+50 N 95+00 N 95+50 N 96+00 N 96+50 N

IP Zone97+00 N 97+50 N

I P -

98+00 N 98+50 N 99+00 N 99+50 N 100+00 N 100+50 N 101+00 N

41=172,7=18.6 , 10 s 7.8 — 6.2 8.3 v^ - 6.2 -^ 5.4 \ 7.6

9.4 ~-^. 11 12 9.8 * 6.3 6.4 . 9.87J 7.3 vX 10 9.4 \ 10 v^ 8.5 V 9.7

6.9 7.5 7.9 ^\ 9.3 9.4 \ 10 A 7.7 '8 ^V H 12 ) M V\ *

7.3 " —— " H '-T

6.5 ^^* 9.8 10 ' 7.7 - 6.3 7.3 ^ 9J


0=1 16K

0=2 20K

0=3

0=5

~WL(f)~

4003 3026 x 1163 1448 - 1149 ^ 1263 — 1154

VH(2)

25I^37X\ 861 s58K ^^ 45K -401 411 sMKy '321 21K -18X3 351 - 51K 131. 5716 v 16K v 45K s WL

301 21K \ 391 y IBS . 201 —— 11i --X 7030 V. 161 -v 2K x 55K ^v 321 \\ 5657 X 1216004 .2288 3537 3186 — 2689 2445 491 92K X 67K ^ DTK 26K 601

5808 7784 . 6040 1021 S 681 . 271

46K —— 47K 2SK341 301 12K Z1K W.

84X \- 361 4SK69K 57K 42K 211 31K 321 S4K \ 8

6746241 33K251 45K 191 20K 15S 221 30X

3641 ( 6542 4844 — 4483 3429 S~~^ 5161 6173 ) 6540 9246 13K \; 5728 6183 "~- 6819 5728

6134 . 7778 ^121 13K { 191V" .6713 ) .10K -\ 8023

9322 10K 161 171 v 21K X "* 6058^* UK^ 6370 6835 ~ 5600 ^ s 30K 53K 52K 63S

TAU(msec)

Spectral—M(mV/V)

Chargeability(mV/V)

Resistivity(Ohm.m)

Line 9800 E

Pole-Dipole Array

a = 25.0 M

plot point


xxxxx xxxxxxx.

1 Very Strong

1 Strong

1 Medium

'Weak

- Very Weak

- Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

^^^^E (metres)


BATEMAN LAKE PROPERTY, OntarioConmee k Horne Twp., NTS: 52A/12

Date: 97/03/11


TAU (msec)

Spectral-M (mV/V)

Chargeability (mVA)

Resistivity (Ohm.m)

91+00 N 91+50 N 82+00 N 88+50 N 93+00 N 03+50 N 94+00 N 94+50N 95+00N 95+50 N 96+00 N 95+50N 97+00N——i——i——i——i——i——i——t- 97+50 N 9B40Q N 96+50 N 99+00N 99+50 N 100+00N

0=1 20 0.10

xi—2 n=3 n=4 11=5 11=6

10 0.100.10

40 ^250 82 590-^2.5 31 16 OJO 31 OJO 125 0.50 2 3.9 0.10 5M OJO 0.10 16 31 (2 125 500 125 13 125 500 0=1

0.40 .1000^^.82 0.10 V ION J 250 250 OJO l J l J 125 250 5 0.20 OJO OJO 3.9 0.10 82 82 0.60 12S OJO 2.5 5 250 500 0=2

0.10 20 82 0.10 82 OJO 0.10 250 250 250 31 2 0.11 1.00 0.10 16 125 125 U 1J 2J 2W 500 0=3

31 2J 250 OJO 500 31 31 OJO 3.9 3.9 1.00 250 OJ8 125 250 500 OJO 5 11=4

m m -^^//)x020 0.10 0.10 ^ 2000 ' 1000

20 0.10 oa 0.10(UO _ 40

S.* 7.8 0.10 128500 1.3 7.8 18260 MO \ 2000 ^ 0.10 OJO 0.10 0.10

tON ^'2.6 0.10 - ION OJO 0.10 10 ' 1000 " 0.10 0.10 125 7J 31 3.t 13 1.002000 ^ 2000 ' 500 "' 4900 ~ 4000

91+00N 91+50N 93+00 N 92+50N 93+00N 93+50 N 94+00 N W+50N 95+00 N 95+50 N 98+00 N 96+50 N 97+OON 97+50 N 98+00 N 98+50 N 99+00 N 99+50 N 100+00 N

72 i 08 121 —— 118 x 149 143 152 0=1

0=2

11=3

11=4

0=5

0=6

116. 133 124 l 182 ""X "8

88 \88 X 116 f 148 148 \ 188

84 74 "VBB \ 120 "\ 162 148

112

187 92 ^ 78 UK) 108 108 110

110 ^ 87 "** 106 C 134 ^. 118 109

109 .—— 117^-- 119

I P - 2

5.1 47 8.8 U U 4.8

\xsH x \\\^\N \vi\r '®CV NS^V VlY^*-^-24 ^NX 13^^*19— 17 18 XX 11' X U l 5.7 ^ 10- BJ 8.2 * 7A

U 1J

2.1 -^ U 1J U

7 7.2 U 6.3 \ ZJ 2J

7.4 7.4 12 8.1 Ny 2.6 2^ 2 2.3

7J 7 J 8.7 6.1 \ 2.7 2J 2.3 U 2.4 2.7 3.4

1.7 0.12 U 2.1 24 3J 5.7 7 J 8J 7,

4.5 l 8J) 8.1 ^^^7.4

,1 8.1 171 62 ^ 6.7 \ M U 10

/z ^-u U \ It M f 4.3 5.1 \ 7.1 \ 9J 9

3.9 M

3.6

\ 5^ 7.4 v U

4 B 7.4

U U 11=1

0=3

0=4

0=5

0=6

91+00N 91+50N 92+00 N 92+50N 93+00N 93+50 N 94+00N 94+50 N 95+00 N 95+50 N 96+00 N VH(e)

96+50 N 97+OON 97+50N 98+00 N 98+50 N

0=1

0=2

0=3

0=4

0=5 0=6

311 i 251.-)^-~——^^Tr-717\\S113787 } 1246 J3SB -^J*t\\ T951 l 1*V 281 ( 13K

— 2140 ^ 1848 \ 9710 ——10IN^.2a N

raw

V"V\\ \ \ V \

8724 2203 V7893 - "^VS J V"^^^V,

~3030 r 1863^ 5467 754fl^~ 14K ) 761* N 111 vX ^~—l ^O-——S \

2680 2489 2724 2203 \ 7893

3190 --. 29U.

\ ™/??///*™^7h f i^' r x"\^141 l 586* V 2857 — 2726 - 1944 5224 \ Z418 ^

8414 -~ 4587 3442 -^.JTW l 7385 S "'

^^*" nwiJ ~ rnmm.1 JKM n^vut * an

484, v 1*85 ^- 3360

J l V -3547 3042 2437 1484 4*47 8488 7578 151 IM \ (711 5880

\ VMM X

99+00 N 99+50 N 100+00 N

^"i^

8741 - 2710 ^-^ 151 \ Stf^—- 29K 24K

2377 2738 2124 . 6137

-A 2W - 2888 C^M NK

361 401 481 ^ 211^ 2246 'S47?~~- 2795 1978 1073 - 3124 ^2414 1799 6821 7822 ^ 171

52K 0=1

0=2

0=3

0=4

0=5

0=6

TAU(msec)

Spectral-M (mV/V)


Resistivity (Ohm.m)

Line 9900 E

Pole-Dipole Arrayna

-—OH

a = 25.0 M

plot point


Very Strong

TOXXX. jaaxsxx.very Weak

- Extremely Weak

25Scale 1:2500

25 50 75 100 125 150—l l- (metres)


BATEICAN LAKE PROPERTY, OntarioConmee A Horne Twp., NTS: 52A/12

Date: 97/03/11


TAU(msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

92+00 N 92+50 N 93+00N 93+50 N 94+00 N 94+50 N 95+00 N 95+50 N 96+00 N 98+50 N 97+00 N 97+50 N 98+50 N 99+00N 99+50 N 100+00N 100+50 N 101+00N

500 -125 0.10 0.10 = 0.10 0.10 31 0.10 0.10 2 0.10 0.10 0.10 0.10 0.50 0.90 125 125 2.6 16 0.10 500 250 250 16 62 125 1=1/^^^———""*"\ l \

0.10 V 1000 ) 24 18 (v^WjOTjOOO/ 0.10 OJO 0.10 0.10 0.10 OJO 7J 0.10 0.10 7J U Ut NO HO B 0.10 VJOflO^) 260 2J 62 125 1=20.10 0.10 I 1000 ' 0.10 \ 1000\\lf ^-^ )0.10 OJH 0.10 80=500 1000 x- 0.10 600 OJMÎlf 0.10 041 0.10 SI 0.60 18 0.10 16 0.10 0.10 62 U 500 5 0.10 500 ^ U

0.10 688 250 0.60 OJO OJO 1.00 8.10 1.00 0.20 31 0.10 7M 7J 125 126 82 SO 10 0.10

—— 250 0.10 U OJO 0.10 0.10 1.00 li 82 7J 31 31 125 500

0.10 0.10 1.00 M IB OJO 1.00 U IB 0.10 250 82 OJO 250 125

1000 \ U

6 250 250 250

500 500 500

5 250 500

500 126^— 500 500 BOO

1=3

1=4

1=6

1=6

92+00N 92+50 N 93+00N 93+50 N 94+00 N 94+50 N 95+00 N 95+50 N 98+00 N 98+50N 97+00N 97+50 N 98+00N 96+50 N 99+00 N 99+50 N 100+00N 100+50 N 101+00N

16 , y68 __ 50 i 105 .—— 117 - 98 116 v- 87 y y 130—- 133 . 203 ivy

^^W \ t\rn ,r^\S^Jjir:^x 62 -—— 44 67 67

" ^DX 4* ^f"^/î 44 56

87 87 s 54 48 i 69 i 97 109 107 N. 143 \ 118- ^l \

39-X 54 —— 54 48 H.' 63 103 t 133

vV) /^\ u a \*\ m\ uV T43l J Â^ ^ U ^

/ A49 M ' 128 8, \ 112 ^ 143 ^ 113 ^ 152 161

I P - 2Possible Shear Zone

l

T-2,HP v92+50 lA 93+00 N 93+50 N 94+00 N 94+50 N 95+00N 95+50N 98+00 N 96+50N 97+00 N 97+50 N 98+00N 98+50 N 99+00 N-H—————i——i——i——i——^ 99+50 N 100+00N 100+50N 101+00N

n=2 111=239,1=1

2.3 22 2 2JI\ M L8

2.9 3.1 2J 24 2.1 2J

24 2.9 U 2.6 24

u 1J i U 5.4, 6.6

y 2J

2.8

2.7 2.9 4

"]

U j 44 tt

-^4* v 7.6 7J U 44 4.9 4J

7.7 ^ 5.6 8^~- 7J 6.8

* 8.5 M

u \

7.1 7J M * 8.5 M 's^J J U S

7.3 7J U \ 6.9 8.7^^7.7 U

8.95.7 7.1 STe-i44 5.5 - 12 \ U 12

\ ™ r\7.7

64

5.6 1=1

1=2

1=3

11=4

1=5 11=6

92+00 N 92+50 N 93+00 N'VH(I)

93+50N 94+00 N 94+50N 95+00 N'VH'(S)' 95+50N 96+00 N 98+50 N 97+00N 97+50 N 98+00 N 98+50 N 99+00 N 99+50 N 100+00 N 100+50 N 101+00 N

11=1 MX j at 211

n=2 in iti (11=3n=4

n=5

11=6

3168 ^ 837 ^^790 ^ (21O ^ W8

J2*S

3770 S l^^VMM 11*7 *^*

[ \

211 r~KK —— 121

x~\ i r m\^4184 4889 3720 1427 ——'836 \ 401

4487 ~? 81B3 4875 4087 .2358; 1438 g 1100 —

8946 5027

Conductive Overburden

- 231. ~ 180 ——- 213 258 .

433 -— 647 —- 481 .__ 428 .' 818 ——— 702 —— 780 ——— 794 " 151. \ 451 271

11=6

TAU (msec)

Spectral-M

Chargeability(mV/V)

Resistivity (Ohm.m)

Line 10000 E

Pole-Dipole Arrayna

J±La - 25.0 M

plot point


Very Strong

1 Strong

1 Medium

'Weak

Very Weak

' Extremely Weak

25Scale 1:2500

25 50 75 100 125 1505ES5HS5(metres)



Date: 97/03/11


DIPOLE-DIPOLE ARRAY

TAU (msec)

Spectral—M (mV/V)


Resistivity (Ohm.m)

11=1 11=2 11=3 11=4 0=5

92+50 N 93+00 N 93+50 N 94+00 N 94+50 N 95+00N 95+501

0=1 14 0.10 1.8 3J) 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 OJ

11=2 1.3 24 0.20 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 81

0=3 6 0.10 OJO 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 OJ

ns4 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10

11=5 0.10 0.10 0.10 0.10 0.10 6 0.10 0.10 0.10 600 0.10 S)

0=8 81 0.10 0.10 OJO 260 31 0.10 0.10 0.10 0.10 0.10

92+50 N 93+00 N 93+50N 94+00 N 94+50 N 95+00 N 95+501

96+00 N 98+50 N 97+00 N 97+50 N | | 96+00 N | | 98+50 K 99+00 N "t901! . 100+00 N 100+50 N 101+00 N 101+50 Ni———l———i———l———i———l———i———l———i———l———i———l———i———l———i———h- 102+00 N 1 102+50 y 103+00 N 103+50 N 104+00 N 105+00 IT 105+50 N 106+00 N 106+50 N 107+00 N 107+50 N 108+00 N 108+50 N 109+00 N 109+50 N 110+50 N 111+00 N 111+50N

0.90 -— 900 0.10 0.10 x 1000

1.00

10 0.10

v 82 62 0.10 82 0.10 OJO 14 260 16 250

0.20 (2 ~-~500 31 0.10 0.60 129 290 24 0.20 290

9 20 —— 2.5 5 16 0.10 290 0.00 2.9 31 (2 0.10 2.9

250 1900

18 600

0.10 290 0.10

0.10 (1000 oo) 600y ^ yU\ ItW ( 20

0.10\ 31 0.10 126 260 U 82

260 0.10 31 0.10 0.30 126 290 260 10 0.10 0.10 500 980~~;"- 1000 \ 5A \

0.10 0.10 - 1000 *-- 600 600 1000 " OJO 1.8 1.3 126 260 126 600 260 10 0.10 600 2.9 600 5

900 16

600 900 -^ 0.10 20 y 1000 ^-900——.250 250 l 1000 i 2000

1000 1000 1000 ^^ 10 ^ ION J 260 250

260 126 600 10 0.10 0.10 10

600 ^ 2000 ' ' 10 ^ 1000 " 0.10

MHW" -i 0'10 JS. *MOr^\"^^l 2000 V M* "" ^-'/l

2000 "J 1000 600 40 =

iOOO 1000 1000

900-^JOOO 1000 N 290 ——-900 129 0.10 0.10 0=1

-~ 1000 j (2 0.10 0.10 0=2

000 ^2000/^129 129 0.10 0=8

1000 ^~ H 0.10 600 0=4

0=5

0=6#~\ a- \1000 IB*260- x 2000

96+50 N 97+00 NH———i———l———i———I- 96+00 N ; , 98+50 N 99+00N " 801* 101+00N ,101+90 N | 1102+00 N | 1102+50 N | |108+00N 1 103+50 N | 104+00 N 1 105+00 N | 1105+50 N ; 106+00 N 106+50 N 107+00 N 107+50 N 106+00 N 108+50 N 109+00 N 109+50N N . 110+50 N 111+00 N 111+50 N

73 78__80 60 xl02 111 98

108 V 70 f 107 \ 80 78 A 104 (O 107

159^*0105 101 106 111 \ 76 82 109 108

j 128 118 —-* 106 c 72

M 148 —— 146 \ 98 .

