surf deepem & borehole pulse em sur · follow up hole zq-5 was drilled down-dip of zo-4 and...
TRANSCRIPT
52J87SE87S3 2.10234 BOUCHER
FIELD OPERATOR
-*vi--.- i?v- -- - i
010
: CUMBERLAND RESOURCES LTD., VANCOUVER'
: SURFACE "DEEPEN" AND BOREHOLE PULSE EM SURVEYS
: EVANS LAKE CLAIMSSAVANT LAKE AREA, ONTARIO
: CRONE GEOPHYSICS LIMITED MISSISSAUGA, ONTARIO
: RICHARD KURTZ
J. DUNCAN CRONE B.A., P. ENG. GEOPHYSICIST
SEPTEMBER 15, 1986
RECEIVEDJUL.27 198?
MINING LANDS SECTION
tf5S^.:^
?;*i'?--:- '-'u^.:-i^
-
-j;*..-..
li i i iii li i
Report For
Covering
Property
Survey By
: Cumberland Resources Ltd., Vancouver
: Surface "DEEPEN" and Borehole Pulse EM Surveys
: Evans Lake ClaimsSavant Lake Area, Ontario
: Crone Geophysics Limited, Mississauga
Field Operator : Richard Kurtz
Report By
Date
: J. Duncan Crone B.A., P. Eng. Geophysicist
: September 15, 1986
INTRODUCTION:
A description of the surface "DEEPEM" survey method and the borehole Pulse EM method is enclosed with this report. Since the type of mineralization in the target area had the possibility of being a poor to moderate conductor the pulse transmitter used the "fast" 0.5 ms ramp time in order to increase the high frequency content of the trans mitted signal. This would result in the survey being sensi tive to zones of low conductivity. Transmitter loops 1,2,3 and 4 were large having dimensions of 800 m x 400 m. They produce a strong energizing field that would enable the survey to detect a conductive body the size of Falconbridge's Winston Lake deposit down to a depth of 200 to 300 meters. The smaller Tx 5 with dimensions of 200 m x 400 m was placed east of DDH's 86-1 and 86-2 to make sure no conductors would be missed in the vicinity of the drill holes. For the borehole survey two transmitter loops were used placed around the collars of the boreholes. A field report by the operator Richard Kurtz is also enclosed.
INTERPRETATION:
In the area adjacent to DDK 86-1 and DDH 86-3 several very weak, small conductive zones were detected that are marked on the plan map. These zones would normally not be
marked as anomalous since they are within the noise limit of the survey. They are real since they are detected on both the horizontal and vertical components and are picked up on more than one line. They are only detected from Tx l on channel l using a very early channel l position. They do not form a continuous conductor but instead represent small patches of-poor "conductivity within a zone itThey^ are jvtooX :. small to be(considered as a target area 'for furtherKdrilling^ The borehole survey of 86-1 and 86-2 fail to detect any- J signs of conductivity. The channel l sample in the borehole ;|| survey is moved slightly out from the Tx l channel l and M therefore the very weak zones detected from Tx l are not seen by the borehole survey. If
A zone of moderate conductivity is. detected from L US, Q+60W to L13S, 0+25W. The surface anomaly is picking up bothf the upper and lower edges of the conductive body therefore W it has limited depth extent. This is confirmed by the borehole survey of DDH 86-4 which produces a strong IN-HOLE, lower ' edge type anomaly. The hole cuts the conductor at a depth of 125 m down the hole at a point approximately 40 m from the lower edge of the body. Model studies from Woods-Queens Uni versity thesis are enclosed for a comparison - C-77 shows the hole intersecting the conductor 100* from its lower edge, C-78 at 150'. The obtained anomaly shape is between two. The survey of 86-5 detects an OFF-HOLE conductor at a depth of K; 140 m down the hole - distance to the edge approximately 45/m. There is no positive shoulder to the anomaly at the bo t tom iS; of the hole again indicating a limited depth extent for the?f conductor. The edge would be the southern and lower side of|f the conductor intersected by DDH 86-4. ^; ",;S
No other conductors are detected by the surface W "DEEPEM" survey. The grid area covered can be considered ~* thoroughly explored for conductive sulphide deposits to a depth of 200 meters. No further drill targets were identifiedby the surface and borehole surveys. vi'
Respectful'" submitted
'. Duncan Crone i '
S-.Vi-.' t
Eg*-:. SURFACE BOREHOLE PULSE EM - WINS1ON LAKE DEPOSIT, ONTARIO
ISOLATED BOREHOLE
^ g
In this survey procedure a
pattern of equi-sized transmitter
loops, usually 5 in number are
laid out on surface and the
hole is surveyed from each one
by running a receiver probe down
the hole, Figure 9. The
transmitter loops are positioned to provide a wide variation of
primary field directions in the possible target area. The
changes in amplitude, shape and sign of the anomalies obtained
are used to determine the direction, distance, size and to some
extent the shape of the conductive body (Woods, 1975; Woods and
Crone, 1980; Dyck and West, 1994).
This case history is from a borehole Pulse EM survey
carried out by Corporation Falconbridge Copper in 1982, at their
Winston Lake property in northern Ontario. The property
contained a small (180,000 tons) , mined out, zinc deposit and
a geological setting that Falconbridge considered highly
favourable for further mineralization (Simmons, 1983). Surface
geophysics including Max-Min, VLF and low-powered (500 watt)
pulse EM (DEEPEM) produced no significant anomalous targets.
jjg-^^mm^-^*.tX.A*"^K""V- .' ' ' ~- '~ ' " -'; *- " '
- 2 -
't..
Detailed mapping and geochemical suiveys outlined a zone of
intense alteration. Four drill holes explored this
favourable area to a depth of over 200 meters but intersected
only 6m of minor disseminated mineralization and no massive
mineralization. A borehole survey was carried out down these
holes prior to the planned continuation of the drill program.
The borehole survey results from DDH 20-4 are shown
in Figure 10. Five, 100m x 100m transmitter loops were used
as shown in the plan map. A strong, large "edge" type anomaly
is obtained centered at 2-*' down the hole. At this location
the hole intersected a few millimeters of sulphide
mineralization. The borehole survey profiles are all similar
in shape indicating a sheet like hotly. The reversal in sign
of the anomaly from the early to late time channels is a
classic edge type response. The few millimeters of sulphide
cut in the hole must lie at the very edge of a large
conductive sheet. Since both north and south transmitter loop
responses are similar in amplitude the sheet must be equally
continuous along strike in both these directions. The
geological dip is known to be approximately 55 0 towards the
east. The key question is now whether the sheet continues
up-dip towards the west or down-dip towards the east. The lack
of surface geophysical responses supported the down-dip
f-:JC.-' '
.direction. This is clearly confirmed by tne borehole survey
' - . -'. responses from the east-west section of.-- - ; --v
- ' ; /v
The anomaly obtained from the west Tx loop is cbmpletel;^
reversed in sign and much reduced in amplitude. Using
Macnae's (1980) primary field direction curves, Figure 11,
we see that the primary field from the west Tx loop is almost
null coupled to a downward dipping conductor. This field at
depth, would energize the body from its upper surface, not
the bottom, reversing the sign of the anomalous response as
obtained in the survey. An upward dipping conductor from the
west Tx loop could only produce a strong amplitude anomaly
of opposite sign. For these and other geological reasons the
follow up hole ZQ-5 was drilled down-dip of ZO-4 and intersected
1.11 Cu and 19.11 Zn over 2.1m. A large mineralized sheet of
massive sulphides (zinc, copper) has been drilled off and shaft
sinking ia presently in progress.
V4
Dyck, A.V., and West, G.F., 1984, The Role of Simple Computer
Models in Interpretations of Wide Band Drill-Hole EM
Surveys in Mineral Exploration; Geophysics, v. 49, p. 957-980
Macnae, J.C., 198, An Atlas of Primary Fields Due to Fixed
Transmitter Loop EM Sources; Research in Applied Geophysics,
v. 13, Geophysics Laboratory, Department of Physics,
University of Toronto.
Simmons, B.D., 1983, Winston Lake Discovery by Corporation
Falconbridge Copper: Presented at the Prospectors and
Developers Association, March, in Toronto.
Woods, D.V., 1975, A Model Study of the Crone Borehole Pulse
Electromagnetic (PEM) System: M.Se., Thesis, Queens
University.
Woods, D.V., and Crone, J.D., 1980, Scale Model Study of a
Borehole Pulse Electromagnetic System: Can. Min and Metall
Bull., May.
PEA* MAP OP,TRANSMITTEr*:--... ^.'}-ft -''.t^9K.-'Ot^S'' •••'.- • vi.olAEtV-Jn'ABrf*:
10O -10 +1O -MOO -HOOO tOO .10 -HO *1OO *1OOO10O -10 -t- 10 -MOO -t-IOOO
BOREHOLE P. E.M. SURVEY RESULTS USING DIRECTIONAL Tx LOOPS WINSTON LAKE DISCOVERY. ONTAWO FOR CORPORATION FALCONBRIDGE COP -1982
iW
M/ Figure 10
Ti LOOP COLLAR T* LOOP TH LOOP TO E T* LOOP TO W
— lOOm—.
- - - - - - -x - - - -.- ' '; i i i i M \ \ ^PRIMARY FIELD COUPLING - EAST WEST SECTION - BOREHOLE ZO-4
i.
Fig. 11 Section showing primary field coupling to the winston
Lake deposit from the east, collar and west Tx loops placed
on surface.
'
iv--:
UNDERGROUND BOREHOLE PEM SURVEY
UNDERGROUND BOREHOLE
Conductoi
In 1979 Selco Mining
Corporation carried out a
Borehole Pulse EM survey of all
available underground holes at
their South Bay Mine in
Northern Ontario. The resultsv
Fig. 12. from three of the 85 holes
surveyed are shown in this case history. These are extracted
from a paper presented by Laurie Reed, Chief Geophysicist for
Selco, at the GSC-KEGS Borehole Symposium in Toronto (Reed 1983).
The orebody consisted of massive sulphide (chalcopyrite, pyrite
and sphalerite) high grade, lenses with a steep eastward dip
that occured adjacent to a complexly folded rhyolite-quartz
porphyry contact. Drill stations were established at each level
in the mine and a fan of usually horizontal holes were drilled
to explore the contact area. The transmitter loop was laid out
on surface over the hanging wall of the orebody, its dimensions
were 400' x 800', Figure 12. Plastic push rods were used to
advance the probe along the near horizontal holes. Constant
transmitter power and receiver amplifier gains were maintained
throughout the survey to enable comparison of hole to hole
responses. The underground holes were essentially drilled
.i\ : v -^L^HSfe-it^fiy^fi
!!5rNj6MVj:'2:'^
f^fevi'v'^^*':?:;?';'-'' ' ?^ - ! "- 'S^^^^^^w^^^^?^ -.- - -V-,' -'- - 1 :' ' '-z •'••y -- , vJ-;*-'-;-'*Sf aXiff;V^^:v^- \ - .y-A : -- '/. .v...-- --.
- 2 -
along strike, rather than the generally perpendicular to
strike orientiation normally hoped for from surface holes.
The EM anomaly pattern obtained from this orientation, where
the hole slides along side a conductive lens, consists of a
cross-over pattern with the cross-over point being near the
centre of the lens. If the lens is on one side of the hole
a plus-minus cross-over is obtained if on the other side a
minus-plus pattern. Direction to the lens is thus clearly
defined by the survey.
The three flat holes, drilled from a station on the
750' level are shown on the plan map, Figure 13. No sulphides
were intersected by the holes.
Borehole SB523 drilled in and out of the contact
zone several times - the survey log of this hole, Figure 14,
obtained two anomalous EM responses from conductors lying
alongside the hole. The weak minus-plus anomaly at 155* is
interpretated as caused by a very small conductive lens occuring
immediately south of the hole. The stronger plus-minus anomaly
centered at 360' is interpretated as a larger body just north
of the hole. The survey along SB533, Figure 15, detects the
larger conductor as lying south of the hole and some distance
from it (in this case 100'). Similarily both conductors are
detected from SB531, Figure 16, as occuring north of the hole.
- 3 -
The shape of the secondary dipole field generated by the
larger lens is shown in the plan map. A hole to test this
conductor was drilled upwards from a station on 900' level.
Stringer sulphides and narrow massive veins of pyrite and
some minor sphalerite were intersected as the hole crossed
the contact and passed through the interpreted source.
REFERENCES
Reed, L.E., 1983, A Borehole Electromagnetic Survey of the
South Bay tfine, Ontario: paper presented at the International
Symposium and Workshop on borehole geophysics, Mining and
Technical applications, August, in Toronto.
INTERPRETED CONDUCTIVE BODY
POSITIVE RE.M. RESPONSE (COMPONENT ALONG THE HOU)
Co"1
SB-529
-S3,
r:'
QFig. 13. Underground plan map of the three drill holes
collared from the same station on the 750* level of South
Bay Mine.
•v-w-v-;.?;,-
piS^^^M-;;Sii^-::?- ;^ yf|i|lil^P^iili^
-TOO.100.•'.so -
Mf^v-
--•"ij- -Jd.. , 'S-;?-^i-'
,.-^'
W/T
.\T*
\- - •f^ : '..-^i*c\^m. --;V"?-.-:^ i - -' ,::r;-^;^,'v:Jr|®a --, :: ;-j :. ^-/y.-.^i^^^i^Kt1^
-;^5:^|^|^,
lO 1CX)' 20O' 300 4OO' 500
Fig. 14. Borehole PEM log of S B528
7vr. 5.~'' ' -
,, ^;-::\v •'X . ".' --' ' •V ;i"" - -
' V' ',. j J^'-'-j, ^r-iiei :^'™." * ;*'r .'-"'••f" "^ .'.:? ." ^
. .•'•* "",iV-*'",' -*t'. ' -y -"- \"j- .'**."- -
•- M
HOLE SB-533•'4- :•••*,
(it: fe
i^.— -.— .—.J. " 0•-*.. _ . — .— '-"^ -- - oz - I 0 J K. — . — . — .,L.
*— . _ ....J,1 4
1 __ . — 5
1 6
J ———^ ^
* 8
10O' 200' 30O' 4CM)' 50O'
Pig. 15. Borehole PEM log of SB533,
HOLE SB-531
m-
.
"v.'-'';. ;: '"-"'"-'" • i / •'•v C.'""..^Ss:"O'--
-so
- 10
-o.-10-•JO'\f"
t "
t ~-
IOO' 20Of 30O'l40O' 50O'
Fig. 16. Borehole PEM log of SB531
lti
• :- .3i i i i i t
Client*, ^Project' *'rtremr-SurveyDur-AtiomOperator*Field H*Ip'
Abstract
CumberlandEvans Lak.Savant LaKeH.P. Deepen and Boreholenug 21/98 - ftu0 31/86Richard KurtzDave Van Der Loop
Fro* AUQ 21/SE to Aug 31/86 a H.P. Deepen and Borehole survey conducted over Cumberland Resources Evans Lake property. Five Deepen and two Borehole trananitt loops were surveyed.
