assessment report on the geophysical ......ttv horizontal shootback em transmitting receiving i c,...
TRANSCRIPT
TECK EXPLOR Baoaaswaass 2 .4586 NORWAY LAKE 010
NORTH BAY, ONTARIO
ASSESSMENT REPORT
ON THE
GEOPHYSICAL SURVEYS
ON
GROUP AT-2 NORWAY LAKE AREA
FOR
THE SULPHIDE SYNDICATE
by
K. Thorsen
RECEDEDMAR - 41982
AWNING LANDS SECTION
REPORT NO 790NB
1982-2-22
N.T.S. 52-G/3
..—••-x
NORWAY LAKE M-2385
KENORA DISTRICTRAINY RIVER DISTRICT
DATE STAKED 11981-1-16 DATE RECORDED11981-1-16 DATE TRANSF. i 1981-2-12 STAKER t JIM KING
AREA AT
CLAIM LOCATION MAPJOB 1167 FEB. 1981
Scale l" i 2640'
INTRODUCTION
Group AT-2 was staked In Norway Lake Area (M-2385) to
cover INPUT anomaly 10470B-10480JK. It consists of two claims
numbered as follows: TBS80554
TB580555
The claims are recorded in the name of Teck Explorations
Limited of Suite 7000, PO Box 170, l First Canadian Place,
Toronto, Ontario, M5X 1G9. Geophysical surveys were carried out
from June 8 to June 10, 1982 by Teck Explorations Limited
personnel under the supervision of K. Thorsen.
Access is via float or ski plane 50km northeast of
Atikokan to Solon Lake. The claim block is approximately 200m
south of the lake.
PREVIOUS HORK
No record of previous work was noted in a search of the
assessment files. The claims are underlain by Intermediate to
mafic volcanics cut by a diabase dyke.
GEOPHYSICAL SURVEYS
One VLF was run to attempt to locate the conductor.
Shootback was also run on this line. Two other shootback lines
were run 150m east of this initial line and a vertical loop survey
attempted to trace the conductor. Magnetic surveys were run on
three of the norh south lines.
A total of 2235m of line was cut. Lines were spaced at
-2-
various intervals and stations were established at 25m intervals.
RESULTS
The shootback survey on line O did not confirm the VLF
cross over. The two other shootback lines detected very weak
dubious anomalies that could not be traced with vertical loop.
The results of the mag survey were relatively flat.
RECOMMENDATIONS
Further geophysical surveys should be run in an attempt to
locate this relatively strong INPUT anomaly.
-3-
SUMMARY OF CREDITS
VLF
D. Owens North Bay, Ont. June 8 1/2 day x 7 s 3 .5 credits
K. Thorsen North Bay, Ont. Supervision 1/2 day x 7 - 3 .5 credits
SHOOTBACK
D. Owens North Bay, Ont. June 8 ft 9 l 1/2 days x 7 *10.5 credits
J. Gregg North Bay, Ont. June 8 6 9 l 1/2 days x 7 C10.5 credits
B. Hopkins North Bay, Ont. Drafting l day x 7 s 7 credits
VLEM
D. Owens North Bay, Ont. June 10
J. Gregg North Bay, Ont. June 10
l day x 7 e 7 credits
l day x 7 s 7 credits
MAGNETICS
J. Dignard North Bay, Ont. June 10
B. Hopkins North Bay, Ont. Drafting
l day x 7
l day x 7
7 credits
7 credits
TOTAL 63 credits
Credits per claim ~ 63 * 31.5 credits~~
H KT-11 Feb 22/82
'ON '6MO
INSTRUMENT i
OPERATOR
TK. STATION :
So Ion
Lake
HORIZONTAL SHOOTBACK 100m Cell Sip.
o,v HORIZONTAL SHOOTBACK 100m Call St f.
