noranda exploration company, limited big duck …...tb 668167 tb 684940. appendix ii system...
TRANSCRIPT
Ill 11II ••H l l •••••l* "l ** •••••"••* w- - --- — - —— — —
420MNETO69 8,6865 LOWER AGUASABON LAKE 010
NORANDA EXPLORATION COMPANY, LIMITED(no personal liability)
BIG DUCK LAKE AIRBORNE (6118)REPORT OF WORK
GEOPHYSICAL SURVEYWILSHIRE OPTION
Thunder Bay, Ontario November, 1983
D. R. CARRIEREDIVISION GEOPHYSICIST
NORTHWESTERN ONTARIO DIVISION
.•i .1.1.1111 niiivii ii ii HIM i H i HUH m i in i mil in42DMNE0W89 2 .6*65 LOWER AQUASABON LAKE 010C
TABLE OF CONTENTS
page l.O INTRODUCTION. .....................................J2.0 SURVEY OPERATIONS............ .....................J3.0 DATA COMPILATION................,.............,...!4.O SURVEY INSTRUMENTION. .............................25.O GEOLOGY. ..........................................26.0 DISCUSSION OF RESULTS AND CONCLUSIONS............^
6.l WILSHIRE OPTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
LIST OF FIGURES
FIGURE l Property Location Map 1:250000 FIGURE 2 Wilshire Option Location Map l" to 1/2 mile
LIST OF MAPS
C-2 of 2 Wilshire Option-EM 1:25000 C- 2 of 2 Wilshire Option-Mag 1 :25000
LIST OF APPENDICES
APPENDIX J ..................... LIST OF CLAIM NUMBERSAPPENDIX 2 ..................... SYSTEM SPECIFICATIONS
.O INTRODUCTION
During the months of March and April 1983 airborne Electromagnetic (Input) and magnetometer surveys were carried out by Questor Surveys Limited of 6380 Viscount Rd. , Mississauga, Ontario. The Wilshire option property is shown on Figure l while the property location map is on Figure 2. The detailed information for the claim groups is listed below.
CLAIM GROUP NO OF CLAIMS
WILSHIRE OPTION 25
CLAIM NO (see APPENDIX I)
TB639277 et al
CLAIM MAPS
G.599 G.606 G.631
LINE MILES
10.00
2.0 SURVEY OPERATIONS
The survey area lies within the N.T.S. map 42D/14 as shown in Figure 1. The flight line spacing over Block C was 250m. A total of 3001.1 line km were flown during the survey using the Questor/Barringer Mk IV Input system mounted in a Britten Norman Trislander.
3.0 DATA COMPILATION
The flight path of the aircraft was recorded continuously by a strip camera on black and white 35 mm film. The camera is fired by the fiducial time system of the data acquisition system every three seconds. Fiducial numbers are recorded digitally at the same instant.
The flight line headings are opposite on adjacent lines* which are normally flown sequentially in an "S" pattern. The navigation references are flight strips at a scale of 1:25000 which are made from the base maps. The equipment operator logs the flight details, which are compared to the analogue records and the magnetic base station recording at the completion of the survey flight.
The film and all records are developed, edited and checked at the completion of each flight. Recovery of the flight track is carried out by comparing the film to the topographic features of the base map. Points are picked at an average interval of l km. These procedures are performed daily so that the data quality and progress may be measured objectively.
The anologue records are inspected for coherence and anomalies are selected for classification and plotting. Selected anomalies are positioned by plotting their fiducial position. These resultant positions are located by interpolating between
fiducial points established by the flight path recovery.
4.0 SURVEY INSTRUMENTION
The survey was flown with the Questor/Barringer Mk VI Input system with a Sonotek P,M.H, 5010 Proton Magnetometer. The complete specifications are appended (appendix II).
5.0 GEOLOGY
The s urvey a rea is underlain by a sequence of mafic to felsic volcanics which strike ENE. The dip is variable but generally steep.
6.0 DISCUSSION OF RESULTS AND CONCLUSIONS
6.1 WILSHIRE OPTION
The results of the EM survey indicate that two horizons of wide responses are located to the southwest of Maude Lake, The width of the responses is interpreted to arise from two closely parallel conductors. The conductance is calculated to be 6S and there is a slight (20nts) magnetic association.
The magnetics on the property vary from 59520 to 60000nts. The N/S trending low on the eastern boundary is interpreted as a fault. The isolated highs in the northwest corner and the west central area may be related to mafic intrusives.