Deepen Survey
Tx Loop Coordinates Meterage Remarks
1) (L27S - L19SX308U - 708U)
2) (L18S - L10SX300U - 700U)
3) (L9S - L1SX200U - S00U)
*) *L1S - L7SX3S0E - 750E)
S) (L24S - L20SX200E - 400E)
Time Base 10 ma
Borehole Survey
Tx Loop Coordinates
5.25 kn
5.9 kn
3.6 kn
3.87 km
1.5 kn
Ranp Tine 0.5 n*
Meterage
Volts 110 Amps 4.5
Volts 110 Amps 4.5
Volts 110 Amps 4.5
Volts 110 Amps 4.5
Volts 100 Amps 6.0
Gain 500
Reoarka
Tx l (L22S - L17S)t230E - 200U)
EL-86-1 340m
EL-86-2 3S0m
EL-86-3
Tx 2 (LIAS - Li2SHlS0T - 5W)
EI.-BB-4 220n
EL-86-5 260n
Tine Bate 10 ns Ramp Tine 0.5 ns
Volts 90 Amps 7.3
Gain 500
Gain 500
Blocked at 80 meters
Volts 80 Amps 8.0
Gain 50
Gain 500
Calibrating the ZTS for* * i.S**s rawp tin* was difficult, TX on* wa* aurveyad using a 2TS "of. 114,in which channal on* seanad^g be sampling a portion of "tha priwtirypuls*. Subsequent TX lool^uere surveyed using a ITS of approximatly 179. Optlun loop locations were difficult do the uater bodies throughout the grid area. While in transit acconnadations were kept at the Kapuskasing Inn. Job site lodging was kept at ths Anglers Cove Lodge. All transmit epuipnent in fine running order... '. - " ' -; .... - - . ' ,,.-- :-\^,:.- ••-. . .
Richard Kurtz
Figure C.77 Respons* curve from •xp*rinwnt 92. Response Hagnituda, W volts
i•I:-3;- i
l
l
i
i
l
l
\
SQD—
15CO—
2OOO—VARYING BOREHOLE DISTANCE PROM BOTTOM EDGE BOREHOLE 100* INSIDE SHEET DIPPING AT 30* FROM ,;^y'v5*^t*
Response Magnitude,
-10O|IM l l l l l i 11 in1OO t . i li • 10OO
Mil
2OOO— VARYING BOREHOLE DISTANCEFROM BOTTOM EDGEBOREHOLE ISO' INSIDESHEET DIPPIHQ AT 30* JROM HORIZONTAL
^R^r^-f-'^^^
lJ4:-
~ -. 'f ' j *.*'"
i•;*"-" .
l
ii ii3?..
l
3607 WOLFEDALE ROAD. MISSISSAUGA. ONTAIBO. CANADA L5C IV* TELEPHONE: (416)270-009* CABLE: CRONGCO. TORONTO TELEX 0*-9*12*0.
SURFACE PULSE EM
DEEPEN SURVFY
METHOD DESCRIPTION:
The DEEPEM method uses large square or rectangular tranmsit loops, from 100m x 100m to 500m x 1000m depending on the target depth and geometry.
Survey lines are run outside and perpendicular tp the long side of the loop (1). Length of the survey line is in the order of five times the width of the transmit loop (w).
At each receiver station both the vertical and in-line horizontal components of the time derivative of the secondary magnetic field are measured {dBz/dt and dBx/dt respectively). A third horizontal, cross-line component (dBy/dt) may be measured if the strike of the conductor is not perpendicular to the grid.
Careful consideration should be given to the size and location of the transmit loop prior to commencing a survey. Some knowledge of regional dip, depth of exploration and primary field direction will assist in obtaining optimum coupling with the expected target.
DEEPEM
ADVANTAGES AND DISADVANTAGES;
The DEEPEM method is ideal for deep targets. It is de signed to detect conductive bodies with dips M5 degrees at depths equivalent to the width (w) of the transmit loop. The geometry of the primary field leaves a "blind zone" for small near surface (within 1/2 w of surface) vertical conductors. Smaller transmit loops (100m2 ) are recommended for such targets.
The DEEPEM method may be used successfully in highly con ductive environments. Ring current effects can be extensively removed with spacial filters to permit a more accurate identi fication and location of conductors. The method is preferred to the MOVING IN-LOOP survey in such a conductive environment when the target is near vertical and narrow or is a zone of multiple conductors.
29/2/84
CRONE PROCESSXNO
Useri .Cront GvophVilci Ltd.J5ftV.-,.;V • ...-'.-.••^••:;r"f '^::-
Silent ' -^---v^ - . - • PUMBERU.(|Q|ND—RES . B i M84&1C
'-*i** .'*r-1.'m- Utoj?'- .'-We?.'-" H'' :
ft"
•sSr •f-s?;'- -
TT; ,
^m
^i™.V^v'--'
•*:fr ;* .:-.-j*K••"-•N'lV .
iBrid -: ' :"s~'- ' ,EVANS— L, AK E
Tim* bat*t lOmi Ramp time! O.Smt
DEPTH
20m 30m 40m 30m 60m 70m BOm 90m 100m 110m 120m 130m 140m 150m 160m 1 70m 180m 190m 200m 210m 220m 230m 240m 230m 260m 270m 280m 290ra 300m 310m 320m 330m 340m
Ch. 1
41.3 30.9 26.3 24.8 23.2 21.4 20.9 20. 1 19.3 18.8 18. 0 17.4 16.5 15.6 15. 1 16.0 14.8 13.4 14.0 13.4 12.8 12.7 12.4 12.7 12. 1 12.2 11.5 11.6 12. 1 11,9 10.6 I 1.5 11.3
Ch.2
32,4 24.4 20.8 19.0 18.6 17.0 16.7 16.4 15.2 14.7 14.4 12,9 12. 1 11.9 11.6 12. 1 11.2 11. 1 11.1 10.6 10.4 9. 1 9.7 9.5 9.6 9.5 9.2 9.3 8.2 9.6 8.2 8.5 8.8
Hoi* EL-— BI&— 1
ZTSi 168G* in: 85
Ch.3
23.4 17.7 15.7 14.3 13.6 12.5 12.3 11.2 11.9 10.6 10. 1 9. 1 9.7 9,0 9.2 8.7 8. 1 7.5 8. 1 7.8 7.5 8.0 7.5 7.3 6.8 6.9 7.2 7.6 6.8 6.5 6.2 6.2 6.2
Ch.4
15.9 11.9 10.2 8.8 8.7 8.3 8.2 8.2 7.7 6.8 6.6 6.5 5.2 6.4 3.8 5.3 3.6 4.8 5.3 4.5 4. 1 4.8 4.6 4.3 4.2 4. 0 4.5 4.5 3.6 4.2 4. 0 3.8 3.6
Tx LoopC
D* t*! 30/08/86
Ch.3 Ch.6
9. 1 7.0 3.1 3.0 4.4 4. 1 4.2 3.3 4. 1 3.3 4.2 4.7 3.3 3.7 3.8 3.2 3.2 1.9 3.1 2.6 2.5 2.6 ( 2.4 1.7 2. 1 2.6 :2.4 ;2.8 1 3. 1 2.3 1 2. 1 1.9 1 1.6 C
3.9 3.8 2.0 2.3 2.9 1.6 2.2 1.6 1.5 1.3 1.9 J. 3 1.2 1.8 1.5 1. 1 3.6 .6 1.2 .7 3.6 ).2 1. 1 .3 .5 1.2 t. Q .0 .3 . 1 .3 . 1 ).4
Ch.7
2.8 1.7 0.5 1.6 1.3 1.4 0.3 1.5 0.1 0.9 1.2
-1. 1 i. o0.7 1.8 1. 1 1.0 O.B
-0. 1 1.3 0.7
-0.3 1.2 0.0 -0.6 0.3 0. 1 0.2 1. 1
-0.6 1.0 1.0 0.0
Ch.8
0.8 0.7 1.0 0.5 0.0 0.4 0.7
-0.3 -0.3 0.6 0.9
-0. 1 0.3
-1. 1 0.2 0.7
-1.0 0.4
-0.8 0. 1 -0.2 0.3 0.6
-1.3 -0.5 -0.3 1.0 0.2 0.5 0.4 0.4
-O.B -0.2
PP
1222 1186 1154 1143 1134 1123 1108 1099 1093 1089 1081 1074 1062 1045 1038 1029 1016 1002 997 989 977 969 961 938 948 942 936 930 926 920 917 913 908
GAIN
83 90 102 110 120 130 140 150 170 200 230 280 320 370 410 , -0 500 300 500 500 500 500 500 500 500 500 500 500 500 300 500 500 500
il:i
CROME DATcOkL-OC3C3ER PROCESS X IMQBOREHOLE PEM
litrt Crone Geophysics Ltd.^Client' * '" :''"-
JCUMBERI—AMD— RES .
Gr 1 d Ho t v EWAMS — UAKE EL. — StS — 2
Time b*set 10m* ZTSi 167Ramp t)m*i 0,5m t
'DEPTHt uj^j, , f,
20m:. 30m
40m- 50m- 60m- 70m
80m: 90m
1 00m110m120m130m140m150m160m
:, 170m7 180m- 190m; 200m210m
v 220mi 230m[". 235mj 240m
245mf -, 250m, 260m
270m280m290m
"' , 300m. 31 Oml ; 320mS" : 330mf 340m?-350m
Ch. 1
59. 148.040.534.230.526.926.324.823.722.821.821.019.218. 117.916.615.915.315.515.616.813.816.317.617.016.915.717.214,716.316.413.914.614.713.914. B
Ga i
Ch.2
44.937.031. 126.825. 122.320.419.619. 1IB. 6IB. 116.716. 115.513.412.812.3 .12.6 .12.613.013. 110.913.613.213.413.313.513.513.313.313.013.412.612.412.211.3
ni 125
Ch.3
30.324.620.8IB. 215.815.014.413.413.213.012. 011.210.89. 98.48.87.57,78.28.08. B6.88.0B. 6B. 78.4S. 48.70.58.38.68.07.87.57.27.0
Fi le B* MB&2C
Tx Loop * C
D*t*t 30/08/86
Ch.4
19.016. 113.512.410.69.99.59.26.5Q. 88.0B. 07.76.85.85.65.24.64.65.36.04.46. 15.76.05.45.65.55.95.35.75.75.44,74.74.6
Ch.5
11.49.68. 17. 16.26.65.46.05.86.65.04.94.64.34.83. 14.63. 12.83.54.33. 13.33.23.24. 13.53.34.23.53.53.83.32.93.63.2
Ch.6
5.14.84.03.43.33.02.73.73. 13.82.82.72.82.02.71.41.31. 12. i1.32. 11.41.62.02.21.61.31. 11.91.71.61.71.91.41.61.3
Ch.7
2. i1.31.71.71.80.30.61. 11.21.61. 10.91.22. 11.41.40.70.31.51.22. 10,2-0.31.1
-0.31.01.60.61.81.30.41.20.70.31.50.3
Ch.B
0.90.80.5
-0.20.50.6
-0.40.40.5
-0.6C.O0.40.31.2
-0.70. 10.40.61.20.5
-0.4-0. 1-0.7-0.6-0.41.5
-1. 11.40.30.5-0.21.30.51.00.9
-0.1
PP
114411291103110010851078107110691056105510491052105310461043104610461041104610501049104610451041103810391036103710301027102310281016101610131003
GAIN
12SISO230240270300320340350380383390400420420430440450+50455460465460265470470475475485
490495500500500500
O
m^3^^
,,:;,'.-j - :,::V. . CROME' *--''. ' - - ' ' '' '. " ' ':' -' '. . ' J' .
•i Cront Gcophrtic* Lid.pH*nt ;? ' -\'-^-^ iCUMBERL-AMD—RES .
DATALOGGER PROCESS IMC3BOREHOLE PEM
Fi l *B s M Beb-J-CZ
SK; Grid Hole Tx LOOP ggfe EW^AMS — t-AKE EL- — a^— -4- C
fSff-vTim* b*s*t 10ms ZTS" 167 D*t*i 31/08/86 1^-.. R*mp t 'm*! 0.5ml G* in! 30
^'•^'-^ 7 -.-
DEPTH
fyC*"'. - 20m*jSJjfc-::" ' 30*)IjipK- *o*fi|if; ~ 50w-,;S#i, i . 60mfSfe ' 70("v-Siif' 80m'1ST- 90mrfeg5, 1 00m*"\tf\ 1 05mr W' 1 1 Om: ;i 115m•';'n' 120m
,,S; 122m--K 125*^'- 127m•'-^ 130m
^S* 140mi'o^e'. ' 150m
160mSg;-: i?0mj^Fii-.': 1 80*1f^K" 190m•;; 200w
Ch. 1
76.276.675.976. 175.382.082.296.3
113.9129.4150.2177.8265.7336. 8o44.6209.5281.2211.3102.665.049.339.933.428.9
Ch.2
73.272.871.372.073.376.582.093.8
113.3129.9153. 11*0.2283.5385.4833, 1322.5386.3217.999.360.043. 133.227. 122.7
Ch.3
68.267.767.266.667.671.076. j88.5
108. 1124.8150.3197.8329.3462.3
1046.6471.0489.5207.088.851.736. 127. 121.517.9
Ch.4
64.664.063.362.563.866.972.2S4.2
103.0119.3146.4202.6369.9542. 1
1189. 1623.3561.8189.478.444.830.823.018. 115.0
Ch.S
61. 160.459.458.959,762.168.279. 197.2
112.41 58. 31"B. 1386. 1575.9
1123.1720.5569.6162.567.538.926.620.015.612.6
Ch.6
54.653,752.852.253.055.060.370.285.397.7
1 1*. 5174.0349.3505.9685.9676.0467. l122.453.031.522.016.713. 110.7
Ch, 7
46.445.844.944.244.546.450.658.870.930. 195.9
136.0257.5325.978.9
476.5297. 181.338.724.117.413.410.68.5
Ch.8
38.737.837.336.436.838.141. 148.057.864.975.699,4
150.4133.4
-255. 0259.5159.752.227.518.113.410.38.26.9
PP
1084108210831082107510751075107010661069IGoB1065114111551226883924
1040992950918873833763
GAIN
303030283030303033353333302823505043505050505050
O
CRONIE DATALOGGER R-ROCESS I NQBOREHOLE PEM
'CICron* Gtophyslcs Ltd..•"^•W-- ' - ' •••"
ient^•fcpUM©ERL.AMID-RES .