216 ^ 167-^-227 i 171 ^ 133 ^-186(7 87 67 67

87 87

C ys' ™ v 1^. 176 S .* 244 5 23S\~98 87 87 07 07 87 87 , 169v 138 ' C// 1^

92 ^ 80 90 __ 90 98 f 129 129 ^ 163'

128 138 124.——117 186 183 ^148 y 187

Ut' 80 122 ^1*3^163——198

\ JA \ r )87 67 87 87 87 87 87 67 —— 8f] J 142 X82876787B767B7B7B7 —— 9f J j 14Z 7 2 ^ . ^^^^

89 82 67 67 87 __ 87 (7 67 67 —— 07 67 101 ^( 196 190^^ 214 ——- IW^V 1{* 12? V 98 108 ~ 91 92 116 106

/67 87 (5 67^29^87 87 87^28^ 67 -^* '"/S\ in tm \ ^^ lw^ al

67 87 62-"tf 48^-87 (7 89 —— 87 ^^^^ 121 ' 152 ' 199 202 101 l 148 ' 192 ^ 229 227 242 "^ 270 287 —— 278 ' ' ' 148

Possible She

92+50N 93+00 N 93+50 N 94+00 N 94+50N 95+00 N 95+50 H

IP-1

96+00 N 96+50 N

fI P -

97+00 N 97+50 N 98+00 N 98+60 N 99+00N 99+50 NH—————l—————l—————'—————l—————H————I-

100+00 N 100+50 NH———i———l———————l———————h- 101+00 N 101+50 N 102+00 N 102+50N 103+00 N 103+50 N 104+00 N 104+11 N\

-t

6T-12.HP

105+00 [f 105+50 N 106+00 N

I P - 6106+50 N 107+00 N

I P - 8107+50 N 106+00 N 108+50 N 109+00 N 109+50 N 111*00 N 110+50 N 111+00 N 111+50 N

4.7 4.1 4.6 44 , 0.99 0.38 0.14 0.37 0.48 0.29 -OJ7 -040 l ^ U 44

4.2 4.5 J 14 040 -0.42 OJO 0.40 -040 -24 -2.7 -1.2

44 4.3 S U 0.83 -0.41 -0.89 -0.11 -040 O -2.5 -2.1 0.76

6/1.4 047 0.060 -044 0.88 -14 -10 -S -2.4 0.070 -044 J . 8 .9

2.3 041 0.18 2.4 0.18 14 -(4 -3.6 -2.7 24 -14

24 041 048 14 24 24 -2.1 -041 -24 -10 049 -94

14 '

J 8 .8

-11

13 sss 13

44 54 SJ 6.7 5.1 4.7 4.9 64 i 84 6J 8.4 7.7 6.6

44 44 6——-54 4.9 44 5.1 44 6 M 8.4 [ 10 8.7 \ 6.i —^

64. 4.1 64

84 8.8 B.6\ 10 ..84 7.1 "^—54

, 12 __6.8 -.^34 44 8J 10 s 16 tJ1 ^ n l 12^ ^j*~^tt

1 /li^~t^^U ' 9J 94 l IJ8 J to S 16 18 *^— 14-"^ril^

11=3 11=434,7=2/8

11=4 ,11=390,1=2/8

19 -^ 14

v

"

/"' 84 ^ (.1 I 8.4 74 9.1

—11

6.2 7.1 6.7 8.9 7.6 84 94 , 84O6.7 ' 84 8.4 5.8 12 7.1 74 1.7 9.1 ' 8.7 74 8.2

*— 54 B "^ ID J 12 **-- 11 ——- U

94 . 84 l 11 s~ 13 13 ^ 15 ——— 16 /^20 \ 17~— 15 f Bij/' 11 ——— li ^. ~ tt S to 19 ~~ 20

! ——— 84 ' 10 '13 ' U 17 17 -' 18 20 21^ ' 10 18 ^ 8.7' ^ 10 ' ' 21 " O ~^ tt*^

84 04 04 6.7 6.1 2.4 0.88 1.6

92+50 N 93+00 N 93+50 N 94+00 N 94+50 N 95+50 H 96+00 N 96+50 N———l———l———h- 97+00 N'VH(I)-

97+50N 88+00 N "t" f . 99+00 N "t8011 . 100+00 N 100+50 NHtO

101+00 N 101+50 Ni———l———i———l———^—rt———'———HVH(2)

102+00 N 102+50 N 103+00 N 103+50 N 104+00 N 104+11 N 105+00 N 105+50N 106+00 N 106+50 Ni——l——-——l—————l——.——l——i——l n^\ '——'——'——'——l——'——'——'——i——'——^^F-1——'——'—-"——'——i——'——i——'——l——'——i--l--i-.l-J——•~ 107+00N 107+50 N 108+00 N 108+50 N 109+00 N 109+50 N HMDO NVH(1)

110+50 N 111+00 NVH(1)

•l-—i——l——i——l——i——^- 111+50 N

MX S5I^ 94K *2I i 4(1 411 871 , 221 141 231 , . 4(36 4360//r\ r&fv9813 5160 8077 V V 2(1

: Vt-J6u^-. 8*50,^ 131 \"

(9(8 111

23 \

450 — 1004 .431 - ^ 104 98

M 721—— 711 (H tO. VSL

Ut 38U 1337 ^ 1831 1211

X 828' 1867 ^ 1266 V 89(4 ^161^ "IS^WO V ,

y^Mlk \\\1~ '\^ ) 6y - 1037 *^ 218 ^ 1211 ^ 3248 ' ' 161 ^ 39E ' 701 1841 ^ l

TAU (msec)

Spectral-M(mV/V)


Resistivity (Ohm.m)

Line 9400 E

Dipole-Dipole Arraya na a

a = 25.0 M

plot point


•Very Strong

•Strong

'Medium

•Weak

•Very Weak

•Extremely Weak

25Scale 1:2500

25 50 75 100 125 150^^^^ (metres)


BATEMAN LAKE PROPERTY, OntarioConmee ft Horne Twp., NTS; 52A/18

Date: 97/03/12

JVXLTD. (Kef. 9680, March 1997)

TAU (msec)

Spectral—M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

11=1 11=2 11=3 11=4 11=5 11=8

99+00 N 99+50 N 100+00 N 100+50 N 101+00 H 101+50 N 102+00N 102+50 N 103+00N 103+50 N 104+00N 104+50 N 105+50N 106+00 N 106+50 N 107+00N 107+50N 108+00N 108+50 N 108+00N 100+50N 110+00N 110+50 K 111+00 N 111+50N

11=1 2.5 1.00 OJO OJO OJO K 10

11=2 0.80 250 0.10 0.10 500 OJO 10 ^ 1000

11=3 125 16 1.00 U 0.10 500 ION .500

11=4 16 OJO 125 10 OJO OJO 0.10

11=5 0.10 500 500 500-^ 125 5 ^ HO

11=8 250 OJO

OJO 125 V"M/ OJO

500 U 10 OJO

10 /MOO) 10 —— 40 C "BO l 8.10

1.3 040 OJO

1000 — " 500 ~ OJO 0,20 250000 0.10 ' 1000 0.30 0.10

99+00N 99+50 N 100+00 N 100+50 N 101+00 N 101+50N 102+00N 102+50 N 103+00 N 103+50 N 104+00N 104+50 N 105+00 N 105+50 N | 108+00 N 108+50 N 107+00 N 107+50 N 108+00N 108+50 N 109+00 N 109+50 N 110+00N 110+50 N 111+00 N 111+50 N

103/70 .___ 57 ——— 67 __ 07 11=1103 105 110 -118 i ' 174

117 J 06 /ra-" 146 ——— l

106 \133^ 150__MB

140 123-^ 121 103 115

100 116 140 -108 116 113 106

IP zone

99+00 N 99+50 N 100+00 N 100+50N 101+00N 101+50 N 102+00N | 102+50 N 1(0+00 N 103+50 N 104+00 N 104+50 N 105+00 N0=2

14=359,1=2/4

r^{los+sote | ki

- 6

.06+00 N 108+50 N 107+00N 107+50N 108+00 N 108+50 N 108+00N 100+50 N 110+00N 110+50 N 111+00 N 111+50N

14=466,1=008/8 11=410,1.01/212 11

)

4.1 4J 4.6 6.0 7.7 ^

.4 4J y M ti l' 8.7 —— 0.8 -. 12 '

X 6J 7J 10 yTJ ^BJV "12 \

74 U \8J^-^ 11

3.0 4.2 ' 3.8

4.7 f SJ/ SM t.\i ..o y

3.7 - 6,7 ' 7.1 X 8J X 7.1 U M

/l U 7.1 ^ U

99+00 N 99+50 N 100+00 N 100+50N 101+00N 101+50 N 102+00 N 102+50N 103+00N 103+50 N 104+00 N 104+50 N 105+00 N 105+50 N 108+00N 106+50 N 107+00 N 107+50 N 108+00N 108+50 N 109+00 N 109+50 N 110+00N 110+50 K VH(3)

111+00N 111+50 K

0733 __ 141 x , S040 3408 3342

'iP7r^/vv-^^^v^JIOV J 268 X 1167 ~- 1660 5783——-BOO ——

4211 4481 3382

7018 5242 — 5330 s i '**~^—\ 1261 /ViK 474——'

161 —— 1BE 201 ' MM -^ 4471 7078 8010 0388

x^/7/Yr^ a nsi8002-1274 J J 260 ^ 178 N^S 68 11=211=2

11=3 11=4 11=6 11=6

TAU (msec)

Spectral-M (mV/V)

Chargeability

Resistivity (Ohm.m)

Line 9500 E

Dipole-Dipole Arrayna

[±La = 25.0 M

V plot point


xxxxx xxxxxxx

•Very Strong

' Strong

Medium

Weak

Very Weak

•Extremely Weak

25Scale 1:2500

25 50 75 100 125 150—————m* b. (metres)

AVALON VENTURES LTD. INDUCED POLARIZATION SURVEY

BATEMAN LAKE PROPERTY, Ontario Conmee tt Horne Twp., NTS; 52A/12

Date: 97/03/11

JVX LTD. (Ref. 9680. March 1997)

TAU (msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

98+60 N 93+00 N 93+50 N 94+00 N 94+50N 95+00 N 95+501

0=1 0.10 0.10 0.20 0.10 0.10 0.10 0.10 OJO 0.10 0.10 290 7.8 0.10 I

0=2 2.5 1.3 0.10 3.1 0.10 0.10 0.10 1.3 1.3 6 K 16 T.6

ns3 5 250 2.9 0.10 0.10 0.10 0.10 0.10 290 1.3 0.10 129 OJ

0=4 900 0.10 0.10 0.30 0.10 OJW 290 10 82 0.10 0.10 10

0=5 0.10 1.00 9 290 0.10 0.20 900 K 0.20 290 0.10 M

11=8 12 1.9 10 900 0.10 0.10 0,10 290 290 0.10 40

92+50 N 93+00N 93+50 N 94+00 N 94+50 N 95+00 N 95+50 H

96+00 N 96+50 N 97+00 N 97+50 N 96+00 N 98+50 N 99+00N 99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N 10 ION

16 0.60 16 16 129 129 2.5

3.9 0.10 0.50 19 1.3 260 5

0.10 0.50 0.60 125 2.5 2.5

1000 , 0.20

1.00 7.8 0.50 0.10 10 1.3 0.11)^1000

1.00 m 31 126 5 6 (ifhjj^)im

62 0.10 62 ' 1008 N 0.10 2.6 1000 — lil

1000 HO 0.30 SB- 31 1.3 82 129 31 18 260 3.9 250 0.10 500 900

82 125 0.10 C1000 -^500 500 1000

,10N l 2*0^ 10 ^

900 -^ 1000 1000

20 /, ION 0.10, soo looo ion' 1H

900" 1000 900 900 —— 900 290 3.9 129 260 290 2.9 OJO

0.10 31 126 900-~—1-3 0.20 250 250 0.10

900^. 0.10 129 0.30 0.80 290 ( "155 J ) 9 1.3 600^125 18 125 (ION 1000 1000 \ 62

1000 1000 ' 1000 900 129 3J 31 —— 260 1000 ION 900

96+00 N 96+50 N 97+00 N 97+50 N 98+00 N 98+50 N 99+00 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00N 103+50 N 10 ON

110 122 108 112 97 92 - 117

104 106 106 109 fjt ^

117 100' 98 143 . 97 ^S 114 133

106 .97 88 , , 169 183 0=10=1 117 ——-. 117 107

r x x90 l 119 x 146

/777\V t" . .. //T^S/Srslsus 14* iw 208 m

136 f V&' 208 221 —— 218 yjV^Wd^m J 2*^ 20^'

iTÛW tt^^.xTfc//^\ / /i/ x•/^s 111 \ 162 162 — 189 l 193-143 ^ 111 103 108

108+50 N 109+00 N 109+50 N 110+001 110+60 N 111+00 N

3.4 SA j 6 /O- —— 9J B.3 Ji^.2^//. a N^vT

3.9 U 4.1 t 7.1" "x" llUlf

42 ,__ 43 vvv- M yiW9J 3.8 --.3.2

__ 9.8 ( —— 6 4.0 4.7J

5.6 l 3.S

3.B 5.0 - 3.8 2.4

11 ^ 8.6 .—11 ^ 7.9 ^ U . 4.7•^^ZS// ^

i i M^ 7 / ^ / \^r-^-^ s6.8 ^ 8.7 f 12 f 19 15 16 15 f

1 SM x^ u u^— u u l K -——^17 8.4 - II -"8.8 7.9 7J 8.823 S^N 8.4 7.6 8.8 N 5.2 4j 6.3 —— 8.8 ' 2.9 ^ 4.7 5.8 4.5 ' 2.9 4.3

92+50 N 93+00N 93+50 N 94+00 N 94+60 N 95+00 N 95+50 11 98+00 N 98+50 N 97+00 N 97+50 N 98+00 N 98+50 N 99+00 N 99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 K 103+00 N 103+50 NVH(2) " 11=1,2" VH(1,2)

4448 v 898 M 4662 -^ 111 8807 5460 i 171 261-,x- UK—— 9189 —. 7114 ^ 976'

J^^'(a^ jiY Z /Co *0^f^^^Srl^îfc^ ^./raîM. L^vî^^/^î^L^r^

104+50 N 105+00 N 105+50 N 106+00 N 106+50 N 107+00 N 107+50 N 108+00 N 108+50 N 109+00 N 109+50 N 110+001 110+50 N 111+00 N

1000

0=1

0=2 0=3 0=4 0=5 0=6

104+50 N 105+00 N 105+50 N 106+00 N 106+50 N 107+00 N 107+50 N 108+00 N 108+50 N 109+00 N 109+50 N 110+50 N 111+00 N

10 ON 104+50 N 105+00 N 105+50 N 106+00 N 106+50 N 107+00 N 107+50 N 108+00 N 108+50 N 109+50 N 110+001 110+50 N 111+00 N

///"^ '——— S7l X ill ) 3181 — 2219 ' l^ ////,-x-/—j/131 /, 3697 "^ 1724 1177

^W*^1.

652 w ^^ toe r nw 2397-3291

8944 3029 1894 \ 683 0=1

ISK-r; 131 lOK f 5017 1691 2074 0=2

.5693 2899 ^ 1954 0=3

6168' 3699 i VJOK—— 8612 } 3103 2448 0=4

0=5 0=6

TAU (msec)

Spectral-M (mV/V)


Resistivity (Ohm.m)

Line 9600 E


a = 25.0 M

plot point


xzxxx xxxxxxx

1 - -Very Strong

1 -' Strong

1 ' Medium

1 ' Weak

- - Very Weak

1 - Extremely Weak

Scale 1:250025 50___75 100 125 150

^ ^ (metres)


BATEMAN LAKE PROPERTY, OntarioConmee tt Horne Twp., NTS; 52A/12

Date: 97/03/12

LVX LW. (Ret. 9680, March 1907)

TAU (msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

101+00N 101+50N 102+00N 102+50N 103+OON ^ 103+SON . 104+OON , 104+50S , lOS+OON , 105+50N . 106+OON 106+aON 107+OON 107+50N 106+00 N 106+60 N

0=1 0=2 0=3 0=4

11=5 11=6

WO 1000-040L^f^0=1 0.89 250 250 16 250 5 500 x 500 ION , 18 OJO 16 500 1000 040 20—.

0=2 MO 5 250 290 900 125 500. 1000 S m 62 OJO 2

1^3 0.10 2.5 0.10 5 250 125 125 0.10 2.5 OJO

nZ4 tx (ân~~^m 0.10 m K at m m (ÎOBO oainsS 110 —- 500 s\ 500 U 250 7J OJO 125 10

0=6 6 800 1J 1J 800 18 1000 "^~2000 40

e-i/r^fîPîoUjf

OJO

2000

0=40=5 0=6

101+00 N 101+SON 102+OON KB+SON 03+5011 106+gQN 107+50N

111 M' 114 100 101 1ZO- 107 111 07 ^.

M -^ 101 -^ 100 ( 133 \ 103

117 105 m 136 \ \ 84

111 x' 12* 18* __ 181

121 107 US 121 114

0=1

0=2 0=3 0=4 0=5 0=6

I P - 6

101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N 104+00 N 104+50N 106+50N 106+OON 108+50 N 107+OON 107+50 N 106+OONH———"———I- D8+50N

11=1 u . 0.111=2 11=3 11=4 11=5 0=6

6.8 U ^ — U li M 8.4 - M 4.8 --^2-4 *-3 __ "/-^ ll VA 21 ^^Ji^" *

u M" w-^^wA w 7 — u 5.0 u * 'J (tMU-— ' B Uy^" 8 "^-V* " S 8 ^ "

: a u JKv* n^ o iir

101+00N 101+50 N 102+00 N 102+50 N 103+OON 103+50 Nt._'. . '——'——i——'——i——'——i——i——i——'——i——'——i——'——i- 104+00 N 104+50 N 105+00 N 105+50 K 106+flO N 106+50 N 107+00 N 107+50 N iff)

B6+50N

0=1 0=2 0=3 0=4 0=5 0=6

SM

1388 — 1(45 V 0198 \ W03

2546 — 2084 v 3H3 8276

TAU (msec)

Spectral-M(mV/V)


Resistivity (Ohm.m)

Line 9700 E

Dipole-Dipole Arrayf a na a

J±]___C±la s 25.0 M

plot point


. Very Strong

-jjedium

ixm TOXXXXX.