Respectfully submitted
NORANDA EXPLORATION COMPANY, LIMITED (no personal liability)
Thunder Bay, Ontario November 21/1983
D, R. Carriere Division Geophysicist Northwestern Ontario
•^
\ZKA ^!V-*(M^^'iX^'titisdffisffiffi.
ISLANDS
APPENDIX I
LIST OF CLAIMS
Priske Twp., Lower Aguasabon Area, Pays Plat Area
25 claims held by Wilshire Energy Resources Inc.
TB 639277
TB 639278
TB 639279
TB 639280
TB 639281
TB 639282
TB 639283
TB 639284
TB 639285
TB 639286
TB 639287
TB 639288
TB 639289
TB 639290
TB 639291-
TB 639292
TB 639293
TB 639294
TB 639295
TB 668162
TB 668163 -
TB 668165
TB 668166
TB 668167
TB 684940
APPENDIX II
SYSTEM SPECIFICATIONS
A-1
AP-P-ENDIX A
BARRINGER/OUESTOR MARK VI INPUT System
The INduced Pulse Transient (INPUT) method is a system
whereby measurements are made, in the time domain, of a secondary
electromagnetic field while the primary field is between pulses.
Currents are induced into the ground by means of a pulsed primary
electromagnetic field which is generated from a transmitting loop
around the aircraft. By using half-sine wave current pulses
(Figure A-l) and a transmitter loop of large turns-area, a high
signal-to-noise ratio and the high output power needed for deep
penetration, are achieved.
Induced current in a conductor produces a secondary
electromagnetic field which is detected and measured after the
termination of each primary pulse. Detection of the secondary
field is accomplished by means of a receiving coil, wound on a
ferrite rod, mounted in a fibreglass shell called a "bird" and
towed behind and below the aircraft on 120 metres (400 feet) of
coaxial cable. The received signal is processed and recorded by
equipment within the aircraft.
The axis of the receiving coil is horizontal and parallel to
the flight direction. This optimizes the discrimination between
flat lying surficial conductors and bedrock conductors. The
secondary field is in the form of a decaying voltage transient,
A-2
measured in time, at the termination of the primary transmitted
pulse. The amplitude of the transient is proportional to the
amount of current induced into the conductor, the conductor
dimensions/ conductivity and the depth beneath the aircraft.
The rate of decay of the transient is inversely proportional
to conductance. By sampling the decay curve at six different time
intervals and recording the amplitude of each sample, an estimate
of the relative conductance can be obtained. Transients due to
strong conductors such as sulphides and graphite, usually exhibit
long decay curves and are therefore commonly recorded on all six
channels. Sheet-like surface conductive materials, on the other
hand, have short decay curves and will normally only show a
response in the first two or three channels.
For homogeneous conditions, the transient decay will be
exponential and the time constant of decay is equal to the time
difference at two successive sampling points divided by the log
ratio of the amplitudes at this point.
RECEIVER SPECIFICATIONS
Sample Gate Windows (centre positions)
CH l CH 2 CH 3 CH 4 CH 5 CH 6
336 roicrosec520796 1164 1624 2176
Sample Intervals
Integration Time Constant
Bird Position behind Aircraft (110 kt)
Bird Position below Aircraft (110 k)
Width
184 microsec184368368552552
0.5 sec
1.1 sec
93 meters
69 metres
Receiver Features: Hydro Monitor 50 OR 60 HZ
50 or 60 Hz and Harmonic Filter
VLF Rejection
Spheric Rejection (tweak) Filter
SAMPLING OF INPUT SIGNAL
H t te
TRANSMITTER SPECIFICATIONS
Pulse Repetition Rate
Pulse Shape
Pulse Width
Off Time
298.5 per sec
half sine
1.0 millisec
2.35 millisec
Output Voltage
Output Current
Output Current Average
Coil Area
Coil Turns
Electromagnetic Field Strength (peak)
70 volts
400 amperes
50 amperes
200 m. 2 (2,150 ft. 2 )
300,000 amp-turn-meter ,
INPUT SIGNAL
TRANSMITTED PRIMARY F IELD
J.38 minute.
Figure Al
A-5
SQNQTEK. P.M.H. 5010 PROTON MAGNETOMETER
The airborne magnetometer is a proton free precession
sensor, which operates on the principle of nuclear magnetic
resonance to produce a measurement of the total magnetic
intensitity. It has a sensitivity of l gamma and an operating
range of 20,000 gammas to 100,000 gammas. The sensor is a solenoid
type, oriented to optimize results in a low ambient magnetic field.