•^^AMS-U.AKE EU-a^-S
•P^Ttm* b***l 10m* 2TSI , 65 M^lteMp t IM.I 0.5m, G* in. 15
PSfem- i^S:-^* : -V^'-v
28-
^,- •-'i*d-m*.--li;
DEPTH
20m 30m 40m 50m 60m 70m 80m 85m 90m 95m
100m 105m 110m 115m 120m 130m 140m 150m 160m 165m 170m 173m 180m 1 85m 190m 200m 210m 220m 230m 240m 250m 260m
Ch. 1
401.5 226.1 103.6 61.4 38. 0 22.3 17.0 2.7 0.3
-2.9 -11.0 -17.5 -19.8 -23.6 -26.7 -32.9 -32. 6 -33.2 -30.4 -26.2 -37.9 -21.7 -18.4 -15.2 -13.0 -9.3 -6. 1 -2.9 -1.0 0.0 0.8 2.0
-•~—— ~~ — HV
Ch.2
304.0 165.2 31.3 48. 9 29.8 17.8 9.3 2.9 0. 1
-3.9 . -8.6
-11.8 -14.8 -17.3 -20.2 -24. 1 -25.3 -23.8 -21.0 -19.9 -15.3 -15.7 -14. 1 -12.2 -9.7 -6.6 -3.9 -2.2 -0.9 0.7 1.2 1. 7
Ch.3
215.8 113.3 60.6 37.6 ?3.9 14.6 7.0 3.9 1.2
-1.5 -4.6 -7. 1 -9.4
-1 1. 1 -13.4 -15.4 -15.8 -15.8 -13. ~ -12.3-e. 3-9.3 -7.8 -6.8 -5.4 -3.5 -1.5 -0.2 0.5 1. 7 2.2 2.3
Ch.4
153.4 74.8 42.0 26.5 16.6 tO, 3 4.5 2. 1 0.8
-1.5 -3.9 -5.9 -7.2 -9. 1
-10.2 -11.7 -12.6 -11.8 -9.5 -9.7 -7.2 -7.2 -6.2 -5.6 -4. 1 -2.6 -1. 1 -0.5 0.6 1.4 0.9 1.3
Fil. B t Ha^SCS
Tx Loop C
D* t ci 31/08/86
Ch.5
106.4 46.5 25.7 16.3 10.2 6.2 1.6 0.5
-1.9 -3. 1 -4.7 -5.5 -7.2 -7.9 -8.9 -9.7
-10.0 -10.5
-7.8 -7.2 -6.4 -3.8 -3.3 -4.6 -4. 1 -2.3 -2.1 -0.5 -0.3 0.5 0.9 0.6
Ch.6
72.7 27.5 14.9 9. 1 5.3 2.8 0. l
-0.8 -1.4 -2.7 -4.2 -4.5 -4.3 -5.9 -7. 1 -7.8
7.7 -7.0 -5.4 -5.8 -3.0 -4.2 -4.0 -2.9 -2.7 -2.0 -1.7 -0.7 -0.9 0.0 0.4 0.7
Ch.7
53.9 17.6 8.3 5.3 1.7 1.4
-0,2 -1. 1 -1.3 -1.8 -2.4 -3.3 -3. l -3.7 -4. J -4.6 -4.5 -4. 1 -3.8 -3.5 -2.8 -3. 1 -2.3 -1.3 -l. 8 -1.5 -1.0 -0.5 -1.0 0.0 0.2 0.6
Ch.8
43.7 12.2 5.9 3.0 1.9 0.5
-1.0 -0.7 -1.1 -1.3 -1.0 -2.0 -2.5 -3.2 -3.2 -4.1 -4. 1 -2.1 -2.2 -1.6 -2.6 -1.9 -1.2 -1.0 -1.0 -1.5 -0.3 -0.3 -0.4 -0.4 -1.4 -0.7
PP
12211221 1218 1213 1208 1199 1196 1193 1196 1189lies1174 1170 1157 1150 1146 1137 1123 1118 1122 1100 1115 1103 1109 1097 1090 1081 1066 1059 1043 1032 1024
GAIN
15 20 30 40 60 70 85 90 95
100 120 120 130 140 155 160 180 190 220 210 240 240 230 245 260 275 310 315 345 390 400 430
CRONE PROCESS I
'. U**rt Cron* Gvophyilci Ltd.
Client
; Gr l d— U.AKE
p, T im* b***i i on* " R*mp t f m*: 0.5m*
STATION
300U
250W
200W
l SOU*
100W
SOW
BL
30E
l GOE
I30E
200E
230E
300E
COMPONENT
Z X 2 Xz x2X2X2X2X2X2X2X2X2XZx
tin* O-+-OO
ZTS! 170 Giln: 500
Ch. l
Fit*B s L-OE-4-
Tx Loop •4-
D*tei 28/08/86
Ch.2 Ch.3 Ch.4 Ch.5 Ch.6 Ch.7 Ch.8-2. 0 0. 7
-2.2 0,6
-2. 4 0. 1
-2. 1 0.4
-2.8 -0. 1 -1.9 0.3
-2. 7 -0. 1 -2.7 0.2
-2.9 0. 1
-2.8 0.4
-1,7 -0.5 -7.2 -1.9 11.9 -1.2
-2.2 -0.8 -2.0 -0.3 -1.9 -0.3 -1.8 -0,3 -1.9 -0.3 -1,9 -0.6 -1.6 -0.3 -1.5 -0.3 -2.4 -0. 1 -1.9 -1.2 -2. 1 -1. 4 -4.4 -3.4 -7.2 -1.0
-0.5 0.3
-0.6 0.4
-0.6 0.4
-0.3 0.5
-0.5 0.2
-0.5 0.6
-0.3 0. 1
-0.3 0. 1
-0.3 0.3
-0.4 0.4
-0.9 0.2
-3.2 -0.9 -6.3 -0.6
-0.3 0. 1
-0.3 -0.4 -0.4 0.2
-0.2 -0. 1 -0.2 0.4
-0.4 0.0
-0.3 0.0
-0.4 -0.2 -0.9 -0.6 -0.7 0. 1
-1.0 -0.9 -3.9 -2.3 -8.0 -1.4
-0.9 -1.0 -1. 1 0.0
-0.8 -1.3 -0.9 -0.5 -0.7 -0.7 -1.0 -0.2 -O.B -0.7 -O.B -0.7 -1.2 -0.9 -0.4 -0.6 -1.2 -1.0 -4.0 -3.0 -8.3 -1.7
-1.0 -0.5 -1.0 -0.2 -0.6 -0.9 -0.8 -0.8 -0.8 -0.8 -0.3 -0.7 -0.6 -0.8 -0.4 -0.3 -0.7 -0.3 -0.7 -1.0 -1. 1 -1.0 -3.4 -2.8 -7.7 -2.2
0.3 -0, 1 -0.5 -0.3 -0.2 0.0
-0.6 -0. 1 -0.4 -0.7 -0.7 0.0
-0.4 -0.8 -0.3 -0.3 -0.4 -0.7 -0.4 -0.2 -0.9 -0.5 -2.6 -2.4 -5.6 -1.9
-0.4 -0.9 -0.8 -1. 1 -0. 1 0.9
-0. 1 0.6
-1. 1 -1.4 -0.3 -0.3 -0.9 -0.8 ^0.2 -1. I -0.3 -0.2 -0.4 0.0
-0.9 -0.4 -2.4 -0.4 -4.3 -1.4
O
DAT
Ltd.
Fit* Bs L.1
E 1fi
;c
rl- I
r
•tfVAMs-L-AKE VOON•ptTlM* basci 10m. ZTSi 170 •P"**** *'**' 0.5ml Gtini 500
Kr.' STATION COMPONENT r h i ^ -
[pi 300W
1'' 2SOW zm x1 200U zv--^ , Aft; 1SOW ZH ; x 1") 1 00W z1? XS 50W z * x4: * zm- x^ 30E Zir xj i 100E Z
s |i 130E zi Ir xi 1 200E Zfi- xM* 250E ZSI* xK 300E z
ir x
-2.3 0.7
-2.5 0.3
-2.3 -0.2 -2. 7
1. 1 -2.5 -0.2 -1.9 0.2
-2.0 -0.3 -2.3
0, 0 -2.7 -0.5 -3.4 -0.4 -3.3 -1.2 -5. 0 -0. 1 -7.2 -1.9
-2.0 0.3
-2.0 -0,2 -2.1 -0.4 -1.9 -0.6 -2.0 -0.2 -1.6 -0.4 -1.4 -0.2 -1.0 -0.3 -1.6 -0.5~ 7
- . i- . 9 - .0 - .0- . 1- .3 - .8
Tx Loop 4-
D* t*: 28/08/86
Ch. 3
-0.6 0.5
-0.7 0.3
-0.3 0.0
-0.7 -0. 1 -0.7 0.6
-0. 1 0.0
-0. 4 0.2
-0.5 0.3
-0,4 0.2
-0.7 0,3
-1.0 -0.9
0. 1 0.3
-0.2 -2. 0
Ch.4
-0.6 0.3
-0.4 0.3
-0.4 0.2
-0.5 0.3
-0.8 -0.9 -0.6 0.1
-0.4 -0.3 -0.2 0.0
-0.6 -0.2 -0.5 -0.7 -1.2 -1.0 -0.4 -0.5 -1.2 -1.6
Ch.3
-0.7 -0.9 -1.0 -0.3 -1.0 -0.1 -0.8 -0.4 -1. 1 -0.3 -0.4 -0.6 -0.2 -0.6 -0.3 -0.5 -0.4 -0.4 -0.3 -0.7 -1.4 -1.4 -0.5 -0.6 -1.7 -1.4
Ch.6
-0.7 -0.7 -0.9 -0.6 -0.7 -1.0 -0.6 -0.6 -1. 1 -0.2 -1. 1 -0.7 -0.2 -0.7 -0.3 -0.3 -0.8 -0.6 -0.7 -0.3 -1.3 -1.2 -0.3 -0.7 -2.2 -2.3
Ch. 7
-0.3 -1.2 -0.7 -0.4 -0.2 -0.9 O.I 0.3
-1.0 -0.3 0.3
-0.4 0.0
-0.4 0.0
-0. 1 -0.3 -1.2 -0.7 -0.3 -1.0 -1.4 -0.3 -0.7 -2.0 -1.2
Ch.e
-0.5 -O. B -0.8 -0.8 -0.3 -0.3 -0.3 -0.3 -0.5 -0.7 -0. 1 -1.4 -0.5 -0.4 -0.5 -0.1 -0.2 -1.4 -0.4 -1.7 -0.6 -1.0 -0.7 -1.1 -1.6 -1.1
O
Ltd.
CUMBERLAND
EMAMS—L.AKE
,.m:-/:.^
CROrvJE DATAI-OC3C3ER RROCESS I MGSURFACE PEN
Lin* 2O OM
ZTSi 170 G*tni 300
Ch. 1 Ch.2
Pitt Bi
Tx Loop •4-
D*191 28/08/86
Ch.3-6.9-1.6-4. 1-0. 1-3.8-0.2-3.4-i.a-3.2-0.2-2.3-0. 1
-3.0-2.6-1.4-l.fl-2. 1-1.3-2. 1-i.a-2. 1-0.9-1.7-1.0
Ch.4 Ch.3 Ch.6 Ch.7 Ch.B
-2.0 -1.9 -0.6 -0.3-1. 1-0.3 -0.8-0.2 -0.6 -0.2-0.6 -0.3
-2.4 -1.6 -0.9 -0.7 -(-1.1-0.8 -1.4-1.3 -0.7 -0.6 -C-0.2 -C -0.3 C
2.6 .6. 1.3.0.2 .3.0 .0
1.6).6 . 1
-2.2 0.1
-0.6 -1. 1-0.4-0.3 -1.3-1.0 -0.9 -0.9-1. 1 0.3
-2.0 0.2
-0.2 -0.3-1.4-0.9 -1.1-1.3 -0.4 0.00.3
- 1.9
O
ZTSi 170 G*in! 500
Zi-:'tf?™* P*ophy t i ci L td.'
CUMBERLAND—RES
Grid
..Tim*b***i l Oms g.R*mp tirati 0. Smi
l'Wi:
'M
SURFACE PEM
Filt B s
Tx Loop •4-
Ch.2 Ch.31.60.91. 11.20.9O.B1.00.3
-1.30.4
-2. 1-0.4-2.2-0.2-2.5-0. 1-2.30.5
-4.3-0.3-4.6-0.5-7.4-2.2
-17.5-3.3
1.30.31.30.9
-0.41.4-0.30.8
-1.00.7
-1.8-O.B-1.3-0.4-1.4-0.2-1.5-1.6-2.0-1.0-1.6-0.3-3.3-1.8-6.6-4,0
F*ROOE:SS i
w. . d/86
Ch.4 Ch.5 Ch.6 Ch.7 Ch.8-0.9 -1.0
0.9 -0.4
1.01.1
-1.2 -0.3 -0.8 0.9
-1.6-1.0 -0.6 -0. 1-0 ~-o. :-0.7 -0.2 -0.7-0.3-o.a0. 1
-2.4 -1.5 -4.7 -4. 0
-1.2-0.3 -0.2 -0.8
1.30.3
-0.3 -0.9-0.3 -0.4-1.30.4
-0.5 -0.5-0.7 -0.7 -1.0 -0.5 -1.0 -0.3 -0.80.4
-2.6 -1.6 -6. 1 -5.0
0.9 -0.8 -0. 1 1.0
-0.30.3
-0.8 0.9
-0.4 -0.3-0.90.2
-0.4 0.4
-0.3 -0.6 -0.7 -1.0 -0.8 -1.0 -0.7-0.8-3. 1 -2.0 -6.5 -5. 1
-0.3 1.0 0.3
-0.3-0.4-0.4
0,7 -0.3 -0.4 0.3
-0.40.5
-0. l 0.6
-0.6 -1.3 -1. 1 -0.2 -0.9 -1.4 -0.8-O.B-3.2 -1.8 -3.9 -5.0
0.9 -0,8 0.9 0.4
-0.91.0 1. 1
-0.3 -rt. J
i
0.4 0.3 0. l
-0.4 -0.6 -0.8 -0.9 -0.4 -1.0 -1.4-1.4-2.6 -1.4 -4.7 -4. 1
-0.4 -0.9 -0.4 0.30.30.4 0.6 0.4
-0.7 0.4
-0.20.2 0.4 0.4
-0.7 -1.3 -1.0 -1.7 0.0
-0.4 -1.0-1.9-2.4 -0.7 -3.5 -2.3
O
^sfe
DATAUOQQEfif F-ROCISSSSURFACE PEM
U**PI Cron* Gtophyiic* Ltd.