-Very Weak

. Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

-l LJ

(metres)


BATEMAN LAKE PROPERTY, OntarioConmee A Horne Twp., NTS; 52A/12

Date: 97/03/12

JVXLTD. flgef. ggflq JfarcA 1 997)

TAU (msec)

Spectral—M (mV/V)

Chargeability (mVA)

Resistivity (Ohm.m)

101+50 N 102+00N 102+50 N 103+00N 103+50 N 104+00 N 104+50 N 105+00 N 105+50 Ni——i——c——i——i——i——i——i- 106+00 N 106+50 N | 107+00 N 107+80 K 108+0011 108+50N 108+OON 109+50N 110+OON 111+OON 1I1+50N

-1000 20.^—500 1000 1000 1000 .— 500—— 0.10 U — 2000 -^ 31 900

1000 J 12S 0.10500 10 V 1000 ION SOD 250

125 0.10 10 \ 1000 500 10 500 ^ 10 S^ 1000

0.20 MO 0.10 .600 1000 126 K 10//. 2000

125 12S f 1000 J 250^-500 125

3.9 600 —- 0.10 U 600

11=5 11=6

0=1

0=2 0=3 0=4 0=5 0=8

loop - 1000^ 2MO ^^^ ** 3^*" "

2000 2000 — 2000 20M\\ 1.3 -O.—-~--——^^ ^ l

1000 1000 -^J5JII/

mt ™ Oh ""xO5^ x600 1000 ——500 ION 2000 -N 10 -1000

0.10 1.00 050-1000 1000 1000. .10

2 250 ^ 1000 1000 ~~ 1000

125

260

fc*W .^^ 1VWV 1VW 1VW .

500 /yUS* fi 4o~~20(4,'IL- -250 Hboo

ion

500 tt 31 0.10 0.10 5 0.10 0.10 3.0 10

.OJO 510 5 ^500 0.10 0.10 5 1.10 1.00 62

ION y 31 0.10 0.10 125 1JO U 0.40

MO \WM\ M" Cam} 126

1000 \ 0.10 0.10 0.10 16 6 20 0.10

600 10 0.20 UO 0.10 500

O.W

lo n=l 11=2

11=4

11=6

101+50N 102+00 N 102+50 N 103+00N 103+50 N 104+00N 104+9)N 105+00 N 105+50 N 107+00 N 107+50 N | 1106+00 N 108+50 N 109+OON 109+50N 110+OON 110+50 N 111+00 N 111+50 N

11=1 111 104 113 104 103. " -— 112

11=2 l" "Z HI W 104 ^-124.

11=3 l" 116 111 107 X 136 l 103

nr:4 104 ^ 121-^J04y 140 i 110

137 . 110~^v\ ^~-

"\\TT06 ^ ' 166 104 116

^*L ^r^^}//^.ir. .A i /.Z////

101+50N 102+00N 102+50 N 103+00 N 103+50 N 104+00 N 104+90 N 105+00N

I P - 8105+50 N 106+00 N 108+50 N 107+00 N 107+50 N

I P - 7

106+00N 108+50 N

IP - 9

109+00 N 109+50 N 110+00 N 110+60 N 111+00 N 111+50 Nn^

M=350,T=211=1 7.4 0.0 7.B tA U ^ M

n-Z 73 7.3 li 7 B.B

n^3 0.1 6.0 7J 7

0=4

0=50=6

114=541.1=4-8 W. --M.ss-i W *^r 31

11=^13^1=216 ,2.4 .^ U v. 1.7 -0.44

' /11 ^ 22 ss~ 10 ^ 16 17 l 20

101+50N 102+00 N 102+50 N 103+00N 103+50N 104+00 N 104+90 N 109+OON 105+50N 106+00N 106+60 N 107+00 N 107+50N 108+00 N 108+50NVH(3) n=2,3

— —— —— ^ mn=l n=l1 109+OON 'VH(2) ' 109+50 N 110400 N 110+50 N 111+00 N 111+60 N

VH(2)

m 0115r—s ,— — x""/' /~7 LIl^— — ^^--^S^— "SJ —101/201 271 231' 7 111 X 5502 6204 s ***7 l 0620 ^1iT\ 11-^* i f J f ^~- ~~ ~—. ^s.^ y i

23t 23t 2K 7 la/^OJM -^W^ 0025

2tt^-lB ; 7240^111 (JJ61

SS /^ 131 10I"*1**12I IK Itt^ Ttt\ 1117/ y^^\ X \

18E '6534 Iffi^ 111 16K 211

1040 11=1

11=2

11=3 0=4

11=5 0=6

TAU (msec)

Spectral-M (mV/V)


Resistivity (Ohm.m)

Line 9800 E

Dipole-Dipole Array. a . na a

[±La = 25.0 M

plot point


xzxzz xxxxxzx.

•Very Strong

•Strong

•Medium

•Weak

•Very Weak

•Extremely Weak

25Scale 1:2500

25 50 75 100 125 150^fsmassim(metres)



Date: 97/03/19

JVXLW. (Ref. 9680, March 1997)

TAU (msec)

Spectral-M


Resistivity (Ohm.m)

99+50 N 100+00 N 100+50N 101+OON , 101+5™ , 102*0™ . ^50N - M**'f - t0W————^}^L 104+50 N 106+00 N 105+50 N 106+00N lOB+SO M . 107+00 N 107+50 N . 108+00 N , 108+6011 109+00 N 109+50 N 110+00 N 110+50N 111+00 N

11=2 0=3 0=4

0=6

(2 5 5 0.10 __ JOG 82 290 250- 1(1011,10001 OJO 250

Zi5 u 10 WJfflj), 5?1 —— *"* * ( 1MO f** W——'W 20

0.1* MO 0.10 0.10 1.3 U U U 0.10 0.10 125 10 loj 1*60 J 0.1* 11 ^ 1900

9.1* *.1B 500 0.10 0.10 0.10 10 500 20 l* 25* 500 ^ 1000 f 10 0.10 2(9 0.10

01B 25* B.1B 62 125 500 500 tt 259 5BB B [ f /2WO) J 590 C M ^ 508

nz i 0.10 16 0.10 0.10 0.10 5 5 7.8 82

n-2 25 0.1* 0.10 0.10 500 125 125 0.10

0=3

0=4

0=5

aw 0=1

0.10 1.3 is 0.10 0.10 ' low ut 2to

OJO 580 18 -- 300 U. J { ^;** ^

2i 31 X. 1000 x 259 261

99+50 X 100+00 N 100+50 N 101+00 M 101+50 N 102+00N 102+50N 103+00 N 103+50 N 104+00N 104+50N 105+00 N 105+50N 106+OON ^ 108+SOK . 107+00 N . 107+501? . 108+00 N 108+50 N 109+OON . 109+50 N 110+OON 110+50N 111+00 N

117 145 162 162 M 10!

133 '148 148 115 94

I P - 6 P - IP-9

99+50N 100+00 N 100+50 N 101+00 N 101+SQK , 102+OON 102+SON 103+OON 103+50K 104+OON 104+50N 106+OON 105+60 N 106+00 N 106+50 N 107+00 N 107+50 N 106+00 N 106+50 N 109+OON 109+50 N 110+00 N 110+50 N 111+00 N

6.4

6.4 i 7 j0=1 8.6 U M W* 9u/ 8 u 8, y:9 ^

6.7 7.3.' .10. 8.3 8.3 X 5^

3.1 3.1 2.7 ^ 6.4 M U v 4J)

10 8.3

8.4 J.4 8.)

16 8,8

(.3 8J

tt

"0=1 ———— M=3eO,T=0.08/l

20 ^j*.3* J \\.if.

11=4 14=321,1=2

^^ ^...^ -^ ^——.-^^

TJI - oji ^.—- B.K i.* — ^^J "-' ; *'B 6-l *-? .* ~~ ?-8 If**"1 "^

8J j1 /6 Asjl M ' 9Jl^M (u 4J1 4.1 | 1.8 ( Jl/3-*^-"

-^65 6.8 8^^ 9A 9.7 7.7 ^-6 U S.4,

.1 7Ji 7

0=1

0=20=3

0=4 0=5 0=6

99+50N 100+00N 100+50 N 101+00 N 101+50 N 102+OON 108+50 N 103+OON 103+50 N 104+OON 104+50 N 105+00 N 106+50 N 106+OON 106+50 N 107+00 N 107+50 N 108+00 N 106+50 N 109+OON 109+50 N 110+00 N 110+50 N 111+00 N

1437198 2676 ' 3324 ^W8^- 1714 0=1

0=2 0=3

0=4

0=5

0=6

TAU (msec)

Spectral-M (mV/V)


Resistivity (Ohm.m)

Line 9900 E

Dipole-Dipole Arrayna

/' a = 25.0 M

plot point


xxxxx xxxxxxx

Very Strong

Strong

Medium

Weak

Very Weak

Extremely Weak

25Scale 1:2500

25 50__75 100 125 150se^nf-ia(metres)


BATEMAN LAKE PROPERTY, OntarioConmee fc Home Twp., NTS: 52A/18

Date: 97/03/12

JVX LTD. (Ref. 9680, March 1997)

TAU (msec)

Spectral—M (mV/V)

Chargeability(mV/V)

Resistivity(Ohm.m)

99+OON 99+50 N 100+00N 100+50 N 101+00 N 101+90 N 102+00 N 102+50 N 103+00 N 103+50 N 104+00 N 104+50 N 105+00 N , 106+50 N | 106+00 N | lOt+SON | 107+00 N | 107+50 N | 106+00 N | 108+50 N | 109+00 N | 109+50 N | 110+00 N | 110+50 N | 111+00 N

0=1

11=2

11=3

0=4

n=5 0.10

11=6 0.10 3.*

2 S

0.10 1.3 0.10 31 290 0.10 62 OJO 125

20 —— 0.10 250 0.10 500 129 16 16 290

((T^^V250 0.10 290 250 62 62 31

260 —— 260 125^^600 1000 ) UK 260 62 f r*--——^31 10 ( 1000 ) 290 1.3 290 129

looT"^ 129 126 2.5 0.10 250 500

900 18 0.20 290__ 10 tt 3.9 3.0 02 0.10 129 i i 2000 aNOx/SM 2.5 0.10 0.10 10

290 129 129

129 1.3

2.9 K

( 1000 \ 31M^-- UM

OJO 0.50 82 16

•900 129 0.10 82 16 31

125 500 280 250 16 7.6

250 2.5 250 500 250 0.60 120

0.10 1Z6 U 5 62 62

500 "\aO 250 10

1000 500 U

1DOO ~ 1000 500 290

1000 \ 10 290 9

1000 -~ 900 290

11=1

11=2 0=3 0=4 0=5 0=6

99+00 N 99+50 N 100+00 N 100+50 N 101+00 N 101+50N 102+00 N 102+50 N 103+OON 103+50N 104+00 N . 104+50 N 105+00 N 105+90N | 106+OON | 110H50 N | 107+OON | 107+50N | 10B+OON | ,109+SON | ,109+OON | M9+50N | HO+flON | 110+50N { , 111+OON

109 v 73 74 106 , 189 189 -^ 14378 ^ 100 116 v 124 l 111

116 1M 47

226. 136 200 —— 20362 82. 146 116 __ 110 07187 ^ 137 ~~^- 207119 106 10574 '143——-121 109 ———116' 1400=6 126

99+00 N

IP zone

99+50N 100+00 N 100+50 N 101+00 N 101+50 N

I P - 6 I P - 7

102+00 N 102+50 N 103+00 N 103+50N 104+00 N 104+50 N 105+00 N 105+50 N 106+OON 10I+50N 107+OON 107+50 N 106+OON 106+50 N 109+00 N 109+50 N 110+00 N 110+50 N 111+00 N11=5

11=148,1=1.0x 7.2 6.2 iU U 40 41 5.2 y 6.8

5.1 6.1 t* ^ 47 47 3A 5.1 6.1

ll^— j

.1=2 14=26^1=4 11=451,1=2

6J B.B U .6/ 46 5.2

0=6 2-0 4.8 4.0 ' 8.5

5.6 3.7 3^ 4.1 46 U 42

7.1 6* 47 3.0 45 3.6 4.2 U 4.S

041 B.B 45

\6J

8J 6.8 7.8

4J 5.2 f 6J \ 14

^^6J 5.0

7.1 6.1 62 6.3 s 6.1 4J ' - 12

5.4 46

11=434,1=0.04-83J 64 6.1 IS 13 ^ 10 B.S -^ H i i 26

8.6 —— 10 ^-13 ; IB 10 IB ^-' 18 ^-T 23- 7 ^ ^ S//Û^ljL^/ 17 f 21 11 16 A/ 30 ——

!*x \ s^s^~-~C\ \\llf f S~

3.8 3.3 3.6

5 x BJ

U 4^

U

BJ——Û

' *\

7.0

0=1

0=2

0=3

8.0 —" 6.1 0=4

6.0 6.9 0=5

8.3 0=6

99+00 N 90+90 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50N 104+00 N 104+50 N 105+00 N 105+50 N 106+00N 101+50 N 107+OON 107+50 N 106+00 N 109+00 N 109+50 N 110+00 N 110+50 N 111+00 N

11=1

11=2 0=3

11=4

0=8 H72

^ 38* \;,OPJ^ -Z 6M8 , 8470 "~778J

' 2\m \\ 2541 — 2304 7031 Toi

111 111 0=6

TAU (msec)

Spectral-M (mV/V)

Chargeability (mv/v)

Resistivity (Ohm.m)

Line 10000 E

Dipole-Dipole Array, a | na a

rî r^na = 25.0 M

plot point


. Very Strong

-strong

ZXZXX XXXXXXXi

. . . . . . . . . . Weak

. . . . . . . . . . Very Weak

, . . . . . . Extremely Weak

25Scale 1:2500

25 50 75 100 125 150S3* I-(metres)


BATEMAN LAKE PROPERTY, OntarioConmee A Horne Twp., NTS: 52A/12

Date: 97/04/08

JVXLW. (Ref. 9880, March 1997)

TAU (msec)

Spectral—M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

91+50N 92+00 N 92+50 N 93+00 N 93+50 N 94+00N 94+50 N

1000 1000 \ 0.10 16 0.10. 'fei!1000 1000 ^- 500 0.10 0.10 t^pMX 500.

" iO 10 U ^- 500 0.10 — JI.10 V 100

looo — im ~\ 250 C ION nw/ urn ( 2000: )' 0.10ir

0.10 600 -^ 1000

x 10 31^^10 6 0.10 VlOM

HO-J^lo^ 20 lOOO"^ 80 * \ '

91+50 N 92+00 N 92+50 N 93+00 N 93+50 N 94+00 N 94+50 N

0=1

0=2 0=3 0=4 0=5 0=8

195 (3j!V-31

IP - 291+90 N 92+00 N

99+00 N 99+90 N 98+00 N 96+50 N 97+00 N 97+50N 96+00 N 96+50 N | 99+00 N 99+50 N 100+00 N 100+50 N 101+00 N 101+90 N 102+00 N 102+50 N 103+00 Ni——i——i——i- 103+50K 104+00 N ; 1Q4+50N | 105+00 N ( 105+50 N | 106+00 N | 106+50 N | 107+00 N lOB+OOy 109+OON 109+90N ,110+OOW 11Q+50N 111+50N

l

WOO — 2000 2000 ,, x 0.10 1.00 16 IM0.10 0.10 10.

0.10 0.10 260

2000 ^ 4000 A\ ItOO ^ 0.10 0.10 0.10 0.10

20

11 J.10

0.10 0.10 O

OJO 82 O 0.10

31 31 16 16 125 82 OJO 3J 16 OJO 0.10 82 250 0.60 185 0.10 62 OJO 0.49 0.10 0.10 31 1J

62 82 250 8! 0.60 1J 125 0.80 0.10 OJO 0.60 7.6 0.10 250 0.10 0.10 10 0.10 1J OJO 0.10 0.10 5

125 250 250 2.5 500 5 18 0.10 0.60 31 0.10 125 500 U 0.10 5 129, 1.00 31 0.10 10

40^ 1000 "- 0.10 0.10\V^^ OJO ———O

(2 31

0.10 0.10 0.10 0.10 \?:p!f||) 82 185 82

O 0.10 OJO ^1000) 0.10 OJO —— 40 126 125 250 250 125 C im\ 0.10 125 1.3 260 OJO 0.10 0.10 500 2.5 260 0.10 500 0.10 1.10 0.50 0.10 6

0.30 20 OJO 0,10 260 0.10 0.10 125 850 125 500 U 250 ~—- 500 500 2J 186 0.10 126 3.9 5 2.6 0.10 250 0.10 600—^121 0.10 0.10 0.10

O 0.10 /""lOoT^ OJO 1.00 3.9 OJO OJO 860 250 1.3 500 600 0.10 10 0.10 l J OJO 0.10 250 10 '"ionT^ 0.10 62 0.80 0.10 S gM^ 1.10 ' "lOOo""1"* li, s ' 1000 1000 1000 -- 500 l

-- 1000 v 12S 0.10 1.3 82 1.3 40—^-850 500

1000 -r IQOp'y 0.10 { 5 SI 0.10 0.10 ^(jOgO^., *M

8000 JOOo). 290 10 1250.10-t1000=^10 20 ——260 0.10 3.0 ( ION 500 1.3

^__^ 1000'~? 60 40 0.10 (P 0.80 \ 1000 l 1 .3 C.