The sensor housing is mounted on the tip of the nose boom
supporting the INPUT transmitter cable loop. A 3-term compensating
coil and perma-alloy strips are adjusted to counteract the effects
of permanent and induced magnetic fields in the aircraft.
Because of the high intensity electromagnetic field produced
by the INPUT transmitter, the magnetometer and INPUT results are
sampled on a time-share basis. The magnetometer head is energized
while the transmitter is on, but a measurement is only obtained
during a short period when the transmitter is off. Using this
technique, the sensor head is energized for 0.80 seconds and
subsequently the precession frequency is recorded and converted to
gammas during the following 0.20 seconds when no current pulses are
induced into the transmitter coil.
Ministry ofNaturalP^scurces
Ontario
Report of Work. (Geophysical, Geological, Geochemical and Expenditures)
; 639371 The Minin 4aDMNEe869 Z.6665 LOWER AGUASABON LAKE 900Type of Survey(s) f
Airborne Electromagnetic 61 MagneticClaim Holder(c)Noranda Exploration Company, Limited
rownthip or Area SPriske Lower Aauasabon((?-*F Pays Plat t*Ha#tjn* -
Prospector* Licence No.
AddressP. O. Box 2656, Thunder Bay, Ontario P7B 5G2
A34387
Survey Company
Questor Survey LimitedDate of Survey (from ft to)15 ,03 831 17 04 83Pay l Mo. j Vr. j Pay | Mo. | Yr.
Name and Address of Author (of Geo-Technical report)D. R. Carriere, P. 0. Box 2656, Thunder Bay, Ontario P7B 5G2
Total Miles of line Cut
Credits Requested per Each Claim in Columns at rightSpecial Provisions
For first survey:
Enter 40 days. (This includes line cutting)
For each additional survey: using the same grid:
Enter 20 days (for each)
Man Days
Complete reverse side and enter total (s) here
Airborne Credits
Note: Special provisions credits do not apply to Airborne Surveys.
Geophysical
- Electromagnetic
- Magnetometer
- Radiometric
- Other
Geological
Geochemical
Geophysical
- Electromagnetic
- Magnetometer
- Radiometric
- Other
Geological
Geochemical
Electromagnetic
Magnetometer
Radiometric
Days per Claim
Days per Claim
———
Days per Claim
16
16
Mining Claims Traversed (List in numerical sequence)
Expenditures (excludes power stripping)Type of Work Performed
Performed on Claim(s)
Calculation of Expenditure Days Credits
Total ExpendituresTotal
Days Credits
InstructionsTotal Days Credits may be apportioned at the claim holder's choice. Enter number of days credits per claim selected in columns at right.
Date
2'ate , l
zi7/f /r;Certification Verifying Report of Work
Total number of mining claims covered by this report Of work.
Total Days Cr. Date Recorded Recorded
l hereby certify that l have a personal and intimate knowledge of the facts set forth in the Report of Work annexed hereto, having performed the work or witnessed same during and/or after its completion and the annexed report is true.
Name and Postal Address of Person CertifyingDon R. Carriere
P.O. Box 2656, THUNDER BAY, Ontario P7B 5G2
Date Certified.
1362 (81/9)
Ontario
Ministry of Natural Resources
GEOPHYSICAL - GEOLOGICAL - GEOCHEMICAL TECHNICAL DATA STATEMENT
File.
TO BE ATTACHED AS AN APPENDIX TO TECHNICAL REPORTFACTS SHOWN HERE NEED NOT BE REPEATED IN REPORT
TECHNICAL REPORT MUST CONTAIN INTERPRETATION, CONCLUSIONS ETC.
Type of Survey(s) Airborne Electromagnetic
Township or AreaMagnetic
Priske. Lower Aguasabon. Pays PlatClaim HnlHer(s) Noranda Exploration Company. Ltd.
P. O. Box 2656, Thunder Bay) Ont.
QuestQE Surveys LimitedP7B 5G2
D. R. CarriereAuthor of Report.Address of Author P. 0. Box 2656. Thunder Bay. Ont.Covering Dates of Survey Mar
Total Miles of Line Cut
15/83-Ar. G(linecutting to office)
SPECIAL PROVISIONS CREDITS REQUESTED
ENTER 40 days (includes line cutting) for first survey.ENTER 20 days for each additional survey using same grid.