irt."-ft;-:
fW-' if1'*fctof*|;i-PrPir '
i
CUtnt CUMBERLAND
Grid EWANS— L.AKE
Tim* b*t*i lOmt R*mp tim*l 0.5.11 1
STATION
800E
8SOE
900E
950E
1000E
1030E
HOOF1130E
1200E
COMPONENT
Z Xz x z x z x z xx z xz x z x
Li n* 3OON
Z7S! 170 G* in t 300
Ch. 1
-12.3 -!.6 -3.7 0.8
-4.9 -0.3 -4. 1 0.8
-3.6 -0. t -3.8 -y. 7 -3.3 -0.9 -3.3 -0.2 -3.6 0.9
Ch.2
-2.9 -1.3 -2.0 -1.3 -2.6 -1.4 -2.6 -1.3 -2.0 -0.3 -2.0 -0.8 -2.7 -0.3 -2.3 -0.3 -2.9 0.2
Fil* B t L.3ME-4-
Tx Loop 4-
D* t*: 28/08/86
Ch.3
-0.7 -0.7
0. 1 -0.3 -1. 1 -0. 1 -1.4 -0.6 -0.7 0.7
-0.9 -0.8 -1.3 0,0
-0.9 O.t
-1. 1 0.9
Ch.4
-0.9 -0.2 -0.3 -0.4 -1.0 -0.3 -1.0 -0.5 -1.3 0.7
-0.2 0.0
-1.2 -0.7 -0.9 -1.2 -0.7 0.9
Ch.3
-1.8 -1.3 -0.6 -0.9 -1.6 -1. 1 -1.3 -0.9 -1.7 0. 1
-0.4 -1.1 -1. 1 -0.2 -0.8 -0.2 -0.6 0.3
Ch.6
-1.9 -0.9 -0.6 -1.6 -1.3 -0.7 -1.3 -0.2 -2.2 -I.I -0.2 -0.2 -0.8 -0.6 -0.9 -0.7 -0.2 -0.4
Ch.7
-1.7 -0.3 -0,8 -1.2 -1.2 -0.3 -0.6 -0. 1 -0. l -1.3 -1.8 1.6 0. 1
-1.2 -0.9 -0.3 -0. 1 -1.2
Ch.B
-1.4 -0.6 -1.0 -0.8-o.a-1.7 -0.6 0.9 0.0 0.3
-0.7 -0.9 -1.2 -0.2
0.0 -0.3 -1.2 0.2
O
tp.)sfe-X
DAT AUOGQER PROCESS I NQSURPACE PEM . •-••- - .. .-•. i - ". ., -' :'.:,; '
batci J Om* tlmtl 0.5ml
Lin* 3OON
ZTSi 170 G*in: 500
Fit*B i U3M2E-4-
Tx Loop 4-
28/08/86
f?U ' ————————, J?l^, STATION
Sip r 300WMsT". ^KH 250Uyijfi-'j**ij|- 200W
|S: : *sowiJtK loowr--:^-
r -^ sou
l :,v.,j; . BL
:'. ; r;V 50E
""-Si? IOOE•M'--:-il isoE
;j|;; 200E
230E
'^1111' 300ES":
COMPONENT
Z XZxz x z xz x z x z x z x z x z x z xZ'xzx
Ch. i
-2.3 0.7
-2.5 0.3
-2.3 -0.2 -2.7 1. 1
-2.5 -0.2 -1.9 0,2
-2.0 -0.3 -2.3 0.0
-2.7 -0.5 -3.4 -0.4 -3.3 -1.2 -5.0 -0. 1 -7,2-1.9
Ch.2
-2.0 0.3 -2.0 -0.2 -2. 1 -0.4 -1.9 -0.6 -2.0 -0.2 -1.6 -0.4 -1.4 -0.2 -1.0 -0.3 -1.6 -0.5 -1.7 -1. 1 - .9 - .0 - . 0 - . 1 - .5- .8
Ch. 3
-0.6 0.3
-0.7 0.3 -0.3 0.0 -0.7 -0. 1 -0.7 0.6
-0. 1 0.0
-0.4 0.2 -0.5 0.5
-0.4 0.2
-0.7 0.3
-1.0 -0.9 0. 1 0.3
-0.2-2.0
Ch.4
-0.6 0.3
-0.4 0.3 -0.4 0.2 -0.5 0.3 -0.8 -0.9 -0.6 0. 1 -0.4 -0.3 -0.2 0.0
-0.6 -0.2 -0.5 -0.7 -1.2 -1.0 -0,4 -0.5 -1.2-1.6
Ch.S
-0.7 -0.9 -1.0 -0.3 -1,0 -0, 1 -0.8 -0.4 -1. 1 -0.3 -0.4 -0.6 -0.2 -0.6 -0.5 -0.5 -0.4 -0.4 -0.3 -0.7 -1.4 -1.4 -0,3 -0.6 -1.7-1.4
Ch.6
-0.7 -0.7 -0.9 -0.6 -0.7 -1.0 -0.6 -0.6 -1. l -0.2 -l. 1 -0.7 -0.2 -0.7 -0.5 -0.3 -0.8 -0.6 -0.7 -0.3 -1.3 -1.2 -0.3 -0.7 -2.2-2.3
Ch.7
-0.3 -1.2 -0.7 -0.4 -0.2 -0.9 0. 1 0.3 -1.0 -0.5 -0.3 -0.4 0.0
-0.4 0.0
-0. 1 -0.5 -1.2 -0.7 -0.5 -1.0 -1.4 -0.3 -0.7 -2.0-1.2
Ch.S
-0.5 -0.8 -0.8 -0.8 -0.3 -0.3 -0.3 -0.3 -0.5 -0.7 -0. t -1.4 -0.5 -0.4 -0.5 -0.1 -0.2 -1.4 -0.4 -1.7 -0.6 -1.0 -0.7 -1. 1 -1.6-1. 1
o
Cron* Gvophytict Ltd.
-Tlmt b**ti 1 0m* Ramp t ifi)*l 0.5m*
^^^^^^^^^^i^i*;" A.'"i r :,,'' ' - . ' ' :v.-' - " ' . -'- . - '- - r ' " "- ' ' * ---'Y~ - .'*** ; "*'"t. ;- 1S^-;r'v':^ '.'"j-. ,..'. v rfV-" 1 ; ., . --:.;..-, i ,-* ' ; -,.:-'. .••V-y'vr-\:-,.'-^
-;^:"
CRONIE DAXAL.OC3GER F-ROCESS ISURFACE PEM
Lin* -4-OONI
ZTSi 170 G* in: 500
Fit*B * L-.-4.rvie:-4-
Tx Loop •4-
D*t*t 28/08/86
COMPONENT
Z Xz x xz x z x z x z x z x z x z x z
Ch. 1
-16.4 -1. 9-7.2 -1.8 -0.6 -4,9 -0.7 -4. 1 -0.2 -3.3
0. 0 -3.7 0.2
-3.7 0.5
-3.1 0.7
-3.2 0.8
-3.0
Ch.2
-3.4 -2. 1-2.0 -1.7 -1.0 -2.0 -0.9 -2.4 -0.6 -2.2 -0.9 -2.3 -0.7 -2.8 -0.2 -3.0 -0.7 -3. 1 -0. 1 -2.4
Ch.3
-1. 1-1. 1-0. 1 -0.9 0.2
-0.4 -0. 1 -0.5 -0,3 -0.4 -0. 1 -0.9 0.2
-0.9 0.9
-1.0 0.4
-0.9 1. 1
-0.7
Ch.4
-1.6-1. 1 -0.5-t.o0.4
-0.4 0. 1
-0.6 0. 1
-0.4 -0.4 -0.4 -0. 1 -0,6 0.3-o.a0.3
-1. 10.4
-0.5
Ch.5
-2.5-1.8 -0.6 -1.3 -0.4 -0.7 -0.6 -0.8 -0.2 -0.6 -0.8 -0.9 -1.3 -0.9 -0.2 -1.2 -1.5 -J.O -0.3 -1.1
Ch.6
-2.3-1.7 -0.7 -1.4 -0.7 -1.2 -l. 1 -0.7 -0.5 -0,6 -1.6 -0.9 -1.2 -1.0 -0.8 -1. 1 -1.4 -0.8 -0.5 -1.0
Ch.7
-2.0-1. 1 -0.7 -1. 1 -0. 1 -0.3 -0.9 -0.3 0.2
-0,7 -1.9 -0.5 -0.9 -0.3 -1.0 -0.8 -0.7 -0.4 -0.5 -0.4
Ch.8
-2.3-I.B -1.3 -1.4 -1.7 -0.4 -1.4 -0.3 -0.3 -0.9 -1.8 -0.3 -0.3 -0.4 -1.6 -0.9 0.2
-1.0 -1.3 -0.5
o
'.v.-^fe.'.- ! '
CRC""eCront G*bphyiJc* Ltd.-'-" ' '-
^^f^liplf^S : ^^mi^^^'^^^^y;f ' y^^~5^8#^g^^
:ss x
•r*'
miK?'
IP'
" -i"-'
^'\ *ij
;f- -SS-
* W'
•'"*.":- '
•vS-'
-f:..
ICLJMBEfc'f.V.- :- ' 7. ' , •f" -.•*" . ,. ' ' ' ' "
Grid ' .EV^NSTim* bat*i Ramp t i met
STATION
850E
90 OE
950E
1000E
1050E
1100E
1I30E
1200E
1230E
1300E
. --..- -.-: ' - Fi l* RL-AMD Bs L-SfME-*-
— L.AKE
10m* 0.3ms
COMPONENT
Z Xz xz xz x z x z x z xz xz x z x
Lin*soor-Jz rsiG* in!
Ch. 1
-21.3 4.3
-13.8 0.^
-7. 4 -0.8 -5.9 -0.2 -4,8 -0.3 -4, 4 -0.5 -3.30.0
-2.6 0.2
-3.2 0. 0
-2.8 0.6
170 500
Ch.2
-3.7 3.2
-3.4-0,2 -2.4 -1.6 -3. 1 -1.2 -2.2 -1. 1 -2.4 -1.3 -2.0-O.*? -2.2-1. 1 -2.5 -0.9 -2.8 -0.6
Tx Loop •4-
D*t*l
Ch.3
-3.7 5.9
-1.71. i
-0.3 -0. 1 -1.00. 1
-0.5 0.2
-0.8 0.2
-0,60.4
-0.20.3
-0.6 0.4
-0.3 0,6
28/08/86
Ch.4
-3.9 5.6
-2.21.2
-0.9 -0.3 -1.3 -0. 1 -0.8 -0. 1 -0.9 -0.4 -0.3-0.2
0. 10.0
-0.5 0. 1
-0.2 0.0
Ch.3 Ch.6 Ch.7-7.0 4.9
-3.0 0.5
-1.0 -0.8 -1.7-0.5-1.2 -0.4-1.3 -1.0 -0.3 -O.B -0.3 -0.6 -1. 1 -0.6 -0.8 -0.4
-7.4 4.2
-2.7 0.2
-1.4 -1. 1-1.6 -0.6-1. 1 -0.9-0.9 -1.2 -0.6 -1. i-o.a-0.4 -I.O -0.6 -0.8 -0. 1
-5.8 1.6
-2.2 0.4
-0.9 -0.4-1.3 0. 1-o.a
-1. 1-0.9 -1.3 -0,6 -0.6 -0.3 -0.5 -0.3 -0.2 -0.4 -0.3
-4.5 1.3
-2.2 0.3
-1.3 -1.2-1.0 O.I
-0.9-1.0 -0.9 -1.8 -0.3 -1.3 -1.6 -0.5 -0.7 -1.0 -0.7 0.1
0
'^jf^^^^ij^^^^'' n-'^si^^^'"'.'''•igs-.v.'•'•.'. " : v vr*'-"i;"^iif,,'":; ;.'^ !YI' ' :\ - -'; '-.'.r'''"' .'.''/:.'r.''':v-
CROME
Cront Gtophytlci Ltd.
—RES .
— L.AKE4; Tim* ba**l ;0mt "T-R*mp tlffl*i 0.3mt
Sife",
.STATION COMPONENT
Lin* l OOS
ZTSi 169 G* In) 300
Ch. l
FM.B i L.1SE3
Tx Loop 3
D*t*i 27/08/86
Ch.2 Ch.3 Ch.4130W
100U
SOU*
DU
30E
looe130E
200E
230E
300E
330E
400E
ZXzx2XZxzxzxzxT
xzxzxzxzx
Ch,3 Ch.6 Ch.7 Ch.8-2.4-3.9 -2.3 -2.9 -2.3 -0.9 -3. 1 -0.9 -2.3 -0.3 -2.4
1.0 -1.3 0.4
-r. 3-0.9-r. o-0,2 -2.2 -0. 7 ~l. 70.3
-1.9 -l. 1
-2.2 -3.2 -1.4 -1.3 -1.3 -1.8 -1.4 -2.0 -2.0 -1.3 -2. 1 -2.0 -2.4 -1.3 -1.9 -0.8 -1.8 -2.0 -2.4 -1.2 -2. 1-0.8 -2.2 -1.0
-0.8 -0.3
0. 1 0.2
-0.3 0.2
-0. 1 0.2
-0. 1 0. 1
-0.2 0,3
-0.6 -0. 1
0. 0 0.3 0.0 0. 1 0. 1 0.6 0. 00.8
-0. 1 0.2
-1.0 -0.4 -0. J -0.2 0.0 0.0 0. 1
-0.7 0.2 0.2 0. 1 0.4
-0.2 0.7 0.4 0.7 0.4
-0,8 0.2 0.20. 2 0.4 0.3 0.8
-2.1 -2.3 -0,8 -1.3 -1.0-o.a-0.9 -2. l -1.4-0.9 -1.0 -1.2 -1. 1 -0.9 -0.6 -0.7 -0.8 -2.2 -0.9 -1.2-1. 1 -0.8 -1.2 -1. 1
-1.9 -2.6 -1. 1 -1.3 -1.4 -1.7 -1.2 -2.6 -1.2 -1.2 -0.3 -0.6 -1.3 -1.2 -0.9 -0.9 -1.0 -2.7 -1.2 -1.3-1. i -1.2 -0.9-1.6
-0.9 -1.6 -0.3 -0.8 -0.7 0. 1 0.0
-0. l -0.8 -0.7 -0.2 -0.3 -0.3 -0.4 -0.3 -0. 1 -0. 1-o.a-0.2 -0.6-0.3-o.a-0.2-1.4
- .2- .0 - .0 - .3- .0 -1.0 -0.6 4. l
-0.7 -1. 1 -1. 1 -0.3 -1. J -0.8 -1.0 -0. 1 -1. 1 0.2
-1. 1 -1.0-0.9 -0.6 -1.0-1.8
ftMj-".- f:.,--:::-[ ' ':Vi..;:-- -,. ' '/' ' - ^- '•'•"•v'V^rf^..';v: vV • ••-•.•','.:' :'-' ~' '- ' ••..-•"•''\ ' .'-.••.••- ;;.-. -;''.'I^Y'VC -1'.
CRONE DATALOGGER PROCESSIMQSURFACE PEM
U**ri Crone Qcophyiics Lid.