2000 ^dP ' 0.10 20

0.80 \ lOflfly 20 16 ———125

0=1

0=3

0=4

0=5

0=6

95+00 N 95+50 N 96+00 N 96+50 N 97+00 N 97+50 N 98+00 N | 96+50 N ( 99+00 N ( | 99+50 N | { 100+00 N | 100+50 N 101+00 N 101+50 N IQZ+OON ; 102+50 N 103+00 N 103+50^, 1 104+00 N ; 04+501? 105+00 N | 105+50N 106+00N Ôe+MN t ^07+OON | ^07+SON | ÔS+OON | ÔB+SON 109+00 N 109+50 N . îlO+00 N 110+50N 111+00 N 111+50 N

76 76 \ 116 ~^ 106 109

107 100 -^ 71

104 110 110

108 106 108 108/80 67

116 —^10S 109 / 1Z1 -^,^ le* 1 W 1M 100 (^ 08 \Jjg

j 143 ^V 108 116 13S\ M 124*^*^115 102 \ 87 r-

116 143\ 103 121 143 ^ 104 ^ 143 121 98 (7

78 N 102 s 146 g s 369-^.'rtjS^80 ^ 116 ———12.^^^154

88_" F~^\ . * r*^

146

92+50 N 93+00 N 93+50N

3——IP -94+00 N 94+50 N

IP-6

96+00 N 95+50 N 96+00N 96+50 N 97+00 N 97+90 N 96+00 N 96+50N 99+00 N 99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N

14=390,1=2-8n=2

Ms451,1=2/838

g B l B l B B B

11=2 1^*303,7=4

1 102+50 N f 103+00 N 103+50 If 104+00 N 104+50 N 109+00 N 105+90 N-i————i——i——i——i——i————i————i————i————i-106+00N 106+50 N

I P - 7107+00 N

I P - 7T-15.MP.

107+90 N 108+00/f IN 109+00N 109+50 N 110+00 N 110+90 N 111+00 N 111+50 N

2.8' " C?4J 5J 3.3 41

42 41 5.4 3.8

6.1 5J 5.9 —^W

-10 -6J l j N 8.9 \ U 6.1 46 6.1 J U 6.8 7 ^ 6J 6J 44 48 3.7 3.6

-6 U^ -SJ 2J^8.1 4J ,i5 ~ IZ~Û 7 6.7 7.1 6J——- 6J 3.9 ^ , U 4 6

-- -- OJ2 -O.OM i 4.7 6.6 7^ M U 7 .7 6.3 7J 7 6.7 2.8 8.7 ^ 18 6J 6.Z S U 4J 3.1

0.87 ~ 4.7 -9.1 3.8 6.4 v 8.5 8.6 U 7J 7.7 6.7

4J 6.1 5.2 42 4.3 4.1 4.8 4J 4.9 4J

f4 (GD ** S'B ** JL " ™ v 8.6 (J ^ ————— 10 -V 13 f4.5 6.3 — 6.0 4J 3.7 3JI

6.1 l 4.2 .6.1

n=2 nâ S 11=1 ns5Ms370,Ts4 M=336J=fr^=541,T=2 lO539,Ts.OB/!

'/P,') a ' 9^L.U. v \'.4 - W \ 9 ^-M

7 ,7 3^ ^7- 3J 6.

8.1 7 l 49 12 - 7 j~^ ifi '

^x^

8.6 5J1 5.6 4J ^ 2.6 6.7

7.7 ——— 7.8V^^^fS^-% 12 iS^ffiVU w 17 -S5^,

7.4 7.6 k 4.7 X'/ 12 -^? 7J

42 C 8 8.4 7J 'S -23

7.4 6.8 (fc8 —- 6.6

91+50 N4-

93+00 N 94+00N 94+50 N 95+00 N 95+50 N 96+00 N 96+90 N 97+00 N 97+50 N 96+00N 96+50 N 99+00 N 111+90 N

TAU

(msec)

Spectral-M(mV/V)


Resistivity (Ohm.m)

Line 10100 E


a = 25.0 M

plot point


xzxzx zxxxzxx

•Very Strong

Strong

Medium

Weak

•Very Weak

•Extremely Weak

Scale 1:250025 O 25 50 75 100 125 150

——" -J I- (metres)

TAU (msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

91+50IV 82+00 N 85+00 S 95+SOjf

11=1 0.10ns211=30=40=511=8

11=2 0=3 11=4 ns5 11=8

W - Ts^S^ j8^5^SbS^--54E:^^^^;^ 7^^S^^;^\^^^; ô. (^^ <^^^î (upe^t- ff-4*

88+CpS 97+50 N 96+00 N 96+Sfl K 99+OON 100+DOM 100+50N 101400 N 101+60 102+00N 1(8+50 N 03+00 M 104+00 K 104+50 N 105+00 N 105+50N 106+00N 108+60N 107+00 N 107+50 N 108+00 V 106+50N 108+00 109+50 ff 110+00 N 110+50N 111+00 N

260 82 3.8 0.80 0.10 500 -^ 1009 v, 2.5 lit 0.60 xÛOO ^ 260 180 1.00 19 0.19 900 0.10 82 0.10 110 110 110 0.10 110 0.10 0.10 110 110 0.19 0.10 4.10 0.10 11D 119 0.10 OJ80 110

6 no 250 O.U no no no no no in 0.10 no o.n 0.10 no no 0,10 0.10 no 119 no no j ion82 us O,M ae no 250 no no it st SK u IA u no no 259 no no no no ut o,ao no 0.10 0.10 no MO no no no no no no no no

u u 6 6 no no no u u 0 .20 OJB no 0,10 0.10 o.u no it no 0.10 no no no 0.10600

- - ^-x^ }...- V250 31 OJO 16 0.60 10 20 ^" 900 0.10 030 1.00 126 16 110 0.10 31^ y ) \

SOMÎOOO W 31

TTTtoV looflj) ojo 82 no ao —, 10 ^"O 0-u * 1B ltt l*no 20 u 0.10 too ('(itmy) t 0,10 w 0.10 NO u 0.10 e?.^ le no no f'1000

0.10 OJO 129 600 lOW 110 126 126 110 600 260 0.10 0.10 0.10 880

0,10 no 126 i6o O.U no no 0.10 ito no 110 no no no no no ne 0.10 f eat . u no to DM 0.10 no no no no 110 0.10 no 0,10 no no no 2.6 - ION ir'

^HO^llO 80 ^.1000 ^19 -WOO 900 0.10 16 10 0.10 1.00 0.10 62 110 260 290

80—— O.W — 0.10__28 A 1000 ) 20 \ 1000 J 0.10 U6^-m^ tt 20 19 0,10 0.30 13 0.10 0.10-. .^ f r 4S^^^^* . -...-^^ -J. -s , . .'.--- 7 - . -(SM 10 (1000 (0.10

OJO 40 0.10 0.10 —-600 -^0.10 ( 0.10 1000 1000

40 a " tM 4-u "o w ~ 0.100.10 0,10 0.10 110 0.10 0,10 40 0.40 0.10

129 0.10 62 Itt 0.10 0.10 D.10

no { ~iwj si 1.W ojo nono 0,20 126 0.10 no

10 U 20 82

91+50 N 92+00N 92+50 N 93+00 y 93+50N W+OON 14+50N 95+00 N 95+50N 96+00 N , , 96+90 N r , 97+00 N 97+50N 98+M N 100400 H 100+50 N 108f80N ,103+OON 104+OON 04*801? 105+OON 107400 N 108+OON 109+50N . UO+QON HOiSON llt+flON

•flfep^? SM-/ (203^-^ VA ,— U9 - K^ 108 106 117 140 124 133 ^ \ 87

U7 108 111 110 7 137 149^^ 138

118 lllv/ 133 137

193

144 IU x 87 117 188 117147 v 110 117

74 "x. 108 117

121 116 109 116 117

78 - 121 103 109 181lil 142 121 ' 67

147 147 UT xâS-/ 106 ill UT 108 107 111 U7 108 103 97

tj7——117 117 /^^ 'W 'W 1W l" 1OT til 108 109 li

93 103 "117. .161 ~^ UT. 117 It ^ U7 UT 106 117 106 103 111 100 Ut y

103 107 121'—— fa /y

M 131 ^v 117 C OS j 103 103 106 U8 146 '//Me

Ul' 114 119 118 103 '128' ^ 80)^'ill lil 19* ——186 138 ift 96*~-117 103 1W 116' 146 /la

98 KB!^ 117 103

117 ^138 j 103

IB 46*—117 103 237

I P - 2 I P - 3

91+50N 92+00 N 92+50 N 93+OOy { t 93+50 W0=2

i. . L - .'94+00 N 94+50 N

14=428,1=417 — . - 18 -. W

I P - 7

L-V--

T-3,MP* 96+50 N 96+00N 96+50 N 97+00N 87+50 N

1———————————l———————————l————H————^~98+00N 9&+SON 98+00N 99+60 tt 100+00N 100+50 N 101+00 H 101+50 N 102+00 N , 102+50 K 103+00 N 103+60 N 104+00 N 104+60 N ^ t IJDBtqIN 106+00 N .tpeyjog ^ 1107+00 y 107+50 N 108+00 N 106+50 N 109+00 N 109+50 N 110+00 N 110+60 N 111+00 N

114=350,1=2J?i^ a X X H-Sv.B.7 7.1 v 4 M 6.S Ij 8.8 —— 84 7.1 x 1.3

'j l 80 \ 1S\\ M M U *'7 6^ 8 10

W^x-22 \\ CVVK " 8 *X M l" Jl 1*-^-T Z1 " \ V \r\X 6\ " W^T.* 13 L- 8.3

'

U tt 4.1 &.1 11 11

IB l? Zl li

6 18 8 4.4 12

i7-^M 4A 4.7 4.3 J

9.4 K -4.1 3.8 4.6 M BJ li —— li

4^ 4.1 4.7 M M 15 3.8 44 S.9 4.1 4.Z 4,2 18 4.7 4J 4.1 8.4 8.7 ^^^^/}!M " 4.8 .-M \ U

iT^XM /f U l* 4

111 SJ ^18 \ IS 4.1 4.1

3.4 34 8.8 17 SJI 18 4.E

4J U 144^ W

16 U ^ IS ' '-19 U- 4J 3.Z 3.6 4.8 4.7 17 3.8 17 4^ 3.9 3.* U 4.4 11

S.4 1.8 j 8.7 18 ^ 1.7 0.86 11 li 6.2 3.3 -^^ 4.*

7.S. f 0.86 . 8.7 W l llV U 0.26 1.3 l 12 U J IM

S" \ ——-- " ^-J—-^" 8J| 7'a M \. u •"•H Sl11

11 '——' li ---Û~--- 11 l M 7.7 19 \ 2J^ 1.8 2.7 " 0.61

li.—"" 13 ^14 '^~tt\ li ^*-16 7.7 a.4 ^X6 \ OJ3 -0.88

91+50 K 92+00 N 92+50N 99+00N 93+50N 94+00 N 94+50 N 95+00 N 95+50 N 96+00N 98+50 N 97+00 N 97+50 M 98+00N 98+50 N 99+OON 99+50 (f 100+00N 100+50 N 101+00 N 101+50 N 102+00N 102+5011 103+00 N 109+50 N 104+00 N 104+50 N 105+00 N 105+50 N 108+00 N 106+50N 107+00 N 107+50 N 108+00 NVH(Z) VH{4) 0=1,4

r 106+50 WLi H M v, H^

109+00 N 109+60 N 110+00 N 110+50 N 111+00 N0=1/3

,2BI 44E 391/"^\ M /r/x•t^jij^ 431/^^481

W ( 6K 671 681

m ,*f p 2 (^}2K 261^ Sil SH 881- 781

11=111=2 11=33=4

0=6

e 11=1

11=3

0=5

0=6

0=2 11=3 11=4 11=5 0=6

TAU (msec)

Spectral-M (mV/V)


Resistivity (Ohm.m)

Line 10200 E


a s 25.0 M

plot point


xxxxx xxxxxxx.

•Very Strong

' •Strong

"Medium

ITeak

•Very Weak

•Extremely Weak

25Scale 1:2500

25 50 75 100 135 150—— "HSS55SS (metres)


BATElfAN LAKE PROPERTY, OntarioConmee it Horne Twp., NTS; 52A/12

Date: 07/03/21


TAU (msec)

Spectral-M (mV/V)


Resistivity (Ohm.m)

——————————————————————————————————— r ——————————————————————————————————————————————————————————————————————————————————————————————— *

93+50 N 94+00 N , 94+50 N ( 96+00 N 95+50 N ( 96+00 N | 96+50^ : 97+00 N ( 97+50 N | 98+00 N | 98+50 N ( 99+00 N | 99+50 N | 100+00 N ( 100+50 N ( 101+00 N | 101+50 N ( 102+00 N | 102+50 N | 103+00 N f 103+60 N ( 104+00 N | 104+50 N f 105+00 N

1

96+50 N 108+00 N 106+90 N 107+00 N 107+50 N 108+00 N 108+50 N 109+00 N 109+50 N 110+00 N 110+90 N | H+OO N 111+50 1*r ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' - ' - ' - ' — ' — ' — --•••" ' ' ' " - ' ' ' ' ' 'V - ' - ' -11=1 500 ^ 250 2.5 0.10 0.10 0.11

n=3 11=4 11=5 11=8

11=6

0.10 0.10 C 500 J 0.10 0.10

OJO — 0.10 0.10

J u0.10 0.10 —0.10 0,10 UO OJO 0.10 0.10 0.10 0.10 250 0.10 0.10 0.10 6.10 0.10 0.10 0.10 0.10 0.10__0.10 1.00 0.10 0.10 0.10 6.10 0.10 0.10 0.10 0.10 0.10 62 0.10 0.10 62 0.10 0.10 0.10 3.9 ISf 13 125

500 J 5 5 0.10 0.10 0.10 250 0.10 0.10 0.10 — 0.10 0.10 0.10 0.10 0.10 0.10 S 0.10 ( 500 ) 0.10 1.10 0.10 0.10 0,10 0.10 0.10 0.10 0.20 62 6.10 250 0.10 62 OJO OJO 0.10 0.10 0.10 260 250

0.10 0.10 0.10 0.10 0.10 0.10

5 /E

0.10 0.10^

0.10 10

0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 OJO 0.10 0.10 0.10 0.10 0.10 16 OJO 0.10 0.10 OJO 0,10 OJO 0.10 0.10 IJ Ol|

0.10 0.18 0.10 0.10 ( 500 ) 0.10 0.10 259-— 0.10 [ 500 ) 16 0.10 tt 0.10 0.10 6 2J 6 1.10 0.10 0.10 0.10 0.16 0.10 0.10 0.20 0.10 62 0.10 OJO 0,10 0.10 0.10 0.10 0.10

0,10 0.10 0.10 250 0.10 0.10 0.10 0.10 0,10 125 2.5 0.10 260 0.10 126 0.10 0.10 0.10 2.5 0.10 16 0.10 31 0.10 020 3.9 ^^^^ 1,00 0.10 0.10 0.10 260

0.10 600 0.10 6 6 0.10 0,10 OJO 0.10 0.10 0.10 0.10 0.10 0.10 0,10 62 ^foT^ 0.10 260 6 10 0.10 0.10 0.16 0.10 16 0.10 82 0.10 126 0.10 '"lOM^ OJO 0.10 0.10 0.10

6 /500 I8J) 0.10 0.10 5

le A r/ooo —sjoo- fl.io —s^ \ ion /BOO

93+50 N 94+00N 94+50 N 95+00N 95+50 N 96+00 N 96+50 M 97+00 N 97+50 N 98+00N 96+50 N 99+00 N 99+50 N 100+00 N 100+50N 1+00 N 111+50 N108+50 N 109+00 N 109+50 N 110+00 N

UO ———110 1 121—..IB 96 122 107 117 96 117 108 107 117 108 __ 108

143 120———m 96 98 x-^1? Ill 117-——111 117 105 f 72 \ 109

143 143 Mil 1M ^ tt S 111 108 l 1293 J ) 116 111 96 -—- 87 ^ 111

T \ \" "114 f 133 . ...

149 152 ^J-Mg^SSf m 117 105 117 '"70

-103 117 x 88-^117 ^172_ -

y 108 y/TB/Vw 136 V^V^

117 / 78 X 117 126 117 ———

yr 133^-152 121- 133 136

109^-121 x 153 ^-llj-——l* ——— 124__124 J 15

164 149 188x^108 }49 183^/102 f 143 ) 104 114 x 155 (

159 ^ 1H . 184^"-- 146 176 7 117 119 —— 114 92 l . 162 146

388__ SM CS: 857 ^T-204 f 1B6 162

117 111 111 —— 111 108 96 111 J 70 ) 117 ( 88 7 111 __ 117 ( (m) J 117i j v y s v\ v v—^s s^_^ ^_105 111 X 76 X106 10s"106 C 138 VllT^—" -

149 — 146 -164 186 214 ^- 168 -" 117 119 110 262 ' ' -153 "* N 229 179 169 ^ 187

0=1 99 96 90 11IL/ 124

11=2 133 "—— 124 ———^133 133

11=3 1&2 ~—— 163 182 143.