CLAIM GROUP AT-2
CRONE C E.M. UNIT
D.OWENS , J.GREGO
COIL SEPARATION "100 m
REOUENCr1830 Ht, S90HI. REVISED DATE
TECK EXPLORATIONS LIMITEDSURVEY i
ELECTROMAGNETIC SURVEYPROPERTY/AREA
ATIKOKANCLIENT :
SULPHIDE SYNDICATE
t i 2900imtrie
O.S.K.t""."' K.R.T. "T[ ' 1981-6-To"
~iS* ' I I67AT~
520/5NTS,,
DWG NO i I0170D-I0480JK
'ON '0*0
S o Ion Lake
CLAIM GROUP AT-2
INSTRUMENT i CRONE V.L.F./C.E.M UNIT
OPERATOR O.OWENS , J GREG6
tt. STATION SEATTUE .WASHINGTON
COIL SEPARATION
1630 Hi. 590 Hi.
REVISF.O DATE CHK
TECK EXPLORATIONS LIMITEDSURVEYi
ELECTROMAGNETIC SURVEYPROPERTY/AREA
ATIKOKANCLIENT
SCALE i
SULPHIDE SYNDICATEtO 100 IMIfM
11 1500 milrle
S.S.K.K.RT.
""c ' 1981-6-10 J0' ' 1187 ATvfrT~slo73~"B~NO~i
I0470B-I04BOJK
f 8
'ON '0*0
S o Ion
Lake
INSTRUMENT i M ePHAR OP-70 UNIT
OPERATOR ' J.DIONARO
Til. STATION
COIL SEPARATION
FREQUENCY
REVISED DATE
TECK EXPLORATIONS LIMITEDSURVEY '
MAGNETOMETER SURVEYPROPERTY/AREA
ATIKOKAN
SULPHIDE SYNDICATESCALE
cm. i* i K.R.T. """'1981-6-7"
II67AT ' ' S20/3
DWfi. NO.t I0470B-I04BOJK
GEOPHYSICS LEGEND
M AGNETOMEIER^ SURVEY ( MAG.) S ELF-POTENTIAL SURVEY (S.P.|r *ro oommoi r HO
Potltlvo Anomaly noo *to
All Ua fUA1
1*40 Nosotl'o IOCO *'Wn'l B o"IIIO 1110
Nogotlvo Anomaly-040 1 1100 '
INSTRUMENT t INSTRUMENT i Opirot ir i Oporotor i
*20'-.
NORTH a EAST TILTS '..10*
0 ~^XSOUTH a '•- 10' NX-
WEST TILTS
INSTRUMENT Oporotor t
ELECTROMAGNETIC SURVEJT
^BRQAPIIDE RE. M.*tOUnltiy
r tom H/.. r 1830 H t. \ \ r 390 Hi. i xr'^J. Trontmttttf potttlon \ /5*^"5^'^*, broadtidt trovtrtt
-•7?\ " " 0^•/-T- Srtadt/dt fnfllt
———————————— I 'OO* -SOUnlti-
1' tWIMitt f J \
1 J \l^.*'*'\~***^ CHaiuitl 8
xy j \y'i
i INSTRUMENT i Opirotor i Coll Sip. i Frtqutncy i
FIXED TRANSMITTER SHOOTBACK (Horizontal 8 Co-Axiol)*zo. T
NORTH a EAST TILTS ' ,, 0 .
0" ''X ———
SOUTH a l-'s* v--*WEST TILTS
INSTRUMENT Opirotor t
VERY LOW*40*.
NORTH 8 . ,io EAST TILTS *.,0. v \Ar-"nr
SOUTH a L-'0* ' 'WEST TILTS
-40"..
INSTRUMENT Opirotor i Ti.- Station i
H - METRIC
rfOIOHt. *20*Tr It JO Hi.
.'~\. r 390 Hi. \ l''~*~**-*^ T,.A \ 3/ '"~""'^*^;-t:i TrommHttr petition
^•/'— j— Rtctlvtr frotllti ^* \ dtltll tronrtt
Tnnimltttr ut -up . tor Mall |i ^
* *™* f*i\[ 39oHi -\5^ j ^
1- — —— 1 CXI ttl.