CUMBERL-AMD
Grid
Tim* b*t*t lOmi R*wp tlmsi O.Smt ZTSl 169
G*in: 500Da 1*1 27/08/86
Ch.S
-3.3-2. Z
.6 . l .7 .6 .0 .3 .8 .3
-0.9-1.2-0.8-0.8-I. l-0.8-t. l-0.9-1.3-0.9-1.1-1.1-l.l-1.1
Ch.6
•3,0 2.3 .4 .0 .3 . l
.7
.5
.7
.0
.8
.4
.4
.6
.2
.3. l.7
O .0
7l4
Ch.7
-2. l-1.8-l.l-0.3-O.S-0.4-0.7-O.*-0.4-0.9-0.2-0.5-0.4
O.S-0.3-0.-O,0,2
-O.S 1.2
-0.2-0.4-0. l 0.7
Ch.S
-2.6-2. l-1.0-0.8-1.0-1.0-1.3-0.4-0.9-1.3-0.7-0.3-0.8 0. l
-0.9-0.9-0.2 0.0
-0.8 0.4
-0.7-0.8-1.3 1.5
O
W^&^^^sr'J"-. : :-:'- - ' . ;-'* :? : -'Mv"'*' ; r..^.:;!;:^ 1^:;.1 '" i.".;.. 1 ^;:'.'^':,:''- — Wfe&^&v-v - ' '. .'-y-:-: , -... ;^-.;^r: .: : :: .-v.^ ,:.-r .
CROME DATAUOGQER PROCESS I NIQSURFACE PEM
p,:,|;^.:,iKv :,,;^;^;.;.; if .,:, : ..-..Jf'*"*^.1 ."- 1 '' "v. 1 '.-'''rv*'-- ;"' 1 -'' ; :''"'
Uuri Cron* Gtophyiici Ltd.
'Clltnt CUMBERL-AND—RES
i"'.' ' Grid
Tim* b***i 10m* 0.5m*
Lin* 3OOS
ZTSl 169 G*in: 500
i; fe;
Fit*Bs L-3SE3
Tx Loop
Da t*; 27/08/86
STATION
I SOW
100W
SOW
BL
50E
100E
150E
200E- 25" "
300E
350E
400E
COMPONENT
ZXzxzxzxzxzxzxzxzxzxzxzx
Ch. 1
-13.3-5.7 -4.7-2.3 -1.8-1.9-2.8-1.7 -2. 1-1.0 -2.2-1. 1 -1.9-0.6 -2.3-0.8 -J. 30.2
-2.40.9
-i. 2-0.2-1.0-0, 1
Ch.2
-1.6-4.70. 1
-2.2 -0.6-2.0- .2- .6 - .4- .6 - .6- .7 -2. 1-1. 1 -2.0-1.3 -2. 1-1.2 -2.0-0.6 -2.2-0.9-2.2-1.0
Ch.3
-4.4-3.40.2
-0.3 0.2
-0.20. 1
-0.1 -0.40.4
-0.2-0. 1-0.30.2 0.0
-0.2 -0. 10.3
-0.51.3 0.00.40.30. 1
Ch.4 Ch.3 Ch.6 Ch.7 Ch.S-8.0-4.9- .8- . 1-0.8- .3- . 1- .5- .5- . 1-0.8- .2- . 1- .8- .0-0.4- .0- . 1- . 12.0
-0.9-0.8-0.5-0.8
-7.3-4.2- .7- . 1- .0- .2-o.e- . i- .3- .4-0.6- .0- .4-2. 1-1. 1-0. 1-0.9-0.8-1.32.6
-1.2-0.6-0.3-1. 1
-3.3-2.7-1.3-0.6-0.4-0.3-0.30.0
-0.9-0.5-0. 1-0.3-0.3-1.6-0.50.9
-0. 1-0.3-0.83.8
-0.4-0.40.4
-0.6
-4.9-3.2-1.9-1.3-0.7-0.3-1.00.5
-1.2-1.0-0.4-0.9-1.0-0.7-0.80.5
-0.60. 1
-1.4-1.2-0.4-0.90. 1
-1.7
CROME DAXAUOC3C3ER PROCESSINGSURFnCE PEM
User* Cront Qtophyilct Ltd.
Clltnt OUMBERL.AMD
Grid— L-AKE
Li rt*
PH*B i L.4-SE3
Tx Loop
S";,.'. Time b*t*i I Oms Ip;: Ramp tlm*i 0.5m*
pi* STATION
J*'-. I50WIfr'Jft 100W•7.-i soui2P^-* BLS-5"ST) 30Ey? -Jtp; J OOES&*1, . 150Ei/. 'fr 200E•'r?'",-
.f- 2SOE
j* 300E:|fj 350E-- *,
:^; 4 OOE' "'-L"'
/fc-
COMPONENT
ZXzxzxzxzxzxzxzxzxzxzxzx
ZTSl 169 Glint 300
Ch. 1
-12.3-7.9-4. 0-2.2-1.5-2.3-2.5-1.9-1.2-1.2-2. 1-0.9-1.7-0.6-1.7-0.7-1.9-0.2-1.4-0.2-1.4-0.2-0.90.3
Ch.2
2.8-3.80.6
-2.8-0,7-2.4-1.4-2. 0-1.0-1.4-1.6-1.5-I.*-1.0-2.0-1.7-2.0-1.3-2.0-1.4-1.9-1.3-2.2-1.3
D* t.: 27/08/86
Ch.3
-1.2-5. 00.6
-0. t0.2
-0.3-0. 10. 10.0
-0,4-0.20.5
-0. 10.2
-0.2-0.20. 10.30.10.2
-0,30.80.30.6
Ch.4
-2.4-5.00.4
-0.7-0. 1-0.60.20.70.30.5
-0. 1-0. 10.20.60.2
-0.90.00.50.31. 10.60.40.01. 1
Ch.5
-4.3-6.3- . 1- .5- .3- .6- .3-0.9-1. 1-0.8-l. J-0.5-0.8-0.9-1.4-2.5-0.8-0.7-0.7-0.9-0.9-1.0-1. 1-0.7
Ch.6
-4.9-5.4-1.3-1.7-1.3-1.9-1.3-0.5-1. 1-0.7-1.2-1. 1-0.7-t. 1-1.4-2.9-1.3-1,3-0.8-1.2-0.6-1. 1-1.4-0.7
Ch. 7
-5. I-3.8-1.2-0.3-0.3-1. 1-1.20. 1-1.0-0.3-0.50. 1
-0.20.00.0
-3.0-0.60.0-0.2-0.5-0.2-1.2-0.7-0. 1
Ch.B
-3.3-2.7-2.3-0. 1-1.2-0.8-1.3-1.6-1.0-0.3-0.8-0.3-0.5-0.80. 1-2.0-1.0-0.8-0.8-0.5-0.6-1.7-1. 1-1. 0
O
Uteri Crone Geophysics Ltd.
Client
CRONE DATAL-OQGER F-ROCESS X NQSURFACE PEN
Grid
RL-AMD-
-U.AKE
l Om* 0.5ms
COMPONENT
Z Xz x z x z x z x z x z x z x z x z x
-RES.
Lin* 30OS
ZTSl 1 69 G* i n i 500
Ch. l
-13.9. -B. 9 -1.8 -3.9 -2.8 -3.3 -2.2 -1.3 -2.2 -2.8 -2. 1 - .9 - .5 - .4 - .4 - , 0 - .4 - .2 - .0 -1.5
FileB * L-3SE3
Tx Loop3
Datei 27/08/86
Ch.2
-3.5 -9.6 -0.4 -4.3 -1.5 -2.4 - .7 - .4 - .6 - .5 - .7 - .8 - .8 - . 1 - .7 - .0 - .6 - .5 - .4 -0.7
Ch.3
-8.0 -9. 1 -O.B -2.2 -1.3 -1. 1 -0.7 0.7
-0. 1 0.3
-0.3 0.2
-0.3 -0.2 0.2
-0.3 -0.8 0.2 0.0 1. 1
Ch.4
-10. t -9.5 -0.9 -2.4 -1.6 -1. 1 -1.1 -0. 1 0.2
-0.3 -0.2 -0.5 -0.2 0.8 0. 1
-0.2 0.3 0.3 0.4 0. l
Ch.5
-12.2 -10.5 -2.3 -4.1 -2.6 -2.7 -2. t -0,5 -'*.9 -1.5 •0.8 -J. 1 -1. 1 -0.8 -0.8 -1.2 -0.8 -1. 1 -O.B -0.4
Ch.6
•11.1 -9.3 -2.2 -4.0 -2.5 -1.2 -1.9 -0.6 -1.0 -0.5 -0.6 -1.7 -1.0 -1.0 -0.7 -1.9 -1.2 -0.8 -1. 1 -0.9
Ch.7
-8.6 -6.6 -1.0 -3. l -1.5 -1.6 -1.2 0. 1
-0.8 -0.4 0.0
-0.8 -1.0 -0. 1 -0.3 -0.8 -1.3 -0.3 -0. 1 -1. 1
Ch.8
-7.4 -4.8 -1.9 -2.1 -0.9 -2.0 -1. 1 -0.4 -0.8 0. 1
-0.9 -1.2 -0.9 -0.7 -0.7 0.7
-1.4 -0.2 -1.0 -1.6
O
.•'"V^S^WP^-Vi' • 3!1H! : f *^*1
CROME DAXAL-OGGER F"ROOESS IMC3SURFACE PEM
^^•'Cr^nr.Qtophym'l.ci Ltd.|cilwt^:"- ; ''v.^':"' ;ICUMBERL. AMD—RES, -PH*
B t
v Tim* bat*! 10m* dr -'R*mp tim*: 0.5m*
Lin* (S.OOS
ZTSl 169 Glint SOO
Tx Loop3
D***! 27/08/86
STATION COMPONENT
Z Xz x2 Xz x z x z x z x
Ch. 1
-8.3 -7.7 -3. 1 -2.7 -1.6 -2.8 -1. 1 -2.6 -2.2 -1.9 -2.7 -1.3 -1.9 -1.7
Ch,2
0.9 -6.3 0.0
-3.0 -0.3 -2.7 -0.8 - .8 - .3 - .8 — ( 7 - .4 - .7 - .0
Ch.3
-2.3 -6.2 -0.3 -2. I
0. 1 0.2 0.2
-0.2 -0.6 -0.7 -0. 1 0.5
-0.4 0.3
Ch.4
-4.4 -5.3 -1.0 -1.8 -0.2 -0.4 0.2
-0.1 0.2
-0.2 0. t 0.3
-0.2 0.1
Ch.3
-5.8 -6.9 -2.1 -3.5 - .0 - .2 -0.8 ** * 3- . t- . i- .5 - .4 - . 1 -0,1
Ch.6
-5.7 -5.9 -2.2 -2.6 -0.9 -1.0 -0.8 -0.4 -0.8 -0.8 -0.2 -1. l -0.9 0.0
Ch. 7
-4.5 -4. 1 -2.2 -1.9 -0.4 -1.0 -0.5 -1.7 -0.8 -0.8 -0.7 -1.4 -0.9 -0.2
Ch.8
-4.1 -4. 1 -1.0 -1.4 -1.2 -0.9 -1.0 -0. 1 -1.0 -1.9 0.8
-l.B -1.0-o.a
o
X MQ
Ch,4 Ch.5 Ch.6 Ch. 7
DAT AL-OC3C3ERSURFACE PEM
*;v- "t - "' .v . . .- ,,.'; : t .-,,- : ,-- -v ,- :,Crbn* Gvophyt let Ltd.
Cll*nf CUMBERL.AMO— F?ES
Lin*S O OS
Tim* b*i*i 1 0m* Ramp timcl 0.5ml
•.^;^(M
Ch.S
Zxzxzxzxzx
-i.a-2.6
0. 1-1.9-0.7-1.7-1.0-1.3-J. l-1.9
0.9-2.3-1. t-0.8-0.6-1.7-1.2-2.2-1.2-1.2
0. 1-0.8-J. 1
0. 10.2
-o. a0.30.3
-0. 10.7
-0.9-0.4-1.3-0.10.6
-C. B0.50.20,3
-1. 1
-2.3-1.9-2.3-o.a-1.2-1.3-0.7-0.9-1.0-0.6
-2.5-2.7-2.6-0.9-0.8-1.6-0.3-t. 4-0.8-0.7
-1.5-0.4-1.4-0.8-0.40. 1
-0.7-0.3-0.4-0.3
-2.0-1.3-0.3-3. 1-1,7-0.6-l. 1-1.4-0.7-0.1
••I'8?'-':' " '•'•'•'i"- i..,V'iJ*:'K' ll "~ :-.!V' '
jp;Ui*ri Cron* G*ophytic* Ltd.
Grid
CROME DATAL-OQGER F*R:OCESS INIQSURFACE PEM
RI— AMD— RES .
Lin* — LAKE ^OOS
10m* 0.5m*
COMPONENT
Z Xz x z x z x z x z x z x z x z x z x
ZTSl 169 O* in! 500
Ch. 1
-l.B -2.0 -0.9 -2.5 -1.0 -2.9 -1.2 -2.4 -1.3 -1.6 -1.0 -0.6 -2.3 -0,6 -1.8 -2.6 -1.9 0. 1 -0.8 0. 1
Ch.2
-0.* -1.9 -0.4 -0.5 -1.3 -0.9 -I. 1 -2.3 - .4 - .0 - .7 - .6 - .7 - .7 -2.0 -0.6 -1.7 -1.3 0.3
-0.5
Fit* B t U91
Tx Loop3
SE3
D* 1*1 27/08/86
Ch.3
-0.8 -1. 1 0.5
-0.8 -0.2 -0.2 0.7
-0 2 0.4 1.2
-0. l 0.8 0.3
-0,8 0.2
-0.6 -0.3 0.4 -0,4 0.7
Ch.4
-0.3 -0.1 -0.2 -0.6 0.5
-0.2 0.2 1.0 0.2
-0.9 0. 1 0. 1 -0.2 -0.2 0.2 X 6 0.2 0.2 -0.3 1.2
Ch.3
-1.8 -1.6 -1.5 0.5 -0.6 -1.2 -1.0 -0,2 -0.4 0.7
-..0 -1.6 -0.9 -2.0 -0,6 -1.5 -0.5 -1.4 0.5 0.4
Ch.6
-1.8 -2.5 -1.5 -2.0 -1.3 -1.8 -0.3 -1.4 -0.9 0.0
-1.4 -1. 1 -1.2 0.0 -0.8 -1.3 -1.0 -0.3 0.3 0.7
Ch.7
-0.8 -2.3 -t. 1 -l.B -l. 1 -0.7 -0.5 -1.5 -0.5 -0.6 -0.8 -O.B -0.3 -0.8 0.0
-1.5 -0.8 -0.5 -0.3 0.7
Ch.B
-2.0 -1.6 -2.0 -1.3-1.4 0.9
-0.8 -0.2:.o
-1.0 -1.7 -0.5 -0.3 -1.0 -0.2 -4.1 -0.4 -2.4 -0.2 0.2
O
SfSs^ i*W#tit.-S*3v*.:-;" r-:
Uf*pi C rone Gtophysfcs Ltd.