Geophysical—Electromagnetic.—Magnetometer.^.—Radiometric———Other——————
DAYSper claim
Geological.Geochemical.
AIRBORNE CREDITS (Special provision credit! do not apply to airborne lurveyi)
Magnetometer LfL
DATE:^2,
.Electromagnetic ——16 Radiometric (enter days per claim)
SIGNATURE:.Author of Report" or
Res. Geol.. .QualificationsPrevious Surveys
File No. Type Date Claim Holder
MINING CLAIMS TRAVERSEDList numerically
See attached list.•••••••••••it****t****tt**4i***titt****i**tttM*******at*tt*
(prefix) (number)
I
JZ&v—...™^
TOTAL CLAIMS.
837 (5/79)
GEOPHYSICAL TECHNICAL DATA
GROUND SURVEYS - If more than one survey, specify data for each type of survey
Number of Stations ————————————————————————.Number of Readings - Station interval __________________________Line spacing ~^^—^. Profile scale———————————————————————————————— .Contour interval.
Instrument —
O
Accuracy — Scale constant. Diurnal correction method.Base Station check-in interval (hours). Base Station location and value ———
O Instrument
.ECTROMAGNETKCoil configuration .Coil separation .Accuracy.Method: Freouencv
D Fixed transmitter CD Shoot back D In line Q Parallel line
(ipecify V.L.F. nation)
Parameters measured ————————————————
Instrument.Scale constant.Corrections made.
Base station value and location.
Elevation accuracy.
Instrument ————Method D Time Domain D Frequency Domain Parameters - On time ————————————————————————— Frequency ————
-Off time_________________________ Range.— Delay time ————————————————————————
Integration time,
Power.Electrode array.
C Z Electrode spacing
Type of electrode
SELF POTENTIAL
Instrument.—————————————————————-.,v...—————————————— Range.Survey Method ——————————————————————————————————————',————
Corrections made.
RADIOMETRIC
Instrument——-Values measured.Energy windows (levels)————.————.^^———-———.-—.——-^^——-———.-^———.— Height of instrument_________________________Background Count . Size of detector-—^—..—.—————-—-———-——.—^...-.——^—.....-—^—..^
Overburden _____________________________________________(type, depth - include outcrop map)
OTHERS (SEISMIC, DRILL WELL LOGGING ETC.)
Type of survey———————————————————————Instrument —————————————————————Accuracy——.—————-——..—————.^-———*———Parameters measured.
Additional information (for understanding results).
AIRBORNE SURVEYSType of giirvpy(s) E lectromaenet ic?^fsJpBBMF . ' /Magnetic^—^—^—^———^^^^^—.Instrument(s) Barr inger/Questor mrk VI Input /Sonot.ek P.M.H. 50JO Prnr-nn Mag,
(specify for each type of survey) Arrnrary 2 5 PPq.fi-i'.ftffi^______________________/l ntS_______________________________
(specify for each type of survey) Aircraft ngpH Britten Norman Trlslander___________________________________—
Sensor *\t\\\\Af, 6 0 meters_____________________/120 m e ter R
Navigation and flight path recovery method
Aircraft altitude 120 meters__________________Line Sparing 2 50 me ter s Miles flown over total arpa 3001.1 kilometers______Over claims nnly 25 m i l a c
TB 639277
TB 639278
TB 639279
TB 639280
TB 639281
TB 639282
TB 639283
TB 639284
TB 639285
TB 639286
TB 639287
TB 639288
TB 639289
TB 639290
TB 639291-
TB 639292
TB 639293
TB 639294
TB 639295
TB 668162
TB 668163 -
TB 668165
TB 668166
TB 668167
TB 684940
GEOCHEMICAL SURVEY - PROCEDURE RECORD
Numbers of claims from which samples taken.
Total Number of Samples. Type of Sample.
(Nature of Material)Average Sample Weight——————— Method of Collection————————
Soil Horizon Sampled. Horizon Development. Sample Depth———— Terrain————————
Drainage Development—:————————— Estimated Range of Overburden Thickness.
Mesh size of fraction used for analysis.
ANALYTICAL METHODSValues expressed in: per cent O
p. p. m. Op. p. b. O
Cu, Pb, Zn, Ni, Co, Ag, Mo, As,-(circle)
Others ___________________;,^——Field Analysis (.