NSTRUMENT i )porolor i Ml Sip. i
FREQUENCY (V.L.F.) MoxMin ( H.E.M )•80%-r
•o . 10 \ 1
in* tfttOlt/ffi : A
-toy.- ii i
.,o* j
^^ 1 -'^^.^ | J Outatekatt
•** \ 'r liit ^ :NSTRUMENT i Opirotor i Mil Sop. i
(RON CRONE GEOPHYSICS LIMITED
3607 WOLFEDALE ROAD, MISSISSAUGA, ONTARIO, CANADA.
Phone: 270-0096
C THE CRONE ELECTROMAGNETIC INSTRUMENT DESIGNED TO BE
USED WITH THE NEW HORIZONTAL SHOOTBACK EM METHOD AS
WELL AS VERTICAL LOOP AND HORIZONTAL LOOP METHODS,
The equipment consists of two identical transmitter- receiver coils capable of measuring the DIP ANGLE and FIELD STRENGTH of the EM field. Coil separa tions up to 600'. See the report "Deep Electromag netic Exploration with the Horizontal Shootback Method" by D. Crone for analysis of this new method.
TTV
HORIZONTAL SHOOTBACK EM
TRANSMITTING RECEIVING
i
c, Deep penetration.* Accurate surveys In mountainous terrain.* Line cutting not required.* Precise interpretation as to dip, conductivity
and depth.* Simple to operate.* Rugged equipment.
SPECIFICATION OF THE CEM INSTRUMENT
This unit is composed of two identical coils both capable of receiving and trans mitting at 3 fixed frequencies. All circuiting is housed within the coils. The batteries are mounted in an insulated box on a magnesium packboard.
o coll diameter 22", weight per coil 8.3 Ibs.
* standard frequencies 390, 1830, 5010 Hz (others available).
* Inclinometer range 200", accuracy ± Vi 0 .
o receiver gain control — 10 turns, linear calibrated pot.
o dip angle determined by visual minimum on Field Strength meter.
c Field Strength read directly on a meter and controlled by gain control pot.
e packboard and battery box weight each 7.0 Ibs.
* battery — 6 volt lantern type — Eveready 731, Burgess TW-1.
* weight per battery 3.0 Ibs.
* 1 to 3 batteries may be used connected in series.
* range for 1000Xo Field Strength and ± 1 0 null all frequencies, 6 volts — 400', 12 volts — 500', 18 volts — 600'.
* shipped in two wooden boxes weight 50 Ibs. each.
CRONE GEOPHYSICS LIMITED
3607 WOLFEDALE ROAD, MISSISSAUGA, ONTARIO, CANADA.
Phone: (416), 270-0096
RADEMAN EM RECEIVER MEASURING
THE FIELD STRENGTH, DIP ANGLEAND QUADRATURE COMPONENTS
OF THE VLF COMMUNICATION STATIONS
FIELD STRENGTH meterBATTERY test and "STEADY" or "KEYED" signal switchesINCLINOMETER
FIELD STRENGTH range switch
VOLUME CONTROL ON-OFF switch
STATION SELECTOR switch
BATTERY COMPARTMENT (Inside)
CONDUCTOR DIRECTION ARROW SPEAKER
This is a rugged, simple to operate, ONE MAN EM unit. It can be used without line cutting and is thus ideally suited for GROUND LOCATION OF AIRBORNE CONDUCTORS and the CHECKING OUT OF MINERAL SHOWINGS. This instrument utilizes higher than normal EM frequencies and is capable of detecting DISSEMINATED SULPHIDE DEPOSITS and SMALL SULPHIDE BODIES. It accurately isolates BANDED CONDUCTORS and operates through areas of HIGH HYDRO NOISE. The method is capable of deep penetration but due to the high frequency used its penetration is limited in areas of clay and conductive overburden.
The DIP ANGLE measurement detects a conductor from a considerable distance and is used primarily for locating conductors. The FIELD STRENGTH measurement is used to define the shape and attitude of the conductor.
oSPECIFICATIONS
Source of Primary Field:
Number of Stations:
VLF Comm anication Stations 12 to 24 KHz
7 switch selectable
Stations Available: The seven standard stations are Cutler, Maine, 17.8; Seattle, Washington, 18.6; Collins, Colorado, 20.0; Annapolis, Md., 21.4; Panama, 24.0; Hawaii, 23.4; England, 16.0. Alternative stations which may bc substituted are: Gorki, Russia, 17.1; Japan, 17.4; England, 19.6; Australia, NWC, 22.3 KHz.