CROME DATALOGGER PROCESS INQ SURFACE PEN
( Cllvnt CUMBE
Qp i dEVAMS
Tim* basal R*mp timtt
STATION
250V
200V
, 130V
IOOW
K- 30V .R - 23w3fe-4" - 25E
^ 50E
S" 100E
S, 130E
pT\ 200E
K/ 250E
mj. 300E
RUAMD-
— L.AKE
10ms 0.5ms
COMPONENT
Z Xz x z x z x z x z x z x z x z x z x zxz xz x z x
•RES.
1 OCX
ZTS: li G*ini ;
Ch. 1
-7.6 2.3
-2.8 -1.0 -2.6 0.8
-2.6 2.0 0.3 3.1
-0.2 0.2 0.3 1.3
-1.6 2.6 0.9
-0.2 -0.8 -0.3 -0.8- .5 - .2 - .7 - .9- . 1- .6 - .5
DS
7)00
Ch.2
-4. 1 -1.9 -2.4 -2.5 -3.0 -1.3 -2.4 0.8
-1.0 -0.7 -1.0 -0.4 - .3
.0 - .2 - .3 - .4 - .3 - .3 - .2 - .7-3.8 -2.1 -3.7 -2.4 -2.3 -2.3 -1.8
Fll* Bt L-
Tx Loop-z.
Dat*t 2
Ch.3
-2.5 2.1
-0.2 1.0
-0.7 2. 1
-0.3 3. 1 0.7 1.3 1. 1 2.8 1.4 0.6 0.8
-0.2 1.2
-0.8 0.7
-0.6 1. 10.4 0.3
-2.3 0.2 0.3 0.4 0.3
1 OSES
6/08/86
Ch. 4
-3.0 1.7
-0.2 -0.1 -0.3 1.2
-0.3 2.3 0.8 0.1 0.8 1.3 0.8 1.5 0.8 1.6 1. 1 2.0 0.4
-0.41.3
-0.1 0.8
-0.7 0.3 0.2 0.8
-0.9
Z
Ch.5
-4.3 .3
- .4 - .4 - .7 - .3 - .1 - .4 -0.9 -2.3 -0.6 -1.7 -0.7 -0.8 -0.9 0.3
-0.3 -2.9 -1.2 -0.3-1.1 -0.9 -0.6 0.3
-1.3 0.7
-1.0 0.1
Ch.6
-4.4 0.6
-1.6 -1.7 -1.4 -4.4 -1.4 -3.2 -1.1 -0.2 -1.0 -3. 1 -1.1 -1. 1 -0.9 -3.3 -0.9 -0.6 -1.3 -0.4-0.9 -1.6 -0.8 0.2
-0.8 -1.4 -0.3 -0.3
Ch.7
-2.8 1.6
-0.9 -1.4 -0.9 -0.8 -0.7
1.0 -0.4 -0.9 0.4
-0.8 -0.1 0.3
-0.7 0.4
-0.2 0.7
-0.4 0.3
-0.2 -0.8 -0.3 -2.3 -O.I -2.9 -0.9 -2.9
Ch.8
-3.40.0
-0.9 0.7
-1.3 -0.7 -0.7 0.4
-t.l -0.3 -0,9 0.8
-1.1 -4. 1 -I. 1 0.2
-1.4 -1.8 -0.3 0.3
-0.9 -1.0 -0.6 -t. 2 -0.1 -0.1 -0.3 -3.8
s"' '-*.u
ilMlife^ r- :' ' i 'W' : v. .-^r^:^^^''.^'-'^:':'-:- ' vT-'.':' :^' ' — "Y^^^./':^t?riSr--•fy fe* , -.;?jgfeftZZ;-:3:*. - vt^;^-\VP^tf ''--- " l.^iS^r-'^.^fi^ffefii-. .•f-;-.•'iVw; --V- ' ••'•/••^• rii'if!iviv-;i .-.^v^vv^,;^fe^^v-,'
Tlrni b*s,*i R*mp tim'ci
10m. O.Sint
ZTSJ 167 Gtini 500
Tx Loop ZZ
D*t*l 26/08/86
STATION '
250W
W 200W. .^--S*; V .
l SOW:"'S*-i :- ,;y loow"r) sow
25W:-"\;*
'Jj*u BU ~-i'-.f*'-W 23E
f-i-Ssj/ 50E
100E
: 1SOE
200E
lip-- 25oE^il''' 300E.'(S**a A' ^f
COMPONENT
ZXzxzxzxzxzxzxzxzxzxzxzxzxzx
Ch. 1-7.2-4.2 -3.6-1,9 -6. 7
l. 1 -6.36.6 3.812.2 7.25.7a. 32.98.0
-2.3 6.5
-4.6 3.6
-3.8:.2
-3.4 -0.7-2.6 -1.5-2.9 -1.6-2.7
Ch.2
-2.3-3.8 -3.5-3.4 -5.4-0.9 -5.44.2 1.56.5 4.03.94.70. 15.2
-0.5 3.4
-1.9 1.4
-4.4 -0.4-3.0 -1.5-3. 1 -1.7-2.8 -2.9-2.0
Ch.3
-1.2-1.4-1. l-1.4-2.4
1. l-2.0 3.6 2.3 5.7 4.0 3.5 5.9 1.2 4.7 0.9 3.7
-0.3 2.9
-0.9 1.2
-0.7 0.9 0.3
-0.2-0.4 0.3
-0.8
Ch.4
-1.6 1.2
-0.5 0.3
-1.6 1.9
-0.6 4.9 2.2 3.6 2.9 3.1 2.8 2.8 3.7
-1.7 2.0 0.7 2.2 0.2 1. I 0.8 0.7
-0.1 0.8 0.3
-0.2 0.3
Ch.3
-3.9-2.2-2.1-1.0-3.6-1.3-1.9-1.2-0.2 0.3 0.2
-0.7 0.4
-1.6 0.7
-0.3-0.4-0.8-0.5-1.2-0.8-1.4-0.7-3.6-1.3-1.0-0.7-1.2
Ch.6 Ch.7 Ch.8-3.8-4. 1-2.3-0.2-3.0-1.3-1.70.9
-0.8-0.6-0.9-2.6-0. 1-2.9-0.4-0.9
0.0-2.3-1. 1-3.4-1.6-0.1-0.7-2.2-1.7-1.7-1.2-0.2
-2.6-0.7-0.7-0.2-0.60.2
-1.0-1.00.41.40.31.00.3
-1.3-0.4-1.2-0.2-0.3O.I
-1.0-0.2-2.7-0.2-0.9-0.9-0.2-O.S-0.3
-3.4-0.8-1,8-1.3-1.0-2.6-2.0-0.1-1.20.3
-2.0-3.0-1.0-1.6-0.3-1.5-0.8-2.7-0.3-1.3-0.6
1.1-1.6-1.6-1.0-3.2-0.40.1
Uf.n
. . CUMBERUAMD-RES .
V0 -;-•••••' : ;-'V.:-"y CROME
.' ', " '*V''.j V.' ' . ' ' "'
Cron*,G*ophytlci Ltd.
DATAL.OC3GER f^ROCESS I MQSURFACE PEM
Fil*B i L. l 2SE2
"Grid EMANS- L-AKEm-.--
WttJ Vi?.
S&fc:?*is-•S---
\J *
:- :?- ! -j*Vl)1; t;. .f':'P,i.B ' .;'.
*'"
*- -..S.-'.s*
Tlw* btitl tOmtf?*mp tlm*l 0.5ml
STATION
230U
200W
1SOW
100V
SOW
25W
BL
2SE
50E
100E
I50E
200E
230E
300E
COMPONENT
ZXzxzxzxzxzxzxzxzxzxzxzxzxzx
Lin* 12CX
ZTSI 16 G* in) I
Ch. 1
-11.6 -2.2 -8.2 -4.3 -9.3 -2.9
-14.8 4.4
-0.2 24.6 17.6 12.3 19.0 2.9
14.7 -1.9 10.3 -3.4 4.6
-3.2 1. 1
-3.2 -0.3 -3.2 -1. 1 -2.4 -1.4 -0.7
DS
7 00
Ch.2
-8.3 -2.7 -6.9 -6.2 -7.8 -3.2
-10.9 3.2
-1.3 13.9 9. 1 6.9 9.9 0.8 7.'
-1 - 3.3
-3.0 1.8
-4.7 -0.5 -4.3 -1.4 -3.3 -2.2 -3.8 -2.8 -2.3
Tx Loop2
C*t*i 2
Ch.3
-7.7 0.0
-4.6 -4.4 -3.7 0.7
-3.2 3.3 1.0
11,0 7.0 4.6 6.9 3.7 3.8
-0. 1 3.6 0.3 3.2
-0.8 1.2
-1.6 0.8
-1.2 0.2
-1. 1 0.7 1.8
6/08/86
Ch.4
-9.0 0.2
-4.3 -1.3 -3. 1 -0.2 -2.3 2.9 0.4 6.6 4.0 2.8 4.6 1.0 3.0
-0.3 3.0
-1.4 2.4
-l. 1 0.8
-1.4 0.9
-1.6 0.7
-0.6 0.2 1.2
Ch.3
-11.6-0.3 -6.4 -4.2 -3.3 -0.7 -2.8 -0.2 -1.0 3.0 O.B 0.6 0.7 0.8
-0.2 -1.3 0.4
-0.4 0.2
-1.6 -1.3 -2.6 -0.8 -1,3 -l.l -0.6 -0.8 -0.2
Ch.6
-10.7 -2.3 -6. 1 -4.2 -3.4 -1.4 -1.7 0.0
-1.3 -3. 1 -0.3 -0.7 -0.4 -0.8 -1.3 -3.3 -0.4 -1.7 -0.8 -1.3 -1.3 -1.3 -0.8 -2.3 -I.I -0.5 -1.3 -1.7
Ch.7
-9.3 -0.3 -3.1 -3.3 -1,9 -0.7 -0.3 -0.3 -0.7 -1.9 0.4
-0.7 -O.I 0.4
-0.7 1.2 0.0 0.3 0.2
-0.7 -0.3 -1.6 -0.7 -0.7 -0.3 -1.2 -0.4 0.2
Ch.a
-B.O -1.2 -3.3 -1.0 -2.3 -0.7 -1.3 0.3
-0.9 -0.6 -1. I -0.9 -0.9 - .2 - .7 - .6 - .7 - .4 rO.3 -1.1 -0.9 -0.3 -0.4 -1.4 -1.0 -2.7 -1.1 -0.3
O
iii||pffw^;::: '--^t^'^tyj*-,??.*/'?'; 1..^ -' •••.-.'••'.' ' .V ' '"" ' .'f'
Cron* G*ophyilci Ltd.
.. .. pUMBERl-AMD—RES,
CROME DATALOGGER F*ROCISURFACE PEW Z MO
FM*
IH?.r-erid . . lg:?-.- EVAMS— LAKE
f.|fr
if ;
J;1'f ,v ,-*v's r:l^'jj&v-9{jjj.
liwC-j^p-;.-..•'jjj:.C'M*'-±'j.'
Tim* tttti R*mp t i met
STATION
250W
200W
150W
100V
SOU
25U
BL
25E
30E
100E
130E
200E
230E
300E
10m t 0.3ms
COMPONENT
Z Xz xzxzxzxzxzxzx zxzx'z xzxz xzx
Lin* 1 3OOS
ZTSiG* Int
Ch. 1
-13.5 -7.9 -7.9 -4. 1 -6.3-1.4 -6.5
1.4 -6.69.0
-0.27.2 2.25.0 1.9
-0.9 1.60.9 0.0
-2.9 -0.9 -2. 1 -3.2-1. 1 -1.4 -1.8-1.3o.a
J 67 500
Ch.2
-10.8 -11.2 -3.0 -3.1 -4.7-2.6 -6.40.2
-6.36.6
-0.54,0 0.80.2 0.8
-0.9 -0.2-0.3 -0.9-2.8 -1.9 -0.3 -1.6-3.3 -2.9 -2.6 -2.6-2.3
Tx Loop2
Da t ci
Ch.3
-11.6 -11.3 -O.o
t). 7 -1.6-0. 1 -1.61.3
-2.6P. 4 1.34.8 2.33.3 2.62.1 1.91.4 1.30.2 0.8 0.2
-0.4-0.2 0.3 0.7 0. 10,2
26/08/86
Ch.4
-12.3 -9.9 -0.3 -0.3 -1.4-0.1 -1.3
1.0 -1.22.90.83.3 1.91.9 1.9
-0.4 1.20.4 1.60.9 0.2
-1.1 0.4
-1.4 0.3
-0.3 0.30.3
, I .5
Ch.5
-l*.7-14.2 -1.9-1.4-2.8-0.9-2.3-0.6-2.6 0.4
-t. 0.
-0.4-1.9 0.0
-1.3-0.9-1.0-0.3-1.3-1.6-4.9-1.2-2.1-0.9-0.3-1.3-1.7
Ch.6 Ch.7 Ch.a
-12.7-11.3-1.9-3.3-1.6-2.3-1.7-2.6-2.30.0
-1.2-1.9-0.31.20.20.3
-0.2-2.1-0.6-2.3-1.4-2.0-1.1-1.9-0.6-1.4-0.8-1.4
-9.0-8.3-0.9-0.3-1.2-1.60.0
-0.1-1.20.8
-0.21.60.20.80.2
-0.1-0.6-0.2-0.2-1.30.1
-0. 1-0.4-0.9-0.30.8
-0.1-0.4
-6.3-7.7-1.8-2.3-2.3-1.2-2. t-2.9-1. l-1.4-1.3-0.8-1.0-2.0-0.3-1.2-i.;-1.7-0.6-1.3-1.1-2.0-0.4-2.7-0.9-2.3-0.7-1.2
•P" Cron* G*ophytlct Ltd.
bat* t l Oms RAMP t i m* i O.Sm*
CROME DA.TAUOQQER RROCSURFACE PEH
FM*B s L-l 4-SE2
SS I MO
Lin* 1-4-OOS
ZTSi 167 G* in) 500
Ch. 1
-37.3 -2.7 -7.4 -0.9 -6.5 -1.5 -3. l 0. B
-2.9 -0.2 -1.3 0.8
-2.6 -0.9 -0.4 -2.3 -1. 1 -2. 1 0.9 0.6 1. 1 1.8 0.4 1.6 1.0 0.3 1.4 0.0
Ch.2
3.1 -4.3 -2.3 -1.9 -4.8 -4.7 -3.0 -1. 1 -2.6 -0.6 -3.0 1.3
-2.8 0.2
-1.3 -0.2 -1.2 -1.0 -1.0 0.2
-0.4 -0.9 -0.9 -1.2 -0.8 -0.8 -0.7 -0.2
Tx Loop2
D*t*t
Ch.3
2.7 -1.8 -0. 1 -1.0 -2.7 -2.9 -0.6 0.6
-1. 1 0.9
-0.7 3.8 -0.4 0.9 1.4 1.8 0.9 1.5 0.6
-0.8 0.8
-0.4 0.9 0.5 0.2 1.6 0.9 0.3
26/08/86
Ch.4
-0.3 -1.2 -0.9 0.5 -2.9 -2.4 -0.4 -0.5 0.0 1. 1
-0.5 0.6
-0.5 1.6 1.2
-1.6 1. 1 0.2 0.3 0.0 0.8 0.5 0.8 0.9 0.7 1.2 0.8 1. 1
Ch.5
-4.0 -4.9 -2.9 -2.0 -4.3 -4.6 -2.0 -0.2 -1.7 -0.5 -l.B 0.4
-1.9 0.7
-0.5 -2.3 -0.5 -0.6 -1.4 -1.9 -1. t 0.3 -0.4 -0.9 -0.7 -1.7 -0.7 -1.6
Ch.6
-4.7 -4.2 -2.8 -1.0 -3.6 -4.0 -1.2 -1.8 -2.0 -1.3 -1.3 -0.8 -1.6 -0.3 -0.7 -0.4 -0.6 -1.1 -1.2 -2.6 -0.4 -0.2 -0.7 -2.7 -1.2 -2.4 -1. 1 -1.5
Ch. 7
-4.2 -6. 1 -1.8 0.6 -2.6 -1.2 -0.4 0.4
-1. 1 -0.6 -1.4 -1.3 -0.4 1.0
-0.3 -1.7 0.4 0.6
-1.7 0.2 -0.2 0.0 -0.5 -0.2 0.4
-1.5 -0.3 0.5
Ch.B
-3.3 -7.3 -2.6 -1.4 -2.9 -3.8 - .9 - .6 - .6
.2 - .2 0.0
-1. 1 -2.3 -1.2 -0.4 -0.3 -2.2 -0.4 -2.5 -0.4 0.3
-0.7 -2.0 -1.6 -0.5 -0.4 -1.3
O
t*
m--v* ; ' ' "f-'
.Cront Gtophyilci Ltd.