Extraction Method. Analytical Method- Reagents Used——
Field Laboratory Analysis No.(^——^—————
SAMPLE PREPARATION(Includes drying, screening, emitting, aiding)
Extraction Method. Analytical Method. Reagents Used__
Commercial Laboratory (. Name of Laboratory— Extraction Method—— Analytical Method__ Reagents Used————
.tests)
.tests)
.tests)
General. General.
Ministryof GeotechnicalReSces ^port
Ontario A. Approval
FIT*
Mining Lands Comments
To: Geophysics
Comments
Approved | ] Wish to see again with correctionsDate Signatu
To: Geology - Expenditures
Comments
fi Approved l Wish to see again with correctionsSignature
To: Geochemistry
Comments
[~| Approved f l W ish to see agai n with correctionsDate Signature
l [To: Mining Lands Section, Room 6462, Whitney Block. (Tel: 5-1380)
1983 11 30 2.6065
Mrs. Audrey HayesMining RecorderMinistry of Natural ResourcesP.O. Box 5000Thunder Bay, OntarioP7C 566
Dear Madam:
We have received reports and maps for an Airborne Geophysical (Electromagnetic and Magnetometer) survey submitted on mining claims TB 639277 to 95 Inclusive and TB 668162-63-65 to 67 Inclusive and TB 684940 1n the Areas of Lower Aquasabon and Pays Plat and Priske Township.
This material will be examined and assessed and a statement of assessment work credits will be Issued.
We do not have a copy of the report of work which 1s normally filed with you prior to the submission of this technical data. Please forward a copy as soon as possible.
Yours very truly,
E.F. AndersonDirectorLand Management Branch
Whitney Block, Room 6643 Queen's Park Toronto, Ontario M7A 1W3 Phone:(416)965-1380
A. Barr:me
cc: Noranda Exploration Company, Limited P.O. Box 2656 Thunder Bay, Ontario P7B 5G2 Attention: D.R. Carr1ere
cc: Noranda Exploration Company, Limited Suite 400 55 Yonge Street Toronto, Ontario M5E 1J4
Noranda Exploration Company, Limited(no personal liability)
P.O. Box 2656 Thunder Bay, Ontario P7B 602
noranda Telephone (807) 623-4339 Telex 073-4650
November 25, 1983
i
Lands Administration BranchOntario Ministry of Natural ResourcesRoom 6450, Whitney BlockQueen's ParkToronto, OntarioM7A ]W3
A11 e^n t i^ oi n j^_MIT^ Ej^ F. Anderson
Dear Mr. Anderson:
Please find enclosed Geophysical Survey Report, Technical Data Statement for the Wilshire Option in duplicate, as well as the Report of Work.
Yours truly,
D. R. Carriere Division Geophysicist Northwestern Ontario Division
DRC: j s
c . c . File 6118
Enclosures
. ''fk
Ministry ofNaturalResources
Report of Work. (Geophysical, Geological, Geochemical and Expenditures)
The Mining Act
Instruction!: — Please type or print,— If number, of mining claims traversed
exceeds space on this form, attach a list.Note: — Only days credits calculated in the
"Expenditures" section may be enteredin the "Expend. Days Cr." columns.
— Do not use shaded areas below.Tyoe of Survey(s)
Airborne Electromagnetic & MagneticClaim Holder(s)Noranda Exploration Company, LimitedAddressP. 0. Box 2656, Thunder Bay, Ontario P7BSurvey Company
Questor Survey Limited
Township or AreaPriske Lower Aauasabon Pays Plat
5G2Date of Survc15 . 03Day j Mo.
y (froi83Yr.
Name and Address of Author (of Geo-Technical report)D. R. Carriere, P. 0. Box 2656, Thunder Bay, Ontari
Prospector's Licence No.A34387
n 81 to)17, 04 83
Day | Mo. | Yr.
o P7B 5G2
Total Milet of line Cut
Credits Requested per Each Claim in Columns at rightSpecial Provisions
For first survey:Enter 40 days. (This includes line cutting)
For each additional survey: using the same grid:
Enter 20 days (for each)
Man Days
Complete reverse side and enter total (s) here
Airborne Credits
Note: Special provisions credits do not apply to Airborne Surveys.
Geophysical
- Electromagnetic
- Magnetometer
- Radiometric
- Other
Geological
Geochemical
Geophysical
- Electromagnetic
- Magnetometer
- Radiometric
- Other
Geological
Geochemical
Electromagnetic
Magnetometer
Radiometric
Days per Claim
Days per Claim
Days per Claim
16
16
Expenditures (excludes power stripping)Type of Work Performed
Performed on ClaimU)
Calculation of Expenditure Days Credits
Total ExpendituresTotal
Days Credits
15
InstructionsTotal Days Credits may be apportioned at the claim holder's choice. Enter number of days credits per claim selected In columns at right.