Check that Station is Transmitting: Audible signal from speaker. ji
Parameters Measured and Means:(1) DIP ANGLE in degrees, from the horizontal of the magnetic component of the VLF field. Detected by minimum on the field strength meter and read from an inclinometer with a range of 800 and an accuracy of V6 0 .
(2) Field Strength (total or horizontal component) of the magnetic component of the VLF field. Measured as a per cent of normal field strength established at a base station. Accuracy 29o dependent on signal. Meter has two ranges: O 3009& and O 6009fc. Switch for "keyed" or "F.S." (steady) signal. ;
(3) Out of Phase component of the magnetic field, perpendicular in direction to the resultant field, measured without sign, as a per cent of normal field strength. This is the minimum reading of the Field Strength meter obtained when measuring the dip angle. Accuracy 296.
Operating Temperature Range:
Dimensions and Weight:
Shipping:
Batteries:
-200 to +1100 F.
3.5" X 7.5" X 10.5" -
Foam lined wooden case
6 Ib.
- shipping wt. 15 Ib.
2 of 9 volt: Eveready 216, Burgess 2U6, Mallory M-1604
Average life expectancy 3 weeks to 3 months dependent on amount of usage.
Units Available on a Rental or Purchase Basis. Contract Services Available for Field Surveys.
,~. fi . f i ,-
Measures absolute magnitude of total magnetic field
1 gamma sensitivity.
10 scale ranges: 20,000 to 100,000 gammas
Digital readout with long life, light emitting diodes.
Noise cancelling toroidal sensor.
Wide operating temperature range.
Model GP-70 is a reliable, light weight, proton magnetometer designed for field operation under widely varying environmental conditions. It measures the absolute magnitude of the total magnetic field within the range of
v;20,000 to 100,000 gammas to an absolute accuracy of * 1 gamma and i 15 parts per million of the field under measurement, over the temperature range of -30" to * 50' C.
The instrument is simple to operate. A complete reading is obtained in 3.5 seconds by depressing a push button. The field intensity is read directly in gammas from a five digit display consisting of light emitting diodes. A10 position switch sets the appropriate range.
The instrument is powered by internally mounted size "D" alkaline batteries
(standard) or by non-ferrous recharge able batteries (optional). The recharge able batteries have virtually zero mag netic effect and permit full use of the magnetometer sensitivity even with close spacing between the sensor and console. Provision is also made for use of external batteries when operating continously at sub zero temperatures. A battery meter shows condition of batteries at all times and allows
fit--.- .^ ~
ItfSfe
anticipation of when batteries should be replaced.
TheGP-70 noise cancelling toroidal sensor minimizes effect of external Interference from man made sources. In high electrical noise areas, further improvement in signal to noise ratio can be achieved by keeping the push
button depressed during a reading. This procedure automatically doubles the sensor polarize time, creating a higher signal output from the sensor.
Model GP-70 comes complete and ready for use with console, carrying strap, sensor, extending aluminum staff, spare batteries, instruction
manual; all In a sturdy transit case.
GP-70 can be used in a hands-free mode by the use of the optional back pack mounting for the sensor. The re- chargable non-magnetic batteries are recommended for use with the back carried sensor to eliminate magnetic influence of the batteries.
OSpecificationsSensitivity: 1 gammaRange: 20,000 to 100,000 gammas in ten switch positions.Operating Temperature:-40" to 550 C.Absolute Accuracy: ± 1 gamma and 115 parts per million of measured field over range of -300 to ± 50" C.Field Gradient: gradient tolerance 260 gammas/ft. (850 gammas/meter)Sensor Noise cancelling toroidal coil Is electrostatically balanced to mini mize interference between sensor and console.Read Out: 3.5 seconds total - by push button. Double polarizing time by keeping button depressed.
Display: 5 digits on long life, light emitting diodes.
Electronic Circuits: Integrated circuits complying with military specifications used throughout.