CROME DATAUOQQER PROCESS X NOSURFACE PEM
FM*Q * L. l 9SE2
IEVAMS
Tim* but) Ramp tlm*l
. v STATION
*P-
•;S, M.-^ b&Jv^;:; v-
"-Vfi-
l*fcr';rffe,~ S&:•' ?*,** '
" -rf: "- -V
t
i..i! s--?-.
MS?";
S-
900W
B30V
aoow
730W
650W
600V
330V
300V
430V
400V
350V
250V
200V
130V
100V
73V
30V
25W
BL
25E
— UAKE
10m* 0.5m*
COMPONENT
Z Xz xz x z x z x z x zxz xzx zxz x z x z x z x z x z x2xz x z x z x
s Lin* 13OOS
ZTSi 167 Q*lni 500
Ch. 1
-3.31.8
-3.6 3. 1
-8. 1 1.4
-23.6 2.3
15.3 4.4 8.0 1.4 9.20.8 6.6 1.3 7.31.2 9.21. 1 7.0
-0.2 -26. 1 -3.8 -8.6 -3. I -3.2 -1.9 -2. 1 -1.3 -2.6 -0.2 -1.3 -1.2 -0.3 -2.0 -2.2 -2.3 -0. 1 -0.6
Ch.2
-1.40.3
-l. l 0.6
-1.0 -0.2
1.9 -0.3 -0.3 3.3
-1.0 0. 1
-0.30.0
-1.0 0.0
-0.31. 1
-0.61.3
-l.fc- -0.7 -4.9 -3.2 -4. 1 -6.0 -1.0 -0.3 -2.0 -1.2 -1.9 -1.2 -1.4 0.4
-1.6 -0.2 -1.7 0.3
-0,3 0.7
Tx Loop 2
Datvt 23/08/86
Ch.3
-0.6 1.2 0.2 1. i
-0.9 -1.0
1.2 0. 1 1.2 3.4 0.3 0.3 1. 10.9 0.2 1.3 1.22. 1 1.12.3
-0.6 0.3
-7.3 -4.3 -4.3 -3.3 -0,3 -0.7 -1.3 -0.3 -1.2 -0.3 -0.9 0.0
-0.5 -0.3 -0.7 0.9
-0. l 0.3
-0.3 0.9
-0.3 0.2
-1.0 -0.6 0. 1
-0.8 2.4 3.7 0.6 0.41.7 0.4 0.3 1.2 1.72.61.5 2.2
-0.3 0.4
-9.6 -4.9 -3.4 -6.4 -0.3 -1.2 -1. l -0.3 -1.2 -0.8 -0.7 0.2
-0.7 0.4
-0.8 0.0
-0. t 0.3
Ch.3
-0.8 0.3
-0.3 -0.3 -1.6 -1.3 -1.0 -1.1
2.1 3.2 0.2
-0.81.4
-0.1 0. 1 0.71.6 1.31.31.8 0.0 0. 1
-11.3 -6. 1 -6.3 -6.1 -0.6 -0.7 -1.4 -1.2 -1.3 -1.2 -0.6 -0,7 -1.1 -1.3 -0.6 0.6 0. i 0.3
— —— —— — •™Ch.6
-0.8 -0.3 -0.2 -0.9 -1.7 -1.4 -1.3 -2.0
2.1 3.2 0.4
-0.91.6
-0,8 0.3 0.71.7 1.21.4 1.6 0.3
-0.8 -10.9 -3.8 -6.3 -3.9 -0.4 -0.3-:. i-1.8 -1.3 -1. 1 -0.8 -1.0 -0.7 0. 1
-0.8 -0. 1 -0.2 -0.3
Ch. 7
-0.8 0.6
-0.2 -rt. 4 -1.3 -0.9 -1.6 -1.2 0.2 2.2
-1.2 -1.3-0.3 -0.7 -1.4 0. 1
-0.3 0.9
-0.3 1.9
-0.9 -1.4 -9. 1 -3.3 -4.9 -3.3 -0.3 -0.9 -1.0 -0.7 -1.2 -0.1 -0.3 0. 1
-0.4 -0.9 -0.9 -0.3 -0.8 0.3
Ch.8
-0.6 0.6
-0.7 -0.7 -1.3 -0.6 -1.4 -1.6
t.O 1.2
-0.2 -0.20.7
-1.0 0. I 0.01.2 0.90.7 0.6 0.8
-1.6 -3.2 -3.4 -4.0 -2.2 -i. 2 -1.3 -0.7 -1.5 -0.9 -1.3 -O.I -0.3 -0.3 0.2
-0.3 -0.9 -0.7 -1.3
0
-^
j
t. "0-5*0-9*1-C*0-1*0-t '1-ft-t *0-t'O-5*0-6*0-
t*0E*0-E*0-I *t-Z'L-Z*fi-0*00*t1 *t-c*o1*1-8*0-Z'O8*0-O'O0*10*0
8*0Z't8*tE '9-1*11*2-6't-
8*MO
ft-2*0-0*1-9*0-E'O
**t-0*0E'O
0*1-0*1-0*09*0-2*1-2*0-0*21-
8*00*02*0-
6*0-0*1-9-02-0-E*01*1-fO
9*09*09'*C*6-fl 6*2-VI-6*1-
*"0
2*0-C*0-8*0-6*0-2*0-1 *0-6*0-1*0-Z*09*0-fi*0-6*0-**0-
I *1--i*0-z *ct—Z*Z1-0*t9*1^f *0^L *0 Z'O-z*oz*ofi*01 *0-2*06*0/•o8*1E*Ztt' i.fi'tl-S*2**E-^ "t —r *z-9*M3
t*0-^'0-E*t-**0-E*0-Z*0-6*0Z*0**0-**0--1*0-8*0-2*1-0*t-t'Q-2*0-B*9l-Z*EI-9-09-JZ*0**09*0-2-0-9*0t'Qt*0-0*0fi'1**0L *\6*18*8** 1 1 —Z*E2*E-2*2-^•1-
fi'MO
Z*0-**0-1 *t-9*0-* *0—**0-9*1-E*0-I *0^1*0-t -o- 2*1-0*02*0-8*0-E*0-E*9l-0*Z1-2*1t *1i. *00*08*0E*0-2*19*0Z*0E*0-E*IE'O2*Zi'\0*01B*6-E*E9*2-8*t-E'l-
**-0
98/BO/S2
1 'O-1*0-E'l-6*0-t '0Z'O-fO-fO-* *0-1 '0-9'0-i. *0-i. *0—0*0E*0-Z'O-O'fil-fi*6-L ' l9*09*02-0-E*0**0-* ' 1 0*09*06*0-8*12-0-S*Z9-0Z*68-fi-?*E9*1-2-0-9*1-
E*MO
• •T,*a
- - z -WT xj.
8M-O'Z-8*Z-i'\-fO-0* -E' -8* -0* -Z' -t * -fi' -t * -Z1 -t* -**0-E*E1-L *9-0*t0*1-2*0i. * 1-9*0t *Z-**00*1-L *00*Z-Z*l8*1-0*29*0-C*8i 'E—fi 'Z6*1-> *1S*l-
2*MO
9*Z-I *Z-6*1-S*I-L ' i —L "0—2'Z-8*1-**0-9*1-f *0-8*1-8'0-z*z-E *Z-9'9-Z'El-t *EE-i'O-
i. *tl S'Ot'OlZ*I-1 *ZI 9*1Z*E1I *l0*EIE'Z6*E16*E6*61i. '6 z*ss- 6*t6*91-E*0-8*8-
I *MO
OOB i"l*949t tSiZ
SOO^l T•an
xzxzxzxzxzxzxzxzxzxzxzxzxzxzxzxzxzxzxZ ' '
INBNOdMOO '
- n^j^v , , ""''''•c'^***!1 -^•"a^i^T^-s ,'-';. .^'3'^ .'.v
' '^
352 -Mf3
T8 --If
ftfiZ Bit 'M•^
ftOS ;S;"*
rtOOl 1
ftOSl 1
ftOOZ -ff- *~~*
ftOBZ :g'•-'fi
ftOSE ;l?i noot i| .:-:fi?
nos* ; JftOOS "If "-'3nocc /Sr v3
rt009 ^"V
ftOC9 ^|j
.nos^ -.^J
^ ' ' ' ' -" iSaMSB m™""*m
v : /.\;-^.--;^
"p;.*^^M
sjpsiV^'s^
I~l SQ •lid
ONM3d JdSOOOTo'X'o'a
' 'f-'--- .-' - ' r'~ ' l"- '-'-'
toff's •."-••fr^sfess.ijvK;V,:^^^p^^.
CRONE DAT AL-OQQER PROCESS Z MQSURFACE PEM
Cront G*ophy*lci Ltd.'Xit^^'o'MKV'' --''
^CUMBERU AND—RES .Grid '.':\''-'' ; ':. ,V,''^-'-'; ,: Lin*
S—L-AKE 1QOOS
FI l.L.1BSE2
Tx Loop2
HP?'Tlw* b*i*t lOmt jlgfe ,; R*(*P t i m* i 0 . 5m*
M^V STATION
2SUWHfc 2oowIK'*''Ijg.; . 150W-^fe* :||F:' lOOUfeg
IF) 50W
yy.3f . 2SW/;^
:- BLN25E
50E
V 100ET.."-*-
"'K 150Eiv"; V 2ooE..i-,-B' Z*'*. ' .^fcj
Mf. 300E3t-•4-
:-'C:
COMPONENT
Zxzxzxzxzxzxzxzxzxzxzxzxzxzx
rrsi 167Glint 500
Ch. 1 Ch.2
-10.4-5.0-3.2-0.3-1.00.2-1.4-1. 1-1.6-0.6-1.7-0.4-1.20.2
-2.2-3.5-2.4-0.2-1.4-0.5-2.2-1.5-3.5-1.2-3.02.0-3.21.0
-2.2-9.3-1.4-3.2-1.3-1.7-2.0-1.9-1.6-0.5-1.5-0.7-1.9-0. B-2.5-1.4-2. B-3. 1-1.4-2.3-3. 1-1. 1-2.9-0.9-3.0-2.3-3.0-1.4
Da tt) 26/08/86
Ch.3 Ch.4
-0.8-7. 10.71. 1
-0.21. 10.00.40. 10.20.4
-0.70.2
-0.20.01.0
-0.50.30.21.0
-0. 1-0, 1-0.51. 0
-0.30.8
-0.21.0
-1.6-7.80.21.20.70.70.20.50.4
-1.40.1
-0.50. 10.3
-0.71.2
-0.4-0.80.81.0
-0.21. 1
-0.21.5
-0.42.30.51.0
Ch.5
-2.9-9.6-1.0-1,2-0.8-1.2-1.00.8-0.9-0.3-0.90.9-1.2-1.6-1.4-0.9-1.2-0.4-0.8-3.2-1.2-2.2-1.0-0.3-0.9-1.3-0.9-1.2
Ch.6
-3.3-9.9-1.3-1.5-0.7-0.5-1.2-1.4-0.60.1-0.3-0.9-0.8-2.3-1.0-0.5-1.4-0.4-l. 1-1.0-1.3-1.4-0.8-3.5-1.2-1.9-1.6-1.0
Ch.7
-1.3-6.4-0.3-1.3-0.80.4-0.5-1.3-0.7-2.1-0. l0.2-0.6-0.2-0.5-0.8-0.50.2-0.5-2.2-0.71.4
-0.9-2. 1-0.50.2-0.7-0.4
Ch.8
-2.6-4.7-1.0-1.7-0.8-1.9-0.8-1.0-0.30.2
-0.8-1.9-0.9-2.8-0.9-1.6-1.3-1.6-0.9-3.0-1.2-1.3-0.6-0.5-0.9-2.6-0.7-2.8
Q
ir-i.••i
,"'v'.
'•X"'
f'/.-V k, ' .
;St'
' .
"';'4r'"" 'if-v' '^5
L' ;- '
^,7/jv"', '
"
- i/.," -
,-.k-. '
-
-A'-1
' -•;V'-''
;;0 :;
'
- J-
*.
''i^ '
i'ii'i~ iVV
*':/,
B-V
j^ '
,'^.; i---'''•\'-'~--'-1-'' ---"f.X
Vv '*
"" ~
;?i-V ' -"' "-' "'
;^P
?^'"
:": "'
^t V
: -'
m-P*-
•Jsife^;^ ;-,*S
2a
; .'-f '..' -.
' •*gjH
fc;5'.fi* " "
'
fflH^I^
J,
(3ZH(00)HI00K "
(L HI
S (f)
iK
fr ?
HI ^
a
R05
J 8
-0
s --
J ^
OS iZffl
i?" 5
1 ^•J liX
K
(.05
QHI (D
oZ
0 ±8
0 0
-.o:
. Sfr s-
0 .
W j'*
fc5n
I.I
** u
* 1
u
1i; r Q
HI'
'- " -x-..---' -7
'- w
'---- ;
1 '
;*-.'.-
, ' i
r..'*
..-'
r .