11=4 1*1 ~~~ 1W

nsS 187

11=6 146

93+50 N 94+00 N

I P - 3

94+50 N 95+00 N

I P - 7

95+50 N 96+00 N 96+501 97+00 N 97+50 N 96+00 N 98+50 N 99+00 N 99+50 N 100+00N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N 104+00N 104+50 N 105+00 N11=2 1^=382,1=2-4

106+00 N 106+50 N 107+00 N 107+50 N 108+00 N 108+50 N 109+00 N 109+50 N 110+00N 110+50 N 111+00 N 111+50 Nns2

11=336,1=2-8.0 6.7 i 9J v , 3.7 4.1 6J

\u) \1 0^\\2 W, 4,

.6 7 M ——^ 7J \^ SJ ^v 6 f .

4.1 6.3 - 3.8 , 7J U 6.9 5J ^ 3J 3^/47 42 42 — 3J

6.7

49 6.1 43 44 5.8 i 3.3 3.9 2J 32 ^ 3.9 8.4 64 i 9 .5 11 U jtr^sVJ? —- 8.1 —^9.1 ' M w ^ T

3.6 5J 4.7 4.3 4.3 49 41 —— 3.9 6.2 \ 2J

6^6.61 ^

ItW l vat v*m fc

6.7 7.9 9.2 U ix^u u "vi u s r; "^W"^16^^-12 11 13 lT^ 9.4 /'1.6 -^6.7 ' ~'i IB9.6 12 ^ 7J 8.8 6J 4.9 N 7J ^ 8.7 6J

93+50 N 94+00 N 94+50 N 95+00 N 95+50 N 96+00 Nvri(s)

98+50N 97+00 N 97+50 N 96+00 N 98+50 N 99+00 N 99+50 N 100+00 N 100+50 NVE(4)

l———l———l———l———l———l———l 101+00 N 101+50 N | 102+00 N ; 102+50 N '——-VH(4) p .

103+00 N 103+50 N | 1104+00 K VE(3) -^^

104+50 N t 105+00 N —^

, 1^*5+50 N 106+00 N 106+50 N | 107+00 N 11=4,5'"'

107+50 N 108+00N 108+50 N 109+00 N 109+50 N 110+00 N 110+50 N ll+OON 111+90 N

401 601 591 371

471

11=1 201 ^6986,^

441 ^2K —— 301 48K——451 441

531-^ 4tt 651 381 401 44t

li-x. 8238 -^271 \60I Ml ttf 461 321

\4SI 281\ 5nnt \

261 481 311/7939

611 Bil 68K

) 4g 3ffi Sn/ 641- , 101 M81 ^ ISIxx/ 785 452^- 448 ^^ 657 v\ *" 6457 y 1252 i 3959 4160 — 3832 3997 —^^^y^-^^^%%^ ;® N^•^591 861^531-^281 24E jrf \ A m"' 1363 ^ 24W C 5443 V1219 . SM^FwTl 1486 riee \V 5017 •Oa'Z'mS:,

TAU (msec)

Spectral-M(mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

Line 10300 E


a = 25.0 M

plot point


•Very Strong

1 Strong

Medium

'Weak

Very Weak

•Extremely Weak

25Scale 1:2500

25 50 75 100 125 150-i I- (metres)


BATEMAN LAKE PROPERTY, OntarioConmee A Horne Twp., NTS: S2A/12

Date: 97/03/12

JVX LW. (Ref. 9680, March 1997)

TAU (msec)

Spectral-M (mV/V)


Resistivity (Ohm.m)

91+50 N 92+00 N 92+50 N 98+00N 93+50 N 94+00 N 96+50N 96+OON

0.10

(UO - 0.10

0.40 0.10 1.00 0.10 ^JOOpx^x 2.5__ 0.10 0.10 0.10

0.10 U 0.10 0.10 { 500 y 5 0.50 2.5

0.10 0.10 0.10 0.10 0.10 0.10 V 500'

0.10 0.10 0.10 5 0.10. ^ 0.10

0.10 0.10 0.10 16 /,

10 ^ "SooT^looT- 6 aio 0.10 0.20 ^ li- BOO -"(JOM *? 2*M 0.10 f] 0'10

10 2!?^* 1000 = 1000 — 1000 = 1000 ^

98+50N 97+00 N 97+50 N 96+00 N 96+50 N 99+00 N 99+50 N 100+00N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N 104+00 N 104+50 N 105+00 N 105+50 N 106+00 N 106+50 N 107+00 N 107+50 N 108+00 N 108+50 N 109+00 N J109+50N 110+00N 110+50N 111+00 N 111+50 N

0.10 0.20 0.10 0.10 0.10 0.10__0.10 0.10 0.10 0.10 1.00 020 0.10 1.00 0.60 1,00 0.10 0.10

0.10 0.10 0.10 0.10 0.10 ( "O ) 0.10 0.10^^0.10 72 0.10 16 0.60 0.10 16 0.10 0.10

0,10 0.10 0.10 0.10 0.10 S 0,10 0,10 (^500^) 0.10 0.10 040 2 0.10 0.10 0.10 5

0.10 0.10 0.10 0.10 0.10 260 0.10 0.10 0.10 0.10 020 31 0.10 0.10 0.10

0.10 0.10 0.10 OJO 0.10 2.6 0.10 0.10 0.10 0.10 81 0.10 82 0,10 0.10

0.10 2.9 0.10 020 0,10 0.10 0.10 0.10 020 2 62 2.5 0.10 3.9 1.3 16 129 62^—— 82 31 \ v 1000^ z—

0.10 040 0.10 0,30 16 0.10 0.10 18 62 0.10 fjD ^r- Q-10 125 040 0.10 040 250' 500 J 1.00 250-" S

1.000.10 0.10 2.5 0.10 14 020 0.80 0.10 0.10 82 31 31 0.10 l 1000 ) j 82 0.10 0.10 2.J

0.10 10 0.10 ( 500 } 0.10 0.10 0.10 82 0.10 260 125 0.10 0.10 IjM ~ 0.10 0.10 12 2.6 125 24 "- 250 0.10 16 0.10 10.^-^600

0.10 ( 600 ^ 110 5 ( 600 ^ 126 0.20 0.10 62 0.10 0.10 10 126 "l 0.10 126 1.3 126 82 f BOoN 82 260 24 S Wl) 110

16 3.9 290 250 16 ^ ION ^ 125

5 260 2J 020 14 (( LOW \ \ \ 5

10 ——125 OJO 110 5

0.10 0.10 110 110 110 0,10 0.10 0.10 m 0.10 0.10 0.10 0.10 2.5 0.10 0.10 0.10 0.10 u 0.10 IB 2.5 24 0.10 0.10 O.M 3.9 1.3 2.5 126 26o— -**040 125 020 0.10

91+50 N 92+00 N 92+50 N 93+00 N 93+50 N 94+00 N 94+501 98+00 N 96+OON 98+50 N

w-l"s\\\ 92 116 142 149 133 -110

120 148 128

l US ^^110^- 1

1 133^- 10g 107 i

13S KM 121 117

lit W__ 121 ——^33 124 133 102 146

99+00 N 99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00N 103+50 N 104+00 N 104+50 N 105+00 N 105+50 N 106+00 N 106+50 N 107+00 N 107+50 N 108+00 N 108+50 N 109+00 N , U09+50 N

143 > 106121 148 """W^* Til 104 ——106 106

129 ^.113' 146

42 \ MOO 116 92

x .^ 1"iU \ **n133 146 171 ' 187 —-l

110+00 N 110+50 N 111+00 N 111+50 N

136 124 . —— 140 117 67 . —— 87

l t m J S. 148 143 143 133 119 106- 109 116 105 ' p ' 117^ 68

I P - 2

91+50 N 92+00 N 92+50N 93+00 N 93+50 N 94+00 N 94+501 95+00 N 96+OON 96+50 Nnsl

11=451,1=217 8.4 5.4 44

3.8

62 x 94 . 8.9 13 6.7 x 1J

64 7.3 X 6.1 ' x 11 -Ot il -i 17

7.1 4.8 3.7 ' 12 ' ' 26 21 "^ -33

97+00 N 97+50 N 98+00N 98+50 N 99+00 N 99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N 104+00 N 104+50 N 105+00 N 105+50 N

IP - 7106+00 N 106+50 N 107+00 N 107+50 N 108+00 N 108+50 N 109+00N 109+50 N 110+00 N 110+50 N 111+00N 111+50 N

44 8,6 32 3.6

X 14 64 13

62 42 (TO 13 16 8.5 7.6 V *2 17 32

20 V\*J 6.1 42 32 6.4 84 7.4 6J 7.6 ~ 13 ^ 3.9 S 2.8 M l 6.1 64 —— 64

•^S"~ 6 3J 82 7.6 7.4 7.6 [jj7 9.1. 17 32 24 -—^ 3.8 6 74 7.4

4 ,,8.B 16 14 74 6.8 7.8___7.7 ^,B 3.4 5 4.7 l 7.8 9.1

14 4.7 4.6 4.9 44 4.6 6.7 6J 3J 3.1 3.9

~ 44 4.1 5.1 4.7 4.2 6 62 3.1 4.5 3.8 0

7.2 7J 6.7 6.1

82 7.3 82 6 J 12 ' ' -24 22 8.9 B.9 - 6J 9.1

.64 12 j 3.7 6.1 3.1 3.3 3.6 3.7.

B.3 52 54 4.3 4.8 V 6.7 X 4.2 4.7 62 4.1 44

6.1 8.7 8.4 6.B X 6.4 44 4.4 42 4.4 6.6

7.7 6.7 \ 5J! 4.9

10 62 62 11 6.1 7.7 82 42^ 8.1

2.J,/

M _ 62 8.3 34 4 5 J 1 .6 3.7 \\

(^ \, u ^ i - ^14 6.6 \ 64 64 -*^ 72 X 4 V 1.9 24 l

12 y4J 32 , 7.4 ^ 6.1 46

4.7

M 3.1

3.1 4.7 N 6.3 6.7

13-* 11 8.9 94 10 x " \ " 11 \ 12 j 12

6.2- ^ 14 N 7.7 7.7 /^14^ 8.4 84 12 12 10 82

•9.4 12- 84 x 5.4 6.3 -~^*4. 12 0.72 1.9 0=1

4^~~~- 2.8. O.B5 0=2

sX ——. \ f f

72 17 /IS \ B.8 BJ f 12

74 y \L*S 10 . 8.1—^6.7 i^ \

91+50 N 92+00 N 92+50 N 93+00 N 93+50 N 94+00 N 94+50

n=3/4 H(2)95+00 N 95+50 N 96+OON 98+50 N 97+00 N 97+50N 96+OON 96+50 N 99+00 N 99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+50 N

n=2/5 VH(4)- VH(2) VH(4) H(4) -H(2)

184

761-__ 691-—- 741

611 ( 1041 Hit t 871

^^J-^

3SI x/ 5W* as 4*1. Vj?Lx^ **w — 2463^, 7*88 - 111 - Itt —— 161 i; l

^Xk^S^ta -^ vtfSZ^\ Q U.V^Y^/^'ÎL Qtfftr-2\ \U ^^j d^/Li ..\ \ .ili\\y^( © L\\Xrî'1^4 ) i\\\î481 ' 181 301 x x 6301 6473

104+00N 104+50 N 105+00 N 105+50N 106+00 N 106+50 N 107+00 N^(3)

22* 462, 8*2^( 1836 \ 6873 y 2139 }

107+50 N 106+00N 108+50 N 109+00N 109+50 N 110+00 N 110+50 N 111+00N 111+50 N

f wii auoo X (

IB77 ' 7664 9316 ~

2171 V 8434 ' -

1812 ^4580 ' 8646 - 6408

^?13K \ \ BVAV l WW1V x. ^- wvi s^

1=1/3"

870 406 0=1

Sf-^ 573 0=2^\t~

l 8188J ;2426 0=4

--6424 0=6

2433 0=6

TAU (msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

Line 10400 E

Dipole-Dipole Array

a = 25.0

plot point


zxzxz xxxxxxx.

Very Strong

- Strong

Medium

Weak

Very Weak

Extremely Weak

Scale 1:250025 50 75 100 125 150

S L-

(metres)


BATEMAN LAKE PROPERTY, OntarioConmee A Horne Twp.. NTS; 52A/18

Date: 97/03/12

JVX LW. (Ret. 9680, March 1997)

TAU(msec)

Spectral-M (mV/V)


Resistivity (Ohm.m)

91+00 N 91+90 N 92+50 N 93+OON 93+50N 94+OON l 94+90 N 95+OON 96+50 N 97+00 N 97+50 N 98+00 N 96+50 N 99+00 N 99+50 N 100+00N . 100+90N . 101+00N . 101+50N . 102+OON . 102+50 N . J03+OON ; 103+50N | 104+00N ; 104+50N f 105+00N f 105+50N | 108+00N ( 106+60N ; 107+00 N ; 107+60N ; 106+00N 108+90 N t09ft N 109+50 N 110+00 N 110+50 N 111+00 N "l+SON

16 0.10

iMO ^ 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 U 1J OJO 0.10 0.10 020 0.10 3.0 OJO OJO 1.00 1.00

' OJO 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 62 0.10 0.80 125 0,10 0.10 OJO 31 62

.10——^125 0.10 0.10 0.10 0.10 0.10 0.10 0.10 gjH 0.10 0.10 0.10 125 0.10 1.3 l* 82

0.10 0.10 0.10 0.10 0.10 2J 0.10 0.10 0.10 0.10 82 31 Gu^ 126 r 250 X 62 7J 250

__ 10lO"^ 2J 0.10 0.10 0.10 (260 \ 0.10 OJO 0.10 0.10 2J 31 __ 0.10 2.6 125 "V W. H U

CT^

1000 1000 ^ 260 0.10 0.10 0.10 x 260 0.10 0.10

10 31 \\ 500 V \ 2J

zjXNsoor^S

- 600 ^ OJM A 1000 ^^14 2.6 OJO 126

24 0.10 125 0.10 7.8 16

0.10 1.3 0.10 1.00 16

2J 2.5 0.10 0.10 0.20 0.20

2.6 0.10 0.10 10

1.3 0.10 0.10 ~ 126 —— 0.10 280 OJO 31 0.10

31 62 62 125 0.10 0.10 0.10 0.10 62 U ^.!H/ 82 ZU t-SWsy 0.10 0.10 7.6 0.10 0.10 0.50 10 16 0.10 0.10 81 0.10 0.10 62

0.10 82 3.9 0.10 OB-5. 0.10 0.10 toT) 2.5 0.10 0.10 0.20 040 0.10 0.10 250) 0.10 0.10 0.10 0.10 l* 0.10 0.10 125 1.00 0.10 3.0 ( \m

0.10 1J 0.10 0.10 0.10 2 1.00 0.10 0.10 0.10 5 0.10 OJO 0.10 0.60 0.10 16 0.10 31 0.10 0.10260 0.10 3.0 0.10 m 4000

0.10 o.w 3i 0.10 r* 0.10 0.10 0.10 0.10 40 0.10 OJO 1.00 0.10

126 0.10 0.10 16 0.10 1.3 10 10 0.10 0.10 0.10 0.10 0.10 16 0.10 ' 600

0.10 0.20 0.10 16 62 18 t.10 OJO—— 0.10

1.00 0.10 0.10 125 ii 0.11 W^TST^ 0 .10

0.10 0.10 0.10 3.0 0=1

600\\ 5 0.10 0.10 0.10 11=2

500'——500^0.10 0.10 ns3

0.10 11=4

0=5

0=6

+OON 91+50N 92+OON 92+S3 N 93+OON 93+50 N 94+OON ^ 94+50 N ( 95+OON , 95+50N f 96+OON ( 98+50 N ( 97+OON | ,97+SON

L98+00 N 96+50 N 99+00 N 99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+OON 102+50 N L03+OON , 103+50 N ( 104+00 N : 104+50 N : 105+00 N : 105+50 N ( 106+00 N ( 106+50 N ( 107+00 N ( 107+50 N i 108+00 N : 108+50 N p lOSjM N t 109+50 N 110+00 N | 110+50 N 111+00 N 111+901r

74 68 7 i 116 - 123 123 f 110 121 111 117 118 116 v 121 110

100 111 121\ 118 117 \_121 111

107 117 IDS 110 110 116 100

108 / n .sim __ 108 116

l/ 86/108 (joj^ 108 - 117

M —--108 111 108 ' i 76 ^

;1 ^ 110 108 110 f 00 S 106103 110 106 121 ——119 110 121-

117 O^l 117 133 121 110 121 121 105

117 11* 119 11* 110 116 ^ 121 121 111 124" '121 ' 90 N 106 106 118

im 108 116 103 108 117 102 109 111 v 80 80 74 —^ 78 - 42 ^ 75 67 It^în^-â . 108 07 -110 105 ^.110 106 66 67 v 40 11=1

42 y^V\ V 46 } M 143117 118 117

116 118

106 Q

107 107 79 67 67 11=2

117 108 121 100 107 7 157 104.