Date
'//'/t lCertification Verifying Report of Work
Mining Claims Traversed (List in numerical sequence)Mining Claim
Prefix
TB
- 'i. - - i- -;. -
V ' p f'i
- ' ' t' J^\ -,
Number
639277
639278
639279
639280
639281
639282
639283
639284
639285
639286
639287
639288
639289
639290
639291
639292
639293
639294
639295,
668162
668163
668165
668166
Expend. Days Cr.
'''t'
\
Mining ClaimPrefix
TB
vf- :'''';'^-5
V . ' i ! . * v 'yff *E • : ',- ^"-/rf"
•hi-1" . ' ;' '^ ;- j
j - V "'' 4- •'" t:, lii ,."/ . ,- v-"i,V'-
•**' 11 ' ' jTir 1 ^^
''fi! - 'j j-/ *^i
Number
668167
684940
^c/'̂'' - W ~s\
O ^ " v
vjy
'"^cv'**v'
Expend. Days Cr.
Total number of mining claims covered by this o c. report of work. * J
For Office Use OnlyTotal Days Cr! Recprded
Date Recorded
Date Approved as Recorded
Mining Recorder
Branch Director
l hereby certify that l have a personal and intimate knowledge of the facts set forth in the Report of Work annexed hereto, having performed the work or witnessed same during and/or after its completion and the annexed report is true.
Name and Postal Address of Person Certifying
Date Certified
1362 (81/9)
u-eo
ebV
A3 b
fVl
TVKE
ra o G
CO o i en
oo
oo
Mid
dle
Fox
Lake
^ j*
— L
i —
\~y
— —
L-J
L—-L
r -j
i ~ -^
i s
"
l*
i -r
i _ _
_—
— —
—
l—
' —
—
,r
tp3*
3 s'
t 3,
: *U
O—
-H
- ~
^rjC
^r^e
y.^
s H i
^
31 -
H
lU
iDO
1——
—
—
.——
—
——
—
—
—L
*. i re
IT
S i
O
^6
54
02
2*
65
10
23
|
^ --IfB
~"
4-
i I
B
r l
B
— L
j^^
l.0!!
'6̂—
2-^--!
S, en
zji
o
-i^
l
Ul
v1?
1^
CD|(
'~b*
"T
o
"
O •o CD Q
^~ fD O l O) o CO
Low
er
Agua
sabo
n La
ke
G-5
99
-n m w (O
OD
O l O
) o O)
o
(D
W
O 5 o CD
W
(D re 3 tt 3
> Z
O C/)
H
Z C *
C
Z 5
Z
D
5
Dm
3 m
30
e
DO•c
03 ^
DO
t*
o
v^
s m
s
az
30 >
O m oo
O)
"D r- m
O
o-
z
D
O2"
[T
O
f~
O
X ^ n
C
O x -C". c o I z 00
oo
o ^
c z nD -c
r* O
C. OZ
-t
z ^
;H x TJ :O
'O
13
—
j^
Z
CO •D
O
CO
<m
u-
—
^
Tr-
-^
J,
S
S
X>
,
-~
^ .~
r>
"- ..
Z
Z
v f* \
3
c i
O
3D O
m n m Z o
®-4
C J
B C
JOD o
C/)
m •n m 3) m z o m o
PA
YS
P
LA
T
LA
KE
G-6
06
D)
O
'" i
J - —
ir - - -
~di~~
, i
01
^1 e
n -|
i ff"
O)
W l
O
l m
(H
m
l O
lo
- I o
I-L
l---1
---K
l —
—
~
l OB
f
CO ,
01
!
0
L , f- - i
__
l-..-J-.
1__
4.I
U-4
- JT
J
U --
-
-
——
- - L
.
3 —
5- J -
s- 1
^
L - . J- -
l
m
'a*
, A
l U
i L
-rl
-Of—
feti
r - —
T
"D
"D m DO O c
> CO > DO
O m o i o
-J
" O
O o
SA
NT
OY
LA
KE
G-6
12OD O
) O
)
Tl m
CD
3 c > 2} CD
CD
ro
o l Ol
(O
(O
XI
Z 2
CD
CD ^
W p
EO
^
W3 "f
(D
C
W OD -i
tt
3
D
2 Q)QJ
3
Q
.