Dimensions: Console - 3" x 6" x 9.5" (7.5 x 15 x 24 cm) Sensor - 4.5" x 5" (10.5 x 12.7 cm) Staff - 5 ft. (1.5m) extended
2 ft (0.6 m) collapsed
Weights:Console 3.8 Ibs. (1.7kg) Sensor and cable 5 Ibs. (2.3 kg) Aluminum staff 11b. (0.45 kg) 12 Alkaline "D" cells 3 Ibs (1.1 kg)
Console: Sturdy aluminum housing with rubber light shield and shock guard. Power Supply: Standard -12 inter nally mounted alkaline "D" cells pro vide over 10,000 readings at 250 C. decreasing to approximately 1,000 readings at -300 C. Optional: Internally mounted rechargeable non-ferrous batteries and charger. Over 3,000 readings between charges.External Batteries: Provision is available to use external batteries worn under top clothing for continuous use In sub-zero climate.Battery Indicator A miniature meter monitors battery life and helps predict battery replacement time.
McPhar Geophysics Instrument Sales OfficesCanadaMcPhar Geophysics Ltd. -139 Bond Street, Don Mills, OntarioTel.: (416) 449-5551
611 837 W. Hastings Street. Vancouver, B.C. Tel.: (604) 665-3613
SingaporeMcPhar (Asia) Pie Ltd.51 Kallang Place, Singapore 12Tel.: 530311
AiMlralleMcPhar Geophysics Pty. Ltd.50 Mary Street, Unley 506, S. AustraliaTel.: 72-2133
28 Nicholson Road, Subiaco, W.A. 6008 Tel.: 641 -4955
63 Alexander Street, Manly 2095, N.S.W. Tel.:977-4192
United Stale*McPhar Geophysics Inc.SIS W. Miracle Mile, Tucson. Arizona 65705Tel.: (602) 624-2588
PhilippinesMcPhar Geoservlces (Philippines) Inc.P.O. Box 3279, ManilaTel.: 50-53-06
o
Ministryof Report of Work
Ontariovces (Geophysical, Geological,
Geochemical and Expenditures) 52G03SW0028 2.4588 NORWAY LAKE 900The Mining Act^
Type of SurveyU)
Geophysical (EM and Mag)
in nit) cxpunu. uays v^i. cuiumns. Do not use shaded areas below.
{Township or Area
Norway Lake Area M-2385Claim Holder(s)
Teck Explorations LimitedProspector s Licence No.
A32498Survey Company
Teck Explorations LimitedSurvey Dates (llnecuttlng to office) Total Miles of line Cut
Lines FlaggedName and Address of Author (of Geo-Technlcal report)
K. Thorsen 2189 Algonquin Ave North Bay, OntarioMining Claims Traversed (List in numerical sequence)Special Provisions Credits Requested
Instructions
For first survey:
Enter 40 days. {This includes line cutting)
For each additional survey: using the same grid:
Enter 20 days (for each)
Geophysical
- Electromagnetic
- Magnetometer
- Radiometric
- Other
Geological
Geochemical
Days per Claim
Man DaysInstructions
Complete reverse side and enter total (s) here
Geophysical
- Electromagnetic
- Magnetometer
- Radiometric
- Other
Geological
Geochemical
Days per Claim
24.57
Airborne Credits
Note: Special provisions credits do not apply to Airborne Surveys.
Electromagnetic
Magnetometer
Radiometric
Days per Claim
L. ExpenditureHexcludes power stripping)Type of Work Performed
Performed on Claim(s)
Calculation of Expenditure Days Credits
Totel ExpendituresTotal
Days Credits
InstructionsTotal Days Credits may be apportioned at the claim holder's choice. Enter number of days credits per claim (elected In columns at right.
Report CompletedDate of Report
Dec 15/81Recorded Holder or Agent (Signature)
Certification Verifying Report of Work
Mining ClaimPrefix
TBNumber
580554
5BQ555-
Expend. Days Cr,
Total number of mining claims covered by this report of work.
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
______K. Thorsen———^^—2759 A lgonquin Ave North Bay, Ontario
Date Certified l Certified bfSignature)
December 15. 198l1362 (81/2)
Ministry of Natural
Geotechnical
Resources ReP0rt , Ontario Approval
File
Mining Lands Comments
o: Geophysics
Comments
l l Wish to see again with corrections
DTo: Geology - Expenditures
Comments
|~| Approved ( | Wish to see again with correctionsDate Signature
To: Geochemistry
Comments
l Approved l l Wish to see again with correctionsDate Signature
l [TO: Mining Lands Section, Room 6462, Whitney Block. (Tel: 5-1380)
1593 (81/10)
March S, 1982 2.4588
Mining RecorderMinistry of Natural ResourcesWO. Box 5000Thunder Bay, OntarioP7C 5G6
Dear Sirt
We have received reports and map* for a Geophysical (Electro magnetic and Magnetometer) Survey on Mining ClalM TB 580554 et al in the Norway Lake Area.