108 —— 118 ——! 148 ~? 126 N \ 67105 10507-K l - 126 ' 87 /102 117 -- 98 119 117 - 137 ' 148 148 i ' 232

'100 100 102^ Vi f 1 11 100

I P - 2

91+00 N 101+00N 101+50N 102+OON 102+90 N100+00 N 100+50 N

11=1 1,1=359,1=4

64 44 4.7 5.6 5.7 6.2 v 64 3J - 44

6 \

6.1 4 4- 3.6 2.4 3.1

5.4 U 4 4.1

8.4 4.7 \ SJ l 4J 6.13.9 -^ 4J 6.4 V 84 y 5.4 6.6

B.Z 5J 5.0 6.4 5.8 8J 8J! . 6J 6.7

6.1 \ 8.2 v 54 7 6.0 6.4 V 6.B 7 8.6\ J \8.1 —— 64 6.6 6.3 ^ 64 7.1 5.1 7.9 8.8 54

103+50 N

IP-8104+OON ; 104+50N | 109+00 N ; ÔS+SON f 106+OON | 106+90N ( 1107+00 N ( 107+SON ; 106+OON ( 106+90N ; 109^ N ( 109+50N ; 110+OON ( 110+50N ; 111+OON ( .Ul+ftON

EJ 3.8 4.2 / 7J 74 v v 2.3. 0.75 0.24 v. 4.7 s 2 .1 3.6 6.1 74 6.1 ^ -3J8 1.1 -0.77 14 nsl*,6 l IJO t# \ \ 6,3

3.9 U (jj) U \ 2J

3.9 24 If -*- 4.1

4.1 3.3 2.8 /4.0

34 U .s^ *i '

4.7 5J8 ^x

4.9 XU X -04

3.0 6.3 V t6 6.6

5.7 '

0.96 0.70 l 3.6 2.0 ~-^. 14 l 4.3 S U l 14 \ 3.9 S 74 8.6 6.7

^/;y/™//" (^12. f/ -0.61 /,5.4 6

1.4^24 r———2

s. 34 3 "44 6.1 64 —— 64 f / -0.81 /. 6.4 6 5.0 —^

4.7^ 3.1 3.9 4J 54 6 ' '-Q.K 'U 6J -^M 8.7 '

1.4 -0.80 34 6.0 \ 1.7 l 14 X — l ^ 21 -—IB T^- \ 11 77^ '

84 64 4.8 64 W / 3.3 1|

7.0 J 4.3 64 54 f 3.1 2.1

6———6.7 6.4 54 3.9

5.4 /64 54

5.4 6.1 6.8

91+00N 91+50N 92+OON 92+50 N 93+OON 93+50 N 102+90 N

6678 6110 8460 — 3706 26(6611 -411 , 271

W 401 361

171 201 141

Itf IK 171171 161 201

181 211 on J an /va. to. \ m. , Mi y in —111 181/471

IK'' W. 391 (n-"9204 Mn^ la ' ' 66122 321-- -121 ' 6080 ' 2662 2047

iOS+OON 103+50 N 104+00 N 104+50 N 105+00 N 105+90 N 106+00 N 106+90 N 107+00 N 107+50 N 108+00 N 106+50 N 109+50 N 110+00N 110+90 N 111+00 N 111+50 N-VH(2)

1754 3705 — 6841 ( ^-^ f101 Itt 829

Z^p-fr^

TAU (msec)

Spectral-M (mV/V)


Resistivity (Ohm.m)

Line 10500 E

Dipole -Dipole Arraya na a

a = 25.0 M

plot point


•Very Strong

Strong

•Medium

•Weak

•Very Weak

•Extremely Weak

35Scale 1:2500

35 50 75 100 125 150sa^-^^s (metres)


BATEMAN LAKE PROPERTY, OntarioConmee tt Horne Twp.. NTS; 52A/12

Date: 97/03/19

JVXLW. (Ret. 9680, March 1997)

TAU (msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

91+50 N 82+00 N 92+50 N 93+00 N 93+50N 04+00 N 94+50N 95+00 N 95+50 N 98+00 N 96+50 N 67+00 N 97+50 N 96+OON 98+50 N 99+00 N 99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00N 102+50 N 103+00 N 103+50 K 104+00 N 104+50 N 105+00N 105+50 N 106+00 N 106+50 N 107+00 N 107+50 N 108+00 N 106+50 N 109+00 N 110+00N 110+50 N 111+00 N 111+50 N

11=1 11=2 0=3 0=4 0=5 0=6 0.10 260

125

0.10 16 i i 1000-x- 500 ——500 - s It

5___125 '^X SIM^-' 250 C^2J\

0.10 ^250 CjOO/^x 125) 250-7 la \7v

1000 ^ 125 5 31 125 62 0.10

•Â2M—————-O7

0.10 31 OJO

1.00 2J 0.30 0.10 ** 2060

1000 s 9 ^ 1.3 5 0.10 16 OJO 2 0.20 0.10 0.10 0.50 OJO 1J 0.10 0.10 0.10 62 16 256 - 0.10IZS^——2.5^/500 ^ 0.10 2J 1.00 0.10 0.10 0.20 0.10 0.10 0.10 31 0.10 0.10 OJO 0.10 31 7.6 16 0.10

0.10 0.10 16 OJO 0.10 0.10 0.10 0.10 0.10 16 0.10 OJO 2 16 31 62 0.10

500, \ 5,*^: 500.) 0.10 125 OJO 0.10 3.1 3J 0.10 31 OJO 3.1 62 0.16 62 0.16

60FC"J000.7y'. 0.10 l J 0.10 0.10 3,9 125 0.10 0.10 31 OJO 31 31 7 J 0.10

6^= 0.10 5 0.10 0.10 0.1010 —— 0.10 —— 10 —— 16 0.10 0.10 0.10 10 0.10 0.10

0.10 OJO 0.10 3.8 OJO 0.10 Ul 1J 1J 0.10 0.10 0.10 OJO 125 OJO 0.10 0.10 0.10 0.10 126 -^.JUO i .1000

0.10 16 0.10 2.5 0.10 1.00 0.10 62 2J 10 7J^Tse 125 0.10 OJO 0.10 5^^0.20 OJO S/fw 500 ——

62 16 6.10 16 0.18 0.20 U OJO 3.t 16 (\(^))) *-5 K 0.10 0.10 0.10 C gM.*) 0.10 0.10 (^ 500/^ 125"WO

0.10 0.10 0.10 0.50 0.60 JSOj OJO 0.10 1J 260 ~~7^5 0.68 0.10 0.10 0.10 0.10 2J 0.10 0.10 5 S 250 6

0.10 0.10 0.10 (250 j 0.10 61 0.10 62 6.10 \ 260 31 0.10 = 0,10 0.10 0.10 2 0.10___0.10 2.6 ( 500~) J 82^-^ \—' JtSSSSSi^. x^^X \^~^^y

0.10 0.10 0.10 0.10 2J 1.00 OJO 62 62 040 O.liT ^ 8000 * 0.10 OJO — 250 t.M S' ItM^ 0.10 OJO ~~ 0.10 3.0

31 7.8 0.10 OJI 0.10 260 \ 1.3 125 - 500 ^ 250N \ \ S

OJO 0.10 0.10 11.10 16/250 0.10 -^250 /IS

125 —250 0.10

"25oL 0.10 0.10 3.1

31 0.10 0.10 0.10 0.1

62 0.10 2 3.1 0.10 0.10 0.10

'250 V 0.10 0.10 0.10 0.10 0.10 SJ

250 0.10 0.10 62 0.10 0.10 " It50 126

X BO \ /250

0.10 0.10 0.10 0=1

0.10 0.10 0.10 0=2

125 0.10.^5007^; 0.10 0=3

0=4

0=5

0=6

, 0.10-^^ 62 0.10 X-

0.10 0.10 ""'-SOO 0.10

0.10

91+50 N 98+00 N 92+50N 95+50 N 96+00 N 96+50 N

4.0 S 6.7 7.7 . 6.9 8.2

97+00 N 97+50 N 98+00 K 96+50 N 99+00 N 99+50 N 100+00N 100+50 N 101+00 N 101+50 N 102+00 N . 102+50 N . 103+00 N . 103+50N . 104+00 K . 104+50 N . 105+00 N , 105+50 N . 106+00 N 106+50 N 107+00 N 107+50 N 108+00 N 108+50 N 109+00 N 110+00N 110+50 N . 111+00 N 111+50 N

' 121 x^* 203 y t 103 86 M 100 66 * 108

J 100 "••138 J 110 VO*M J 103 ( r*// 10S

120 IN ('""w""') 108 —— 111 117-——'m (

124 t6 —— 106 1121. 107 117 \ Tt

S ia\ 1M ( ^}——146 124 t6 —"^106 y 121 107 117r—"\ \ ^ — ^ "Is

133 l 168 \ 111^/1" IU\ Ut l07 m '\ " A fTj CX 1U ~~. 148 151 n, tu 103 ^ n -îfi X 117

106 \^J61,^- 106 lOB 111

107 /74 J 106 117 11!

,1S6 J 103 17

( rt --vîoo nr107 IN

to ,tt . n -\ 56 82 X 54 .^ 68 7* N 17

100 ^- U 41 . 101 - 78 -

f 64 ( IsT^^ 66 "^48 J 1

67 67 0=1143 143 107

121 ) 67 __ 74 -— 11 67 67 11 67 \ ill f 146 143 m ' l U 67 67 87 0=2

M — 67 SelQQitlj BS 67 6F ( ill S^ 133 146 118^60 67 ___78 67 0=3

——117^ 67 87 __ 67 * r 62 ^ lU-^tt /VI*.*//, l }*-——^"

67

1

11=4

0=5

11=6

95+60 N ; 96+00 N ; 96+50 N ( 97+00 N | 97+50 N 96+OON 96+50N . 99+00 N , 99+50 N 100+00 N 100+60 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+501 104+00 N 104+50 N 105+00N

IP Zone

105+50 N 106+00 N 106+50 N 107+00 N 107+50 N 108+00 N 106+50 N 109+00 N

15 i OJ 0.8 -- 6.7 6J 7.1 i 34 4J-8.7 6J 7.1 i 34 4J , 2 S

9 g " —— j,j __ j,4 g 3| 3 ——— 3j

16 — 1.1 1.2 5J 5.6 3.1

n=2 M=187 I T=.5

I P - 8110+00 N 110+50 N 111+00N 111+50 N

3.9 4.7 4J 3.6 44 6.3 4.6 , 2.1

4.2 3J 4.1 4.6 34 5.1 6.3 2.6 2J

3 J 3 K SJ 44 4.3 6.6 2.6 2.7

LI -.M 2

N2J

t \ V\ 13 14^ 16 N

2.7 1.6

3.6 \ 2.8 2.7 14

3.7 3.1 1.8

4 3.1 \2.B~) SJ 6.4 4.7 3.3 2.7 f 3J "^ 3 4.2 l 2.4

4.1 3.7 SJ 4J 5 3J ( ZAIA 3.4 3.6 4.1

4.1 SJ 5.5 4.7 3.3 3.3 4 4 3.5

4J i 1 .4 2J 3J 3.1

5.7

l 1.4 ZJI 3Jt 3.9 3.0

2.8^,^.3^,^4.3 j tt^ U 4J

1.4

5.5 3.5 v 2.1 2.8 —— 3.1 3.1

6.5 34 l J . 6.8 \ 3.1 IT

5J

. . .

l J f . 6.8 \

3 —^ 5J 8

3.6 U 3J 4.8 3.3 ^

4.7 13 5.1 3.1

1.7 \ 4.3 U 4.4 3.1 4.6 6J

4.1 4.9 SJ 5.7

6 3J 4.6 6J

6J 2.1 4.4 4 5.7 3.1 5.1 3.7 -27 8.3 "^ 11

/ 44 v2.1 2.1 0.14 -1J ;__41 -1.1 ; .6.6 -6^/ 8 54 4J 3J 4J 0.26 2.2 1.6 1.1

43 44 \ 2J l -It j U~X\ 1.3 3.6 V 8J 6J —— 6J 6.0 3 y'tJ l - lJ 2.6 1.7 OJI

4.6 3J 0.31 -15 1J -^S^ll X. 4.1 S4\ t.3 ( 3J V 7.7 \ 6.1 ( l.lsS OJ4 1.1 2.3 14 -U

4.1 3J x3 -22 ZJ -tJ X ej^^^ 6.2 4.6 "-^7.1 X. 44 ^-8J ^ 4 { -2J 2J 1.6 l J -0.lt

tf~^~- 2J -25 4J 024 2J X. N loX, 6.8 8.1 X 7jX 4 4 3.1 __ 2.6 1J 0.16 1.7 OJI

5.1 8.7 -27 8J "^ 2.1 •X^8J~X 2i2 CX 10 v 9.1 5.4 8J 3J 6 ^ 1.7 -l 2J 1.6 '

U, 1J/ 8.8 7J 7J 6.6

-3.7 HOW 7 4.0 .' 6 J 6.1 7.0 J 3.1 -3 J -2J -11

OJI y( 4.6

1.7 -l 2J 1.6 -Û l 6.1 6.9

-2J 0.34 -10 0=1

7.7 8.4 7.7 S 4.6

-2.3 2.4 \ 7.7 8.1 l!*/ *b

51 Vff 4.t\ 7.7 8.7 ' ~-•Su* ! i -' -OJO -0.11

-2.4

•LI

0=2

0=3

0=4

0=5

0=6

91+50 N 99+00 N 99+50 N 100+00 N 100+50 N

121 161 4461 3510 — 4663

101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 103+501 104+00N 104+50 N 105+00 N 105+50 N 108+00 N 111+50 NVH(2)

— 2M6

0=1

0=2

0=3

0=4

0=5

0=6

TAU (msec)

Spectral-M (mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

Line 10600 E


a = 25.0 M

plot point


xxxxx xxxxxxx

•Very Strong

Strong

'Medium

Ifeak

•Very Weak

•Extremely Weak

25Scale 1:2500

25 50 75 100 125 150 ±i* I- (metres)


BATEMAN LAKE PROPERTY, OntarioConmee it Horne Twp., NTS; 52A/12

Date: 97/03/19


TAU

(msec)

Spectral—M (mV/V)

Chargeability(mVA)

Resistivity (Ohm.m)

92+00 N 92+90 N 93+00 N 93+50 N 94+00 N 94+50N 86+50N 96+00 V 96+50N 97+00 N 97+90 N 96+00 N 96+50 N 99+00 N 99+50 N 100+00 N 100+50 N 101+00 N 101+50 N 102+00 N 102+50N 103+00 N 1*3+50 N 104+00 N 104+50 N 105+00N 105+50 N 106+00 V 106+50 N 107+00 N 107+50 N 108+00 N 108+50 N 109flN 109+50 N 110+00 N 110+50 N 111+00 N 111+50N

0=1

0=2

11=3 11=4

500 62 0.10 0.60 0.10

5 0.10 16 0.10 __ X

2.5 0.10 250 5

125 15 0.10 10 20 —— WO 20 —— "flilO \ f 2000

0=5 0.10 250 0.10

0=6 0.10 0.10 0.10 ' ION

10 2.5 0.10 S3——K 0.80, —— 250

10^ O* 82

lobTx u 0.60" ^^ 10 0.10 1.3

li) \ 0.10 2.5 250.——-600^ IONW

S)___80 ^^V 0-10

0.40 Cs 2000 NX 250 62

0.10 OJO 0.10

0.10 "^600 5

ION 6

0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 2 0.20 1.00 1.00 0.10 31 050 K 31 0.10 128 500. 0.10 0.10 0.10 0.16 0.10 0.10

-77 ™/* -

1000 ION " 0.40 ION

0.10 0.10 0.10 0.10 3.9 0.10 0,10 0.10 0.20 0.10 0.50 0.10 0.50 0.10 2 0.50 0,10 050 16 18 62 16 0.10 15 125 ^^———."^••HtW ^——-x250 1.00 0.10 050 0.10 0.10 75 0,10 150 0.10 0.10 16 3.9 0.10 0.10 0.10 0.10 0.50 0.10 O.H 0.10 050 0.10 125 1.3 500 OJO *a UK 0.10 0.10 0.10 0.10 0.10 0.10 250 62 82 5 J ION ^ 0.50 0.10 0.10 |ttUO 0.10 0.10 250 500

0.10 0.10 050 0.10 31 31 0.10 0.10 050 0.10 31 050 0.10 0.10 0.10 85 0.10 0.10 0.10 62 ' 0.10 16 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 7.8 25 0.10 2.6 0.10 f 1000 600 0.10 0.10 O.lM. 0.10 0.10 25x-——-O ^~X

0.10 0.10 0.10 0.10 31 600 0.10 0.10 050 0.10 31 31 0.10 0.10 0.10 0.10 050 O.M 75 050 250 31 15 050 0.10 0.10 31 0.10 0.10 0.10 82 1.3 186 260 0.10 0.10 250 l 1000 ) 0.10 0.10 110.10 0.10 500

31 0.10 0.10 31 vy;* 8000 0=11000 ION v 31 0.10 0.10 0.10 JU^.10 0.10 0.10 0.10 0.10 iOD —^ W 0.10 0.1D 31 MgL.0\ *v \ n ? ^\ ^ w*0.10 OJO 0.10 0.10 0.10 0.10 0.10 250 250 \ 1000 1000 \ 16 0.10 0.10 O.|f 0.10 0.10 0.10 500 250 ( 1000 ) 0.10 0.10 82 ^ ION 0=2

"Vvss//K 0.10 0.10 2 125 15 3.0 0.10 0.10 62 0.10 82 16 0.10 250 0.10 0.10 050 31 6 250 0.10 125 0.10 0.10 0.10 0.10 16 0.10 0,10 31 250 125 125 6 0.10 0.10 62 16 0.10 Ojt 0.10 5 5 MO - 0.10 0,10

y 0,10

0.10 0.10 500^/74000

( ameoo0.10 ( ION ) 20

050

0=3

0=4

0=6

0=6

92+00 N 92+50N 93+00 N 93+50N 94+00 N 94+90 N 95+50 N 98+00 N 96+50 N 97+00 N 97+50 N 98+00 N 98+50N 99+00 N 99+50 N 100+00 N 100+50N 101+00N 101+50 N 102+00 N 102+50 N 103+00N 103+50 N 104+00 N 104+50 N 105+00 N 105+50 N 106+00 N 106+50 N 107+00 N 107+50 N 108+00 N 108+50 N 109+50 N 110+00 N 110+50 N 111+00 N 111+50 N

117 ^__IB v s 49 67 67 67 87 67 87 67 79

\ 124^ 131 /V 46 ^87 87 6l||U 87 87 67 f 121—N.