-i 5
HI
- I
CS
Cz
^ z
o i
om
-i
m33
H
30CD
^2
CD
H
5m
530
d
O m
CD
O m > O)
CD O
n z o x o o I
n
o n
o x
3J
om
33
w
O O O
O
f r
•O
J.
J-
w m
m
m f
"i5
m O
Z o 3! 5 x H
W
Z
O
33 cSo
nm
[-r
"
33
30O
^
5
2
O
D o x
!T3 !m O -n r, iC m
Z
CO •D
O
CO
3©(3
8-*c
nBC
CO CD O
O aa 00
i i rt-.
C/^
IT? x
yi 2 c s
C^
i~
-1C
C
O
5 S
il
o x
C
c c o
C/) cc
z n
T1
^*V
J,
c
T
C/l
>
-
li ir
O
m
O
O o " Sop
S
m
g
ss^
o z
wO
HO
z *
zo B
>
r
31
>
rn
wH
f11 o"
3 ;S
2^^
1*
1 ^E
U
l ^~
ra
3)w
2
g|s
A
rn01
o
w-n
[n m o
S
O5^ s r 5
^ o
P 2 r m
w
—
ow
z
— m
ol j*
mO
) U
)o
m<
x
n
<
m sm
m w m
m 31 < m
o
o
o o z
o o 5 s -r
s
en
inr-
o C
w o
O
Z
r c
m
fr—
tn
w
>w
ro
2 l
Z
m
en flp -I <
xm
-H
3)
W
S*
3) m 31 3) o c
2?
O m O)
m lX^ E
-C
i 01
m lg 3? \*
2C
XJ
O
3] C) I
itrt
!TJ
;O O 2
m rn m o m c/)
CO
PP
ER
IS
LA
ND
G-5
88
ro ro o
b o*
l 4rlV
--
- -1 ™
J^ -'--I
T..
L.
O*
l ft
, l
01™
" '
i O
oj-J
T
h S
'5
"
l"
l^J
lMl
1-4
.-__w
—H
-*^
J-t™
^ i
e r*
IT
-"
...
'
a ~
' ~
HI
^
l S
l ™
3
-* ^
"*
*
s""a
il" s|
fTsi
l" " si
I" "
sif "
sjs
Tsir 1
| sg*.
. i.
l ^-.
J-_
__
__
__
__
L.^
__
__
__
__
1-2
__
__
__
__
_[
-J,
^
l ^________
-Jp
T
Ti (
i T
" ' *
*""
l"5
"*
i"*'
i *™
! w
S
, t
l S
im
-J
|N
M
IN
, *
(D1"
; r.
'
-
-iw
'
(j
w
' ra
"l/
—
-s
sis
is
i
S i
o i *
"l
- J^—
— —
-4-—
-—^--
- —
o- —
— -H
— —
— —
-.--
——
*
l 01
T
fl,
lw
T
0)
J)
l O*
-
(B01
'S
i *
J
S .J
"
IS
NP
-.
™*
—j
l *w
^
rt
* ^
u
'
nn
. '
H!
O*
-l
5
l ^3
lO
C"
S
' O
*^
—^
•f^
ft
j rf
I -**
l—
— —
— ^
'—Ji-
.7
-^—
-J
— —
——
— —
— -
——
I-
L^
.-
^/^l
^l^M
i^^H
TV
P !
^ i s
i! s!"!
iis
w ™
^rH"
Jp"OT
—y~
v^s^f
c^™
™Fjf
^zn~
L~tfr
*~o."
—i~t
i"2ri—
~^~^
y^ *
"*
^^T
S^I^
S3
,-7
S
.I
S H'
l
SH
^V-J
^-S
-^N
S
dl
S H J^rr
1̂^
S HI
S &
H
3 5
Sm
l
W
T*'—
— —
—-'
la
l
"lls
il3!!-
:!^^
U)
'
——
—
i **f
.^^
^J
U
'
z
-
i J
3 l * O
a
-
l N
-''
^ -
•~r*"~
l" a
~rn
" If T
s~
f ir
i, ^r
^r-K
-, y.
.7,—C
---T- l
>J'
s^to
^r^
si"~
' r a
lgV
~* H
~~~d
r~r"o
i~"~
r2
""T~*
"(C"'r
.*01
' l
si 2
si 5
s s^
J)S
i-"7
25
l ?