This material will he examined and assessed and a statement of asaeasment work credit* will b* iaaued.
Tour* very truly,
E.F. AndersonDirectorLand Management Branch
Whitney Block, Rooa 6450Queen's ParkToronto, OntarioM7A 1W3Phone: 416/965-1316
J. Skura/anc
ces Teck Bxploratlona Limited Toronto, Ontario
cc: Mr. Can Thorsen North Bay, Ontario
Ontario
Ministry of Natural Resources
GEOPHYSICAL - GEOLOGICAL - GEOCHEMICAL TECHNICAL DATA STATEMENT
FUc.
TO BE ATTACHED AS AN APPENDIX TO TECHNICAL REPORTFACTS SHOWN HERE NEED NOT BE REPEATED IN REPORT
TECHNICAL REPORT MUST CONTAIN INTERPRETATION, CONCLUSIONS ETC.
AT-2 Type of Survey (s).
Township or Area.
Claim Holder(s)—
Geophysical FM b Mag
Norway Lake AreaFxplorations Linn tod
Survey Company -.
Author of Report.
Address of Author.
Teck Explorations LimitedK. Thorsen-2189 Algonquin Ave, North Bay
Covering Dates of Survey June 8 tp Juflfl 10. 1981(linecuttmg to office]
Total Miles of Line Cut______2.235km———————.
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 credits do not apply to airborne surveys)
Magnetometer. .Electromagnetic.
Feb 22/82
(enter days per claim)
SIGNATURE:.Author of Report or Agent
Res. Geol.. .Qualifications.
Previous Surveys File No. Type Date Claim Holder
MINING CLAIMS TRAVERSED List numerically
(prefix) (number)
TOTAL CLAIMS.
837 (5/79)
GEOPHYSICAL TECHNICAL DATA
GROUND SURVEYS If more than one survey, specify data for each type of survey
VLF 23, Shootback 53 Number of Stations VLEM 42, Mag 103Station interval___25 and 12.5m,^——-..—,
Profile scale ——
Contour interval.
1 Oil * 10
J.QQ3-
M u m j- V LF 2 3 ' Shootback 106, .Number of Readings VLEM 84 Mag ""'.Line spacing. Variable - See
InstrumentMAGNETIC
Accuracy — Scalp constant -"|g
Diurnal correction mpthod RaSP station
B?se Station check-in interval (hours) Hourly
Rase Station location and value 1 i np 1+FiDE, Q+P5N ^OlOg
yH w Zty-*; SsELE
Instrument
Accuracy
Method:Frequency
Crone .GEM Rademgurationation
Vertical A Horizontal100m
VerticalInfinite
ii o ii o
ys measured
C}j Fixed transmitter CJ 390 and 1830HZ
(specify
Various Paramptprs of Spr*
Shoot back O In line SeattleV.L. F. station)
Dndarv Fi^ld
d Parallel line
GRAVITY
Instrument.Scale constant.
Corrections made.
Base station value and location.
Elevation accuracy.
"z,Instrument —-———————
Method D Time Domain 1 1 Frequency Domain
INDUCED POLARIZATIO
Parameters — On time
^ - Off timeH ^ —Delay time.*— 4 GO — Integration timei— iCO -Lj Powertt
Electrode array . ————————————————————
Electrode spacing ———————————————————
Type of electrode
Frequency
Range
SELF POTENTIAL Instrument________________________________________ 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).
J ;YSType of survey(s)^—^— Instrument(s) —————
(specify (or each type of survey)Accuracy——————^————————
(specify for each type of survey)
Aircraft used——————.——--——-———^——-———————Sensor altitude.Navigation and flight path recovery method.
Aircraft altitude______________________________Line Sparing Miles flown over total area__________________________Over claims only.
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.
ANALYTICAL METHODS
Values expressed in: per centp.p. m. p. p. b.