170 ^ 133 117 107 ___ 111 100 123.——.122,__138^ 105 UT 106 , 73T""" - C^ . —— —— ^

.in ( m MOT. _137 l l 70 1 117 151

ep — ~^^/ u'v MV-84 l 111 111 r

52 ^ 84 — \X - 104 117

-- * u __ 1 1 ijsii?'62 74 '188 —— ST^ 143 *

tt \ UT . 111

M 108 ——117 105143 110 117 119 '72 - 51

67 44 '////jv*f67

87 67

*7

380 0=1

0=2

0=3 0=4 0=5 0=6

92+00 N

Shear?o—*|

T-6.MP97+50 N l 98+00 N 98+50 N

I P - 3

93+50N 94+00 N 94+50 N

11=473,1=2-845 4.1 4.6 5.4 75

U 45 55/6.0

10 ^ 75 N 4,8 4.8 /6.4 65

5-u_y-68 "11 9.1 6.7 5.0

26 C (31f V Vsb-21 V^ 86 —-: 21

9.9 12 ' 11 ^ 19 ' ' 13

99+00 N 99+50 N 100+00N 100+50 N 101+00 N 101+50 N 102+00 N 102+50 N 103+00 N 109+50 N 104+00 N 104+50 N 105+00 N 105+50 N 106+00 N 106+50 N 107+00 N 107+50 N 108+00 N 108+50 N 10941) N 109+50 N

IP-B110+00 N 110+50 N 111+00 N 111+50 N

85 v 2,7v 2.7 25 - 35 4 4.6 35 ^ 2 .6 1.9 85 1.7 , 4.1 4.1

35 \. 25 2.1 ^-35 3.7 U 8.7 2 25 15 35 45 Cvf^X! ^-, S l dy

35 ^ 25 2 25 V^ 35 .2.9 2.6 25 .25 —— 85 45 35 __

aT"^--— 3 ' 2.4

65 N U 2 .3

-

)

1.7 0.85 0.26 -0.15

0.98 0.49 -052 057 -U 0.72 OJB8 -0.86 -0.88

1.8 2.1 2.0 ZA

55 3.8 \ 2.6 1.7 25 2.7 ( 3 .6 3.3

ifefc. )95 ' 6.7 3.8 ' 2.4 85 3.4 3.7 55 6.7 U N 1.6 25 3.7 45

4.6 2.9 2.3 3 -^ 35 55 35 45 ^ U \__J-1 0 .63 - 16 0.4.__ 18 -*^1*

j 3.7 35 -^ 2.6 85/4.6 4 45 4.1 ^ 2.7 051 S 6.4 8.2 85 VvJ6jY

35 42 35 \^ 25 J 35 ^— 3 45 3.7 3.8 -0.66 J 65 7.8 7.1 C 3.7 ZZ~B-*,

2.7 45 3.7 35 f 25 l 3.6 3.9 iJI /^ Vt -"""e l 6.9 6.7 75 j -0.40 25

.. 3.4 45 4.9 (85 8.7 V 35 35 2.9 /f ^ 6.8^X8.4 T./ 85 -45 85 -0.47 -053 -25 35 3.0 3.2 4.1 l 1 .6 052 \ 4.4 6.1 \ -15 -3.2 '-45 -1.6 /y 85 " 11 S 75 's -1.0 -16 A

\ f j ,j S 7 llk j, ril^-— U t. ~~- 2 1^-". SJ I.* ——— 7.7 7.1 \ -' ' -' -' "~ - -- -— -~ -' -- -' " ' ' ' -" -- -' -' -~ -^ -- /'-' - f~ ' ' -- - --*65 —— 7.7 7.4 ^ 6.1 ' 6.1 - U 0.70

15 s 4.1 x. O-3 U \ \ 25C-,^--^3—-^2.7 J 35__^65 85\\ 15 -057 -3.S l p-2.1

!JLJ U 3* l-lV 85 85 \ 058 -3 -4J| -1.9

6.1 \ -15 -3.2 '-45

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-0.77 0.18 -15 -0.83 1.8 _. 85 \ 35

92+00 N 92+50N 93+00 N 93+50 N 110+50N 111+00 N 111+50 N

TAU (msec)

Spectral-M (mV/V)


Resistivity (Ohm.m)

Line 10700 E


a = 25.0 M

plot point


zxzxz xxxxxxx

Very Strong

1 Strong

Medium

Weak

Very Weak

Extremely Weak

25Scale 1:2500

25 50 75 100 125 150mi C (metres)

TAU (msec)

Spectral—M (mV/V)

Chargeability(mV/V)

Resistivity(Ohm.m)

106+00 N 108+50 N 109+00 N 109+50 N 110+00 N 110+50 N 111+00 N 111+50 N

250 __ 0.10 3.9 250 __ ~ 511=1 1000 --- 2000 -- 4000 2 0.10 0.10 j 250 0,10

0.10 0.10 C 250 0.80

0.10 0.10 0.20 80

62 ^- 260 ^fJOO 3 0.10 0.60

850 0.10 2.5

0.10 0.10 ' l 40

n=l

11=2 11=3 n=4

11=5 11=8

106+00 N 108+50 N 109+00 N 109+50 N 110+00 N 110+50 N 111+00N 111+50 N

11=1 138 ^ 193

0=2 0=3

11=4 0=5 11=8

--^ 162 ^ ^ 99 __ 117 149

179 ^ 136 -^ 187 \ \ 74 67 67 -- 119 '////j 390

91 Xri48^ 87 67 390 390 —— 390 ^ 416 N 333

362 ^—— 360 - 359 \ \ 461 *"O 388 —— 343

146 -s^K 368 ^— 390/336 333 390 \ \ 473

333 321 368 ' 414

I P - 8

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110+50 N

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108+00 N 108+50 N-t —— i —— i —— iWH(1)

109+00 N 109+50 N 110+00 N 110+50 N 111+00 Nt —— i —— i —— i —— iVH(4) *—

111+50 N

n=l

11=2 11=3 11=4 11=5 11=6

1613 15K

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10K

6915 6277 "X 1176

1480 \•831

4525 -^ 5366 ~^ 4090

TAU(msec)

Spectral—M(mV/V)

Chargeability(mV/V)

Resistivity (Ohm.m)

Line 10800 E


a s 25.0 M

plot point


xxxxx xxxxxxx

. . .... . . . Very Strong

. . . . .....strong

' ' ' ' ' ' ' ' ' Medium

- - ----- - - Weak

........ . Very Weak

. . . . . . . . . Extremely Weak

25Scale 1:2500

25 50 75 100 125 150—l L. (metres)


BATEMAN LAKE PROPERTY, OntarioConmee it Horne Twp.. NTS; 52A/12

Date: 97/03/14


-^ , . Ministry ofOntario jlnodrthMeirnnesDevelopment

Personal Information collect^ Mining Act, the Information i! Questions about this colle* 933 Ramsey Lake Road, Su

Declaration of Assessment Work Performed on Mining LandMining Act, Subsection B5(2) and 6*0), R.S.0.1MO

Transaction Number (office use)x) 9 -y'yA*3y'L

Assessment Files Research ImagImaging

52A12SE0007 2.17459 HORNE 900Instructions: - For work performed on urown uanos oeiorw

- Please type or print In Ink.

1. Recorded holder(s) (Attach a list If necessary)

(3) of the Mining Act. Under section B of the (and correspond with the mining land holder, rthern Development and Mine*, 6th Floor,

use form 0240.

2.17459

2. Type of work performed: Check ( y ) and report on only ONE of the following groups for this declaration.

re* Geotechnical: prospecting, surveys, r—i Physical: drilling, stripping UN assays and work under section 18 (regs) L-1 trenching and associated iassays Rehabilitation

Work Type Office UseCommodity

Total f Value ofWork Claimed ^ //S,

Dates Work Performed \

Dayti ,1 Month | YMT D*y | Month | YMT

NTS ReferenceGlobal Positioning System Data (H available) Township/Area

MlninoQ-Plan Number Resident Geologist ~j\

Please remember to: - obtain a work permit from the Ministry of Natural Resources as required;- provide proper notice to surface rights holders before starting work;- complete and attach a Statement of CosiSr4erm 0212;- provide a map showing contiguoMBjfllffljj^ands that are linked for assigning work;- include two copies of your'

3. Pereon or companies who prepared the technical

4. Certification by Recorded Holder or Agent

, do hereby certify that l have personal knowledge of the facts setforth in this Declaration of Assessment Work having caused the work to be performed or witnessed the same during

Its completion and, to the best of my knowledge, the annexed report is true.

AgerffTMdreee77*7 Telephone Numbe.

0.1*

~. **oi* it DC fecotufca ana aistnouiea. Work can only be assigned to claims that are contiguous (adjoining) to the mining land where work was performed, at the time work was performed. A map showing the contiguous link must accompany this form.

Mining Claim Number. Or ifwork was done on other eligible mining land, show in this column the location number Indicated on the claim map.

eg

eg

eg

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

TB 7827

1234567

1234568

J Z Z. If? 2-3'

li 7 3W7-i "7 *O /J CSf "7 ~"^ *

1 s\ —y fi Ci J l* *

12.2-^?^-

l 1^107'

\ Z-l 5*O/ ^'/Z) 50! l 'l ZZ^6^3 -l Z- 2.4 6^(9-12150/0-l ZZ-^tf)-

IZI 5O l 3I 2- l S O l q*-\-2~\0 "if -2-l Z- 2. f 6 7 L,l 2- ^ ^ 67 ^

Number of Claim Units. For other mining land, list hectares.

16 ha

12

2

U

V

^

2.

l

Z.

l Z1 1

6l 5l (9; 5l Z.xs

/Y' S

Column Totals-v —-^

Value of work performed on this claim or other mining land.

S26, 825

0

S 8, 892

1,1 kOW t SOO

1 O f 200

l&i ÔO

i o 3ooZ. &OO

2 & GO

lozzS 20(p5 "2-OQ

22-^72

11^17

Value of work applied to this claim.

N/A

S24,000

14,000

MOO-5-2-00^00l booLiZOOUoO

HOO5~S3

1 3 GsooS3 3sooHOO"2- fc -?Zfe 7

433

z6,S4^rr

Value of work assigned to other mining claims.

S24,000

0

0

1^33

7^33

Bunk. Value of work to be distributed at a future date.

52,825

0

14,892

1LO\ / , ?oo6,000^ôo

\~^ } 7OO^ôo2- ~2-O*9

2. O ^ 78" ^1H7c)^tf^ 7

2dP 4^9

^s.szzV i-

(Print Full Name), do hereby certify that the above work credits are eligible under

subsection 7 (1) of the Assessment Work Regulation 6/96 for assignmentto-contiguous claims or for application to

the claim where the work was done.Signature~of-êcorded

f )

orized in Writing Data

6. Instructions for cutting back credits that are not approved.

Some of the credits claimed in this declaration may be cut back. Please check ( ^ ) in the boxes below to show howyou wish to prioritize the deletion of credits:

D 1. Credits are to be cut back from the Bank first, followed by option 2 or 3 or 4 as indicated. D 2. Credits are to be cut back starting with the claims listed last, working backwards; or

D 3. Credits are to be cut back equally over all claims listed in this declaration; or

D 4. Credits are to be cut back as prioritized on the attached appendix or as follows (describe):

ôte: If you have not indicated how your credits are to be deleted, credits will be cut back from the Bank first, followed by option number 2 if necessary.

:or Office Use Onlytecehrad Stamp Deemed Approved Date

y 3/,/ff?Thunder Ba,v Mining Division

MAY - 2 1997"RECFJVF.n

Data Approved

Data Notification Sent

Total Value of Credit Approved

Approved for Recording by Mining Recorder (Signature)

® Ontario Ministry olNorthern Developmentand Mines

Statement of Costs for Assessment Credit

Transaction Number (office usej

Personal information collected on this form Is obtained under the authority of subsection 8(1) of the Assessment Work Regulation 6/96. Under section B of the Mining Act. the information is a public record. This information will be used to review the assessment work and correspond with the mining land holder. Questions about this collection should be directed lo the Chief Mining Recorder, Ministry of Northern Development and Mines, 6th Floor, 933 Ramsey Lake Road, Sudbury, Or.tarlo, P3E 6B5.

Work Type

IT P SlX^l/^y

SuPFTSLiyi^J/OA^

Units of WorkDepending on the type of work, list the number of hours/days worked, metres of drilling, kilo metres of grid line, number of samples, etc.

B;.3z,5k^

Associated Costs (e.g. supplies, mobilization and demobilization).

-

Transportation Costs t p /") \S

Food and Lodging Costs

iiiiindu-rh,-., -.lining Di vis;. .

Cost Per Unitof workt

^2073

35^/fcW

^r.f'.M-'-* i \™~ '- -"

MAY - 2 1QQ7 Total Value of Assessment Work

Total Cost

loipon

H,Zde

•2.I7

H2-, Hn

Calculations of Filing Discounts:

1. Work filed within two years of performance is claimed at lOO'Vb of the above Total Value of Assessment Work.2. If work is filed after two years and up to five years after performance, it can only be claimed at 50*yb of the Total

Value of Assessment Work. If this situation applies to your claims, use the calculation below:TOTAL VALUE OF ASSESSMENT WORK x 0.50 Total $ value of worked claimed.

Note:- Work older than 5 years is not eligible for credit.- A recorded holder may be required to verify expenditures claimed In this statement of costs within 45 days of a request for verification and/or correction/clarification. If verification and/or correction/clarification is not made, the Minister may reject all or part of the assessment work submitted.

Certification verifyingcosts:

1)^ u fc L4

A i

, do hereby certify, that the amounts shown are as accurate as mayprint lull name)

reasonably be determined and the costs were incurred while conducting assessment work on the lands indicated on

the accompanying Declaration of Work form as

to make this certification.holder, agent, or state company position with signing authority)

l am authorized

Date

*.' *\

o

O

Ministry ofNorthern Developmentand Mines

Ministere du Developpement du Nord et des Mines

September 22, 1997

DONALD MURRAY LEISHMAN 204 ANTEN STREET THUNDER BAY, Ontario P7B-5J6

OntarioGeoscience Assessment Office 933 Ramsey Lake Road 6th Floor Sudbury, Ontario P3E 6B5

Telephone: (888)415-9846 Fax: (705) 670-5863

Dear Sir or Madam:

Subject: Transaction Number(s):

Submission Number: 2 .17459

StatusW9740.00246 Approval After Notice

We have reviewed your Assessment Work submission with the above noted Transaction Number(s). The attached summary page(s) indicate the results of the review. WE RECOMMEND YOU READ THIS SUMMARY FOR THE DETAILS PERTAINING TO YOUR ASSESSMENT WORK.

If the status for a transaction is a 45 Day Notice, the summary will outline the reasons for the notice, and any steps you can take to remedy deficiencies. The 90-day deemed approval provision, subsection 6(7) of the Assessment Work Regulation, will no longer be in effect for assessment work which has received a 45 Day Notice.

Please note any revisions must be submitted in DUPLICATE to the Geoscience Assessment Office, by the response date on the summary.

If you have any questions regarding this correspondence, please contact Lucille Jerome by e-mail at [email protected] or by telephone at (705) 670-5858.

Yours sincerely,

ORIGINAL SIGNED BYBlair KiteSupervisor, Geoscience Assessment OfficeMining Lands Section

Work Report Assessment Results


Date Correspondence Sent: September 22, 1997___________________Assessor:Lucille Jerome^^^^^^^^^^

Transaction First ClaimNumber Number Township(s) l Area(s) Status Approval DateW9740.00246 1224923 HORNE, CONMEE Approval After Notice September 22, 1997

Section:14 Geophysical IP

The 45 days outlined in the Notice dated July 30, 1997 have passed.

Assessment work credit has been approved as outlined on the attached Distribution of Assessment Work Credit sheet.

Correspondence to: Recorded Holder(s) and/or Agent(s):Resident Geologist Douglas P. ParkerThunder Bay, ON THUNDER BAY, ONTARIO

Assessment Files Library DONALD MURRAY LEISHMAN Sudbury, ON THUNDER BAY, Ontario

KENNETH GEORGE FENWICK THUNDER BAY, ONTARIO

SCOTT ALEXANDER CHRISTIANSON THUNDER BAY, ONTARIO

STEPHEN A STARES THUNDER BAY, Ontario

AVALON VENTURES LTD. THUNDER BAY, ONTARIO

Page: 1Correspondence ID: 11337

Distribution of Assessment Work Credit

The following credit distribution reflects the value of assessment work performed on the mining land(s).