" a^
S
*j3J
-jJi—
\0
J 'S
3'
H l
3^
l oi
T a
~*i
o *"
im~~
~"''
N i
w l
w ^
-it
w i
S i,
ii
i A
. .W
'W
00.
IB
Hi™
-l
t?
*
\ -4
j
W
~ "*
l
ov
1m
l Cb O'
^
ST
RE
Y
TW
P.
G-6
33
! O
z ar c*
i O
,
1 i
i i - 1 ^
jac
-
ro
(T- a
^
Pi O)
CO
•z. --
zD
O
m :
m
*W
^n
j
00 .
OD
H
m O m COO
S c
V) o m O X o
n x z 00
Z u
D
' z
o 3}
O
03
O^
m
re2
to
Q
O
_
m -
m
Sm
-4
-^
O
0 a
8 :
2 i
8:
' O
r- r
V)
m
y
w
-S
g 5
Z H to
O
^ n
m
mZ C
, L
'
n *-
i w
t
-o
Ti'5
5u
m m
* 7
Z
0^ m
™
S -i
O
c^
—
(fl
-* o
r Z -i
to
I -* (/!
S CD
O
o CO 3 o o 32
re
~
m
to fT!
S C -z. c
m COC
/l X C
X
X m IT, x C
vi
C
O
z OC
X
H
>
•*-
-p
~'
~m
^
7
C0
^ L.
f*
—
5 i
5
H
O I
C
O O
<
X
-* 5
rn?^^^
T
5 ^ -
K
—
-J-
^3
z ^ r
^ z-w
zC
O
cc
m
> x
~
mi c x o
Mim
m O
Q.
?
— en
(O WU
)O
l O
-i x O
x
O ~
c o
* 5
•*-
^
3 l
o
Z
O o T
H CO
CO •v o c/2 H O
m
m
m
ID
rn
z:
o
m CO
42D14NE0e69 2.6865
LOWER AGUASABON LAKE
ONTOURS
87- 35'
49- 05'
SCHREIBER 420
LONGLAC 42E
PA
YS
PL
A
48*
50
'S
ELI
S
cA
r*A
*r C
hmnn
ml
10OO
Sc
ale
1 25
0OO
?OO
O W
TOTA
L M
AG
NE
T
ICSi
.iP'v
f
NO
RA
ND
A E
XP
LO
RA
TIO
N C
OM
PA
NY
LIM
ITE
D
(no
pers
onal
lia
bilit
y)
BIG
DU
CK
LA
KE
Pro
vin
ce
of
ON
TA
RIO
FILE
NO
.
2501
0CSH
EET
NO
.
2 of
2
Que
stor
Sur
veys
Lim
ited
Mis
siss
auga
. O
ntar
io C
anad
a
42D14NE0069 2.6065
LOWER AGUASABON LAKE
INP
UT
PE
AK
R
ES
PO
NS
E S
YM
BO
LS
- 1m
s P
ULS
E
A'.
JP
OIP
PF
Ah
BE
DR
OC
K
DE
C A
4F S
PO
NS
F
^ES
PO
NS
F
RE
SP
ON
SE
C,
L A
S S
IF 1
C A
^ IO
N
i C
^a'in
e1
!79
6 "
mic
rose
cond
s)
4 f'la
nn
pi
('1
64
iu
rf o
seconds)
- C
ha
nn
el
('6
?-l
-IK
r-jse
r'."i
ds'
'aoc
INT
ER
PR
ET
AT
ION
fondue liv
e
^o
Rep
rese
ntat
ive
INP
UT
Mag
neto
met
er a
nd A
ltim
eter
Rec
ordi
ng
DE
SC
RIP
TIV
E N
OT
ES
870
35'
49a
05'
SC
HR
EIB
ER
42
D
LO
NG
LA
C
42E
PA
YS
PLA
480
50
' 87"
35
'
flOO
OFi
500
TOGO
Sc
ale
1: 25
000
2QO
OM
AIR
BO
RN
E
MK
VI
IN
PU
T S
UR
VE
Y
NO
RA
ND
A E
XP
LO
RA
TIO
N C
OM
PA
NY
LIM
ITE
D
(no
pers
onal
lia
bilit
y)
BIG
DU
CK
LA
KE
Pro
vin
ce
of
ON
TA
RIO
FILE
NO
.
2501
0CS
HE
ET
NO
.
2 of
2
Que
stor
Sur
veys
Lim
ited
Mts
siss
auga
, O
ntar
o C
anad
a