D DD
Cu, Pb, Zn, Ni, Co, Ag, Mo, As,-(circle)
Others___________________________Field Analysis (.
Extraction Method. Analytical Method- Reagents Used__
Field Laboratory AnalysisNo. ———————-—
.SAMPI.E PREPARATION(Includes drying, screening, crushing, ashing)
Mesh size of fraction used for analysis ————
Extraction Method. Analytical Method . Reagents Used ——
Commercial Laboratory Name of Laboratory Extraction Method Analytical Method. Reagents Used
.tests)
.tests)
-tests)
General. General.
Gulliver Lake G-5309I 0 30' 9I 0 I5'
49 0 07'30" —
CDCO 1C
lO
(U*:a
13 CDCD
490 00"'
T8 TB l TB i TB l TB
/4874S7 4874B8 l 487489 | 487412 1487413
^^-j^-^8ty?65 i •""•w 487494 i
385778 385777 385776
j Tre \ TB "1 TB
A J J"/ , 385^33(385734 J 38573J5vi l(XTB TTB~/ l f? ~~~I"TB~/"
39735773385774TB l TB
^361601235 !385744 l J sMl I l L!" !! l ^If.^ J "^
\ TB l TB Tt8..—. C^L ~16,01236 1601237
915738 385739 , ,TB ~ "S745 1385688 \ 385689 1^385690
TB~~| T?" ITS l 385770. 518948
^J X7 1587479 158748
TJl l TB ITB } TB^ t ' V '
587482 1587481
l-.oi-r.jw W*US |'"*'*8OWl^, V UB-UACk l ' Y 6™"?~ " ~ " - H'-'.-r- K - - -L - -L . J. __385741 J85767 . 385768
487405 1487404 '487479l TB ITBi-
I 518268 j 519429 j 518261
Lumby Loire
'f i 5ie"' 5 |B270 1
DISTRICT22M.
KENORA
4VRAINTRIV
Premier/*;- 7,
n—490 O7'30"
COLO LOl
O
O)*:o
c o tn •o
ob:
49 0 00'
91 0 30' 29 28' 27' 26' 25 24' 23' 22 81' 20' 19'18 17 16 9I 0 15'
Sawbill Bay - Marmion Lake G-5582.4588 NORWAY LAKE 200
REFERENCES
LEGENDHIGHWAY AND ROUTE No. OTHER ROADS TRAILSSURVEYED LINES:
TOWNSHIPS, BASE LINES, ETC.LOTS, MINING CLAIMS, PARCELS, ETC.
UNSURVEYED LINESLOT LINESPARCEL BOUNDARYMINING CLAIMS ETC.
RAILWAY AND RIGHT OF WAY -t 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 6t M INING RIGHTS——.—.-.™... 0 .SURFACE RIGHTS ONLY...-.,..™............ O
" .MINING RIGHTS ONLY ...................m-. O
LEASE, SURFACE ft MINING RIGHTS-——.——™—— B " .SURFACE RIGHTS ONLY._....-............—. B" , MINING fllGHTSONLY...— ..———.......-.. y
LICENCE OF OCCUPATION .............................. TORDER-IN-COUNCIL ......——....——............ ^... OCRESERVATION ...M————.............................. ©CANCELLED _—————..^......^.-.——........... ®SAND A GRAVEL ——................................1... ©
NOTC: M INING R IGHTS I N PARCELS PATENTED PRIOR TO MAY 6 , 1913, VESTED IN ORIGINAL PATENTEE BY T HE PUBLIC LANDS ACT, R.S.O. 1*70. C HAP MO, SEC. A3. SUBSEC 1.
SCALE: 1 INCH = 40 CHAINS
FEETO 100O 2OOO 40OO 6OOO 8OOO
O 200 METRES
10001 KM)
2000(2 KM)
AREA
NORWAY LAKEM.N.R. ADMINISTRATIVE DISTRICT
ATIKOKANMINING DIVISION
THUNDER BAYLAND TITLES/ REGISTRY DIVISION
RAINY RIVER/KENORAMinistryof Natural Resources Branch
Ontario
Diti N O V . 2 7 , 1 9 8 1Numbtr
G-545