Date: September 22, 1997


Transaction Number: W9740.00246

Claim Number Value Of Work Performed

1224923 5,924.001173947 11,600.001224922 8,700.001224924 8,700.001224908 14,800.001224907 8,700.001215012 2,100.001215011 2,100.001224683 900.001224680 4,200.001215010 4,200.001224681 18,400.00

Total: S 90,324.00

Page: l

Correspondence ID: 11337

REFERENCESf

* AREAS -WHOR^WN FROM Dispositio

f M,R.O. - .--'iNlNS RIGHT5 ONLY S R.O. - SURFACE RIGHTS ONLY M.+S. - taMNG A*f SURFACE RIGHTS

Dawson Road Lots G-649

o oCM

NCfTlCE:Thu tnfarmatbn that appear* on thb mop hw b*en from vortcui. .cures* and accuracy b not guarantcxL e** wUhlng lo jttqiu MINING CLMMS ificNiM ooMNlt with tt. MHNfl RECORDER. Ministry of Northwn D.vrtgpm*nt and Mto*s. for li

Information on HM VMm of tha land* *homi (raman

173911 173912

739 3

M739I41173915

224

1215013 1210316

1215012 12150141207877 I2I50II2I02

1205117120^118

1209578

i I205T;I9

l Ei 5 2 51120^244 H08245 1205173

Adrian Twp. G-640

LEGENDHIGHWAY AND ROUTE No

OTHER ROADS

TRAILS

SURVEYED LINES:TOWNSHIPS, BASE LINES, ETC.LOTS. MINING CLAIMS. PARCELS, ETC

UNSURVEYED LINESLOT LINESPARCEL BOUNDARYMINING CLAIMS ETC

RAILWAY AND RIGHT OF WAY -

UTILITY LINES

NON PERENNIAL STREAM

FLOODING OR FLOODING RIGHTS

SUBDIVISION OR COMPOSITE PLAN

RESERVATIONS

ORIGINAL SHORELINE

MARSH OR MUSKEG

MINES TRAVERSE MONUMENT

DISPOSITION OF CROWN LANDS

TYPE OF DOCUMENT SYMBOL

PATENT. SURFACE 8. MINING RIGHTS...—.—...——.. *

.SURFACE RIGHTS ONLY_____.__.———— O

.MINING RIGHTS ONLY___......_.......... O

LEASE. SURFACE 81 MINING RIGHTS———————— B

" .SURFACE RIGHTS ONLY.__——————,._. B

" .MINING RIGHTS ONLY...____———————_. y

LICENCE OF OCCUPATION ..__.____—..————— T

ORDER IN-COUNCIL ..........—...————————,- OC

RESERVATION ___......___.........,._........-... ©

CANCELLED ___...——___..-————.,.—.——— ®

SAND 81 GRAVEL .........._............—.———-LAND USE PERMITS FOR COMMERCIAL TOURISM. OUTPOST CAMPS

NOTE: MINING RIGHTS IN PARCELS PATENTED PRIOR TO MAY 6.1913. VESTED IN ORIGINAL PATENTEE BY THE PUBLICLANDS ACT. R.S.O. 1970, CHAP. 380. SEC. 63. SUBSEC 1.

SCALE: 1 INCH = 40 CHAINS

FEETO l OOO 2OOO 4OOO 6OOO 8OOO

O 200 METRES

100* nunder Bay 2000 (i Mating Division (2 K M )

TOWNSHIP

MN.R ADMINISTRATIVE DISTRICT

THUNDER BAYMINING DIVISION

THUNDER BAYLAND TITLES/ REGISTRY DIVISION

THUNDER .BAYMinistryof LandNatural Management

Resources Branch

Oi'.mMARCH 1982

In Service Sep. 30/96

Numbtr

G-664

'I2IOJ3Ii i SrT™OJ - 794^ 'l

l l

*7L ^--^ '829809. 863408!-. . ?T- -.-l.——— l— ——1^

. l l l l rf? T^^c^1794469 ,7944S8 829588 1829810 I8S34O7 l ^F- ?®^10 [eg^l

x,'-~-, — — — •^^~H

" l ^ l [1202238; 829823 829826 1829823(8292(9 , 8I4O24 Be9eeo ''--—— — —-. — -'- — —l- ——-i.— —-.-—'

Ij7*6332 1814023 814023 Jeegeei

*N———l

\ S * -l -4 Jr1 --J3 ' —— Vi S ! i

"l

8I4O26 I8I4O28 l

1212773R 394 ————— -

ir — , ' VL/ 8292301829229 ^________. •l -'i '

82980, .829804 ] aeg^e298O8--^——— i————l—————? 12156GB

\i ^ ll sRo ! sRo !ag98Qg ; 829803 ^-^

f '

829813 J 829824(889817

1215869;rn^ ^--^vL/'V i ^^

V/h ' *A "—————————

y\ 1 ^'^:' 1208301L^^ — '^ ^gL-

X^^ I f^ ~""~"~~S.RC ~"~

S^3Q/*5-3 /- V V

{1210459 T\J4-i i

, 12160771

-S——A

O'CONNOR TWP

® '7! ^1078549

G-678

REFERENCES

AREAS WITHDRAWN FROM DISPOSITION

MRO MINING RIGHTS ONLY

S H.O SURFACE RiGHTSONLY

M * S MINING AND SURFACE RIGHTS

Description Order No Date Disposition Fil*

Thunder Bay Mining Division

jl)N 2 B 1997RECEIVED

NOTICE:The Information that appears on this map has been compiled from various sources and accuracy Is not guaranteed. Those wishing to stake MINING CLAIMS should consult with the MINING RECORDER. Ministry of Northern Development and Mines, for additional information on the status of the lands shown hereon.

LEGENDHIGH'AAv A N( [, R, j, (if M,,

OTHEH Hi;.A[)S

TRAILS

SURVEY tp LINESTOWNSHIPS HAst i 'fas t f i. lOTS MlN'.fjo -"i "Ai^ ^AP.ttriS

' JNSUR - t r 1 1- L iNr -,

LO T i iNtS PARCt l B()UN[iAR

MINING CL AIMS E 1C RAILWAY AND RIGHI OK AA -UTILITY L iNES

NON PERENNIAL STRtAM

F LOGGING OR F l OOOiNG H IGHTS

SUBDIVISION ORCCJMPOblTE PLAN

RfcStRVATHjNS

ORIGINAL SHORELINE

MARSH OR MUSK 1 1,

MINES

TRAVERSE MONUMENT

h i r

DISPOSITION OF CROWN LANDS

TYRE OF DOCUMENT SYMBOL

PATENT SURf- AC.E g, MINiN( ; HK,H TS

siiHFACE RIGHTS ONL >MINING RIGHTS ONLV w

LEASE SURFACE 81 IV1INING RIGH T S B

SURFACE RIGHTS ONL r H

MINING RIGHTS ON L r C

LICENCE'.)' OC(.v.'PA T li IN T

ORDER iN cAJiJNC li OC

RESERVATION '*

CANCEL L! "

SAND S G H AV 1 1 ' LAND USE PERMITS FOR COMMERCIAL TOURISM. OUTPOST CAMPS

NOTE It/I l N l N i i R ir'i H r S "- p A t' l t l.S " A T t N ' E : l P H - P ' V a .

'913 v e s i E n - N " ' N A i. " * T E N i e f e * ™ t ^ ' B .LANDS A( T R s "J 'O i ~ " A B 38O S fC 63 S- 8StL

V

SCALt l INCH 40CHAINS

-tOOO

• oooi " M

TOWNSHIP

CONMM.N R ADMINISTRATIVE DISTRICT

THUNDER BAYMINING DIVISION

THUNDER BAYLAND TITLES/ REGISTRY DIVISION

* THUNDER BAYMinistry ofNaturalResources

Ontario

Ministry ofNorthern Developmentand Mines

Out , 13861 -Mumbtr

In Service Jun. 26/96 G-647

52A12SE0007 2.17459 HORNE 210

3600E 3800E 4000E 4200E 4400E 4600E 4800E 5000E 5200E 5400E 5600E 5800E 6000E 6200E 6400E 6600E 6800E 7000E

2; ooCO + 4- 4- 4- 4- 4- 4- 4- 4- 4- 4- 4- 4- 4- 4- 4-

2; o o(O CM

4- 4- 4- 4- 4- 4- 4- 4- 4- 4- 4- 4- 4-

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ro00o o

roO5 Oo Z

ro•^ o o

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COo o25

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o o

roo o 2!

o o o 25

o oo o o

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100Scale 1:5000

O 100 200 300

(metres)

PLATE la

AVALON VENTURES LTD.GLENWATER PROPERTY, HORNE TWP.

THUNDER BAY AREA, ONTARIONTS: 52A/12

RESISTIVITY (n^2) CONTOUR MAPContour Levels in Logarithmic Multilpes of:

l, 1.5, 2, 3, 5, 7.5 Ohm.m


•v!^.CnCD

52A12SE0007 2.17459 HORNE 220

zo oCO CM

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o o00

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3600E 3800E 4000E 4200E 4400E 4600E 4800E 5000E 5200E 5400E 5600E 5800E 6000E 6200E 6400E 6600E 6800E 7000ET

4-

+

+ 4- H- + + + + +

4- 4- 4- 4- 4- 4- 4- 4- 4-

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100Scale 1:5000

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m O m•^fT\O

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10

PLATE Ib

AVALON VENTURES LTD.GLENWATER PROPERTY, HORNE TWP.


CiCD

CHARGEABILITY (M7, 11=2) CONTOUR MAP Contour Levels: 2, 10 mV/V


52A12SE0007 2.17459 HORNE 230

6200E 6400E 6600E 6800E 7000E 7200E 7400E 7600E 7800E 8000E

Z o

CO O

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+

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+

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oH*o o

o o •o oz

CD CO

COCD

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100

-N-

Scale 1:5000100 200 300 400

(metres)

6200E 6400E 6600E 6800E 7000E 7200E 7400E 7600E 7800E 8000E PLATE 2a

52A12SE0007 2.17459 HORNE 240

AVALON VENTURES LTD.HORNE TOWNSHIP PROPERTY


RESISTIVITY (11=2) CONTOUR MAPContour Levels in Logarithmic Multiples of:

l, 1.5, 2, 3, 5, 7.5

JVX LTD. (Ref. 9680, Feb. 1997)

6200E 6400E 6600E 6800E 7000E 7200E 7400E 7600E 7800E 8000E

o a o

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Z o

Z oG. O O

Z Oo05 CD

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+

+

6200E 6400E

+ + + + +

+

6600E 6800E 7000E 7200E 7400E 7600E 7800E

o4^ OO

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o ro"

oH—

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CD ?D O O

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8000E

100Scale 1:5000100 200 300 400

(metres)

PLATE 2b

52A12SE0007 2.17459 HORNE 250

AVALON VENTURES LTD.HORNE TOWNSHIP PROPERTY


CHARGEABILITY (M7, n^2) CONTOUR MAP Contour Levels: l, 5 mV/V

9680, Feb. 1997)

8400E 8600E 8BOOE 9000E 9200E 9400E 9600E 9800E 10000E 10200E 10400E 10600E 10800E

o o. w

Z o

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+ 4-

4- 4- +

+ + +

+ 4-

- -105175 : 1970S : 37977- 33030

- -68570- -62600-•5654

40 4-35622

- -57527 : 45162 ; 12932- -52957

4- +

4-

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+ 4- 4- i

+ + +

+

4-

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100Scale 1:5000100 200 300 400

(metres)

COo o o

8400E 8600E 8800E 9000E 9200E 9400E 9600E 9800E 10000E 10200E 10400E 10600E 10800EPLATE 3a

52A12SE0007 2.17459 HORNE 260

AVALON VENTURES LTD.BATEMAN LAKE PROPERTY, Ontario

Conmee ft Horne Twp., NTS: 52A/12RESISTIVITY ^2) CONTOUR MAP

Contour Levels in Logarithmic Multiples of: l, 1.5, 2, 3, 5, 7.5 Ohm.m


8400E 8600E 8800E 9000E 9200E 9400E 9600E 9800E 10000E 10200E 10400E 10600E 10800E

Z oQ. W

oQ.O

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. COO

o o.•* o

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05

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4-

+

+

4-

4-

4-

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4- 4- 4-

-i- +

+

+

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+ + +

4-

+

ro oo

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100Scale 1:5000100 200 300 400

(metres)

COo o o

8400E 8600E 8800E 9000E 9200E 9400E 9600E 9800E 10000E 10200E 10400E 10600E 10800EPLATE 3b

52A12SE0007 2.17459 HORNE 270


Conmee b Horne Twp., NTS: 52A/12CHARGEABILITY (M7, 11=2) C ONTOUR MAP

Contour Levels: 5, 25 mV/V


H tOOKx

IOOOK I'JOOK l JOOK KiOOK IMOOK 3000 K .") IOOK ."HOOK f)MOOK ti'JOOK r, i oo r: (i(i(H)K (1HOOK •OOOK 7'JOOK

x

x.

x

x

x

x.

x.

x.

x.

x.oo .

X,

:U()OK

rrrr—— IF - i

x LEGEND

x

Very Strong

Strong

Medium

Weak lM-IPlmV/V) 517 , L j

Time Constant (Long.Medium of Short) —' |

Very Weak :

Extremely Weak "

CHARGEABILITYANOMALY

X

x

x

x

x

x

XCO ODOo m

:U)0()K MflOOK JOOOE

0o

I^OOK HOOK HiOOK JHOOE 5000K ;VIOOK f)ROOK oHOOK MJOOK (i'JOOK (iJOOK tUJOOK OHOOE 000K 9 7'^OOK

m 0 m

t*

WH(2) - Weak High Resistivity, n-2 H(1) - High Resistivity, n-1 VH(2) - Vary High RettatMty. r\*2

Strong Resistivity Low

Medium Resistivity Low

Weak Resistivity Low

Very Weak Resistivity Low

RESISTIVITY ANOMALY

IP - Chargeability Zone

Conductive Overburden

Resistivity Low Zone

o Exploration Target

(H) - High Priority

(M) - Medium Priority

(L) - Low Priority

Scall 00 1 00 :?00

(metres)

52A1 2SE0007 2. 1 7459 HORNE 280

PLATE CM -1AVALON VENTURES LTD.

GLENWATER PROPERTY, HORNE TWP. THUNDER BAY AREA, ONTARIO

. N18L52A/]^ . ^ .COMPILATION MAP

JVX LTD. (Ref.9680, Feb 1997)

x

x

x

•s

lilOOK ('.HOOF: 7000K 'JOOK *, (iOOK

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en -oo om

o o oo

w

r- otS

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LEGEND:

7'j OOF:

"Tp 7T -to OF:

Chargeability Zone

Resistivity Low Zone

7 o o o F:

-,MOOK

COo om

VH(I)

."•3|jTI87 ' S LJ

c jf - 4 ^—c— -—^••Sts

-JCOo o

7BOOK

Q Exploration Target

fW\ - High Priority v**/

(]VI) " Medium Priority

(L) ~ L0* Priority

s

s

X

MOOOK

Suong

M*dtum

W**k l

M-IPImV/V) 617 . L jTim* Constant (Long.M*cNum or Short) —' |

\'jry WMk

Extremely Weak

CHARGEABILITY ANOMALY

100

WH(2) - W*ak High RmtoUvfty. n-2 H(1) - High RmtolMty, n-1 VH(2) - Very High R**tot!v*y, n-2

j Strong RmMMty Low

M*dlum R*sl*tN-*y Low

Very Weak R*sMlvlty Low

RESISTIVITY ANOMALY

•fFV4*

ScaK- 1:5000101) ^00 MOO

(metres;

400

52A12SE0007 2. 17459 HORNE 290

PLATE CM-2AVALON VENTURES LTD.

HORNE TOWNSHIP PROPERTYTHUNDER BAY AREA, ONTARIO

NTS: 52A/12COMPILATION MAP

JVX LTD. (Ref. 9680, Feb. 1997)

M UKIKx

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x

x

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x

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x

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DOOOK 'KJOOK !t U:)OK '•HOOF

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x

x

x

LEGEND

Very Strong

Strong

Medium

Weak lM-IPfmV/V) 517 . L j

Tlmt Constant (Long.Medlum or Short) —' |

Very Weak J

Extremely Weak

CHARGEABILITY ANOMALY

WH(2) - Weak High Resistivity, n-2 H(1) - High Resistivity, 0=1 VH(2) - Very High Resistivity, n-2

l Strong Resistivity Low

Medium Resistivity Low

Weak Resistivity Low

Very Weak Resistivity Low

RESISTIVITY ANOMALY

IP-1 Chargeability Zone

S S /" Resistivity Low Zone

D Exploration Target

(H) - High Priority

(M) - Medium Priority

(L) - Low Priority

52A12SE0007 2.17459 HORNE 300

.000nix

xP

PLATE CM-3


Conmee k H orne Twp., NTS: 52A/12COMPILATION MAP

JVX LTD. (Re f. 9680, 199?

SPECTRAL -IP AND RESISTIVITY SURVEY - Ontario

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Transcript of SPECTRAL -IP AND RESISTIVITY SURVEY - Ontario