'
:--:r:|::r:X t;,C
:;{gj;"-O
.": J
?T: ;' J'-, o
-'••^rff^yi;'"!
: 6--fe-ffl^2
^sj :
- -' - - M ;';i: 'c
E;^
Cii'' •o
*'-'':i, ' . C
-'" ;1 '-" X ."^ . ''* - ^
If ', *
ft.
|i,i|igtjS'ia|:|5;v;:; i16jiU!.5iii -oi *
i utiiLi .6iii|jow±uNddtspE8g2Hw
lM-a
)-io.O
-o(N
(nM
(No
MO
M-*
oO
p)M
M-o
-*-O
MfO
a)*
*r)ro
or)^
rloM
O^*-rj
(odd —
dddoo —
od
— d
o —
d d
o —
dd
do
od
oo
dd
o —
od
dd
do
dd
dd
dd
d
i i
i i
i i
i T
i T
i
iii
i i
i i
i i
iii
i i
i i
ii
i i
i i
i i
ii iii
^N
CD
nN
noaM
oN
on^M
-^-n
iow
^N
oM
-tn
-oro
nN
o^4io
NN
on^4tf)^
.oooooo —
oo
oo
oo
oo
do
oo
oo
oo
— o
oo
oo
od
oo
do
dd
oo
do
od
dd
l
l i
1 l
1 l
T l
i l
i i
i i
i l
i i
i i
lil
i i
1 i
i i
l i
i i
i i
i
IO^|v
WO
oC
ON
*W
n0|0
0.-rt*
rtr
O-^
NN
rsO
N^--N
*(M
vW
N^M
DN
NM
N^
NIO ,
O O
O —
0 o
O O
O —
OC
OO
OO
OO
O—
OO
OO
OO
OO
OO
OO
OO
OO
OO
OO
OO
OO
OC
III
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
.
'ON
OS
-a^^-O
MM
WO
* —
OW
— ^
mM
MN
WO
BfS
WK
Xh
W-O
ON
fO^—
O(h
^*IO
W'*
N**IO
-
00
00
00
*^0
00
—0
00
00
00
00
00
00
00
00
00
00
00
*^0
00
00
00
00
0^
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
III
1 1
1 1
1 1
1 1
1 1
1
oN
^o
o^iO
Mro
^o
inn
inr.N
o-o
-on
^N
toN
^p
)NN
MM
io-o
^--.v
ron
NM
-Mn-r
OO
— —
— O
— O
— O
— O
— O
OO
— O
OO
— O
— O
— O
— O
— O
— O
— O
— O
— O
— O
— O
— O
— C
1 1
1 1
1 i
1 1
1 1
1 1
1 1
1 III
1 1
1 III
1 1
1 1
1 1
1 1
1
*r.N — o
in**o
9.*o
no
oN
*o-o
i)M(r.ri(T
t*cD
— — M
N —
w —
— MM
— — ^O
MN
— N ** N -o -i
OO
N-*
NO
(S*-—
ON
OM
O —
O—
* — —
O —
O—
*O—
'ON
OM
OM
OW
OM
OM
OM
ON
OM
OM
c1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 III
1 III
1 1
1 1
1 1
n*IV
|OW
NN
-M
cn
il)|N
.W-*0
^(h
oM
OM
r*0
0-m
*^K
-*W
OO
'*-O
On
iO-M
^^N
*^0
.^
V —
o-— a
Jo'-O
ioio
p5
M —
ndro
dnd^dV
dirid
iodin
din
dndio
dio
dio
— ^
diri —
-od
e?
—
— 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
III
1 1
1 1
1 1
1 1
r-.oM
coN
-oM
w^ojo
^'O
ror- —
-••r*.tn**co — —
•s.-i-on
o-o
* — lo
rjoor^-o
ro —
•or--iO
'*)oM
oo
o'
IO-O
I-1IO
r--rt*l')N
f4rtM
NrO
— •*
OM
r^M
IOM
*l-lM
KlM
-*—
ro M
M
— M
M
— M
M
— M
— (N
NX
NX
NX
NX
NX
NX
MX
NX
NX
IMX
NX
MX
NX
NX
NX
NX
NX
NX
NX
NX
MX
NX
NX
3g
3g
3g
33
3g.{W
UIU
IW
WU
IU
,W
UI
WU
,u,
nR
oN
ioK
oi^
.nriN
.nN
oN
i.o.N
o.N
nN
o•N
C'I'N
*1'*
4*4
** '"••"•^'-'C
'-l'N
CS
'Nf*!
t __ .
Cro.nt"'Gcophyilcr Ltd.
BERL. AND— RES .
i^'^'S^'f^ "^^'•^ifff^W^-^''A"'-' - :; i'^^^'^'?;^^^^?;^!?^*;;^;?^'^''^^'.1'^^®'"'^.-''' : : - ''~-r?Kri5V-'' :; . • N~'^AV^-''''Y^.'"sfr-*^^5^'\v-' ;i1' . iSf'SV'' '; '' - , : •''•'•* ; "••'•f'v^l'V!--. - "- ' ; '-V;. ::*fe;'i^ ::;;;';S'^-';j;'V';;f' -"-TV'*'-. '',-';" " - - ,." ' -•••:"'V - ' '. V : -'. ' ••" ; ••••',-"' i",-., ~ -- ' - y
CRONE DAT AL-OQQER RROCESS Z NOSURFACE PEH
Fit*B* uzoseiTx LooplDaict 23/08/86
2000S., ZTSi 114
G* l o: 500
Ch. 1 Ch.2 Ch.3 Ch.7 Ch.B
IJL;
- 't-jy4"-*:
HK.
f.
.1^
H-",.•J''i?*'
13&f•sV4; .
" *i\
-?-.-J^"-•;
- v:.-"-tt
(••S1""'^"^' '^
;'?1x t
- -, "i
* Y?
'.-'''
230V
223V
200V
173Wj
t SOU
123V
100V
75V
SOW
23V
BL
23E
50E
75E
lOOE
123E
XSOE',J
J75E
200E
223E
230E
273E .
300E..
2XZxzxzxzxzxzxz xzxzxzxzxzxzxz xzxzxzxzxzxzxzxzx
704.317.4
538.956.8475.234.7245.322.5
297.029.2225.027.8103.231.0
- 56.7 28.978.942.760. 132.0*7.829.823.829.3•-6.825.026.341.015.0 38.512.839.33.5
34.5-3.425. 216. 132.92.9
25.87.0
24.96.6
23.30.0
20.4
-13. 1-J. 1-8.8-1.4-8. t-0.3-5.7-0.7-6.7-0.5-5.7-0.6-5.20.0-4.30. 1-5.4-0.7-3.2-0.3-5.00. 1
-5. 10. 1-3.90. 1-5.20.7
-5.4 -0.2-5,60.0-5.4-0.7-5.20.4
-6. 10.2-3.80.9-5.60.8-5.40.9-5.71.5
-0.40.6-0.90.0
-1.3-0.4-2.00.0-1.40. 1-1.41.7
-1.60.0-1.5 0.4
-2. 10.3
-2.00. 1-1.90.9-1.90.3
-2. 10.7
-2. 1-0,6-2. l 0.6-2.20.5-2.20.4
-2. 10.8
-2.3-0.2-2.20.5-2.40.8-2.30.4-2.00.3
-0.70.6-0.9-0.1-1. 1-1. 1-1.40.3
-1. 11.4
-O.B0.1-1.2-0.4-0.8 0.2-1.50.2-0.81.0
-0.90.2
-1. 1-0.7-1. 1-0.1-1.30. 1-1.4 0.4-1.40.4-1.21.4
-1.3-0.1-0.9-0. 1-1.40.5-1.40.5-1.50.2-1.3-0.2
-0.70.4-0.2-0.3-0.30.2
-1.0-0.4-0.6-1.2-0.30.0-0.30.30.2 0. 1-0.5-0.4-0.3-0. 1-0.2-0.3-0.30. 1-0.70.3-0.40.4-0.6 0. 1-0.8-0.1-0.60.6-0.90.0
-0.70.2-0.3-0.3-0.7-0.2-1.0-0.6-0.9O.I
-0.90.3-0.3-0.3-0.6-0.6-0.7-0.7-0.80. 1-0.40.2-0.30. 10.3
-0.4-0.30.3
-0. 10.40. 10.2
-0.40.7-0.7-1.3-0.4-0.5-0.3 -0.8-0.30.0-0.7-0.7-0.6-0.4-0.30. 1
-0.4-0.2-0.4-0. 1-0.8-1.0-0.60.0
-1.00.4-0.9-0.3-0.4-0.3-0.80.0-0.7-0.2-0.3-0.2-0.3-0.2-0. 1 -0.6-0.30.4-0.40. 1-0.3-0.8-0.3-0. 1-0.6-0.2-0.40. 10.0 0.4-0.2-0.4-0.4-0.4-0.30.0-0.4-0.70.0O.S-0.20. 1-0.3-0.2-0.30.0
-1. 10.5
-0.6-l. 1-O.I-0.2-0.40.0
-0.4-0.3-0.3-0.4-0.7-0.4-0.+ 0. 1-0.3-0.9-0.40.70.5
-0. 10.5
-0.3-0.6-0.7-0.5-0.4-0.4 -0.30. 1
-1.3-0.4-0.3-0.30.30.00.0-0.2-0.60. 1
-0.8-0.9-0.9-0.3-0.2
O
•\:.; ^ ~' .' .-';. ' CRONE
:Ut*r: Cron* Geophysics Ltd.
DATALOGGERSURFACE PEM RROCES© J
^^^f^^^^^^^?^-h;^^^v,^^^|8^
mm lg ii*ni B g CUMBERL. AMD— RES .•Si.'. -B r --.'Or i d Lin* • 1 EVANS— L.AKE 2OOOSSi'-HfpTim* b***i !0ms ZTSi 170 liS iL Rmp tlm*l 0.5ms G* in: 5009"Ip: —————jl|f; STATION
200W
Cv|"'.- 175W
tf.- 130W• 1*5.-
9*" 125U
\i~-x j 0 0g•'&-J lg;; 75U
i-?* SOW
IW 25W-^ -'
"H SL
••'T- 25E-^ 50E
r,:: 75E
;:-;.l--". IOOE *pr'-^Sfe ; - 125E
-r'-* W'•J-' r:^ I50E, : 'j-' 1 75E
"t \
COMPONENT
Z X2 Xzxz x z x zxz x zxzxzxzxzxz xzxzxzx
Ch. 1
-l. 1-0.3 -0.5 0.2
-1. 1-0.2 -1. 0 -0.2 -1. 0 0.2
-1.20.6
-0. 7 0.7
-1.00. 1
-1. 1-0.3 -0.4-0.2 -1.1-1.3 -0.3-1.4 0.0
-1.9 C. 6
-2.2 1.9
-4. 15. 1
-1.6
Ch.2
-1.3 -0.2 -1,7 -0.7 -1.2-0.6 -1.5 -0.6 -1.4 -0.4 -1.6-1.4 -1.2 -0.7 -1. 1-0. 7 -1,6-1.7 -0.9-0.9 -1.3-1,5 -0.6-2.0 -0.4 -2. 1 0.0
-2.4 0.4
-4. 13.5
-2.9
Fll* Bi L-20SES
7x Loop S
D*t*t 29/08/86
Ch.3
-0.5 0.3
-0.2 0.4
-0.70. 1
-0.4 0.0
-0.3 0.2
-0.80.3 0,2 0.2
-0. 10.5
-0.90. 0
-0.60.3
-0.30.5 0.4
-0.4 0.2
-0.7 0.3
-0.7 -0.2-2.5
1.4-1.9
Ch.4
-0.3 0.0 0. 1 0.3
-0.30.5
-0.2 0.2
-0. 1 0.3
-0.50.3 0.0 0,2
-0. 10.2
-0.3-0.5 -0.4-0.1 0.0
-0. 1 -0.2-0.3 0.0 0.0 0.0
-0.5 -1.0-2,3 -0. 1-1.8
Ch.3
-1.6 1.0
-0.7 -0.9 -1.0-0.4 -0.8 -0.3 -0.8 -0.9 -1. 1-1.4 -0.4 -0.6 -0.4-0.8 -1.2-1.2 -0.7-0.6 -0.6-1. 1 -0.3-0.8 -0.9 -1.3 -0.9-1. 1 -2. 1-3.0 -2. I-2.0
Ch.6
-1.4 0.6
-1.0 -0.4 -0.7-0.8 -0.2 -0.3 -0.5 -0.6 -0.9-1.3 -0.5 -0.7 -0.6-0.8 -0.9-1.2 -0.6-1.4 -0.6-0.5 -0.7-0.9 -1.0 -0.9 -1.0-1.4 -2. 1-2.5 -2.4-1.7
Ch.7
0.6 -2.2
0. 1 -0.6 -0.3-0.5 -0.4 0.0
-0. 1 -1.2 -0.7-0.4 -0.3 0.0 0. 1
-0.6 -1.3-0.9 -1.4-0.4 -0.5-1. 1 -0.7-0. 1 -1. 1 -1.4 -0.2-0.8 -2.2-1.3 -2.5-0.9
Ch.8
-0.3 -1.3 -0.4 -1. 1 0.0
-0.6 -1. 1 -0.2 -0.9 -0.5 0.0
-0.9 -1.2 -0.6 -1. 1-0.2 -1.4-0.3 -1. 1-0.2 -I. 1-0.7 -0.6-0.5 -J. 2 -1. 1 -0.7-1.0 -2.0-1.9 -2.0-0.5
O
jfe'^s? - f^':'-- ; "W,w^;v.;'-4Sssi,*^vv p^s;;'C;.;: ^. -;. v -^~ ;fej^-;t
XJ-CRONE
*|r^ CroM'GtophytVcs Ltd.
HKpUMBE
HferldR E VANS
Hltlwt batvi HMU*p t i mtl
JP STATION
H. 230V
A 225V*V-
li 200Vtrfe 175V••;;
150V
*,- 125V
100V
75W
50V
25V
RI**^*..
r- 25E
^' 50E
*: 75E
100E
123E
150E
173E
4 200E
t 225E
^ 250E
fr- 273E
300E
f
RUAND
— t- A K E
10m* 0.5ms
COMPONENT
Z Xz x z x z x z x z x z x z x z x z xz x z x z x z x z x z x zx z xz xz xzxzxzx
—RES.
Lin* 21 oosrrsj ii4G*ini 300
Ch. 1
649.6 60.6
341.3 33.9
466.2 43.6
337.4 34.6
308.0 31.3
207.0 31.6
190.7 38.9
124. a 30.2 62. 1 23.4 30.9 29.532.8 34.0 49.2 31. 1 33.9 31.9 24.9 42.8 11.0 39.4 -0.3 30.7 4,3
36.2 24.2 43.3 19.7 36.5 1..0 29.4 3.9
23.3 13.431.0 13.426.0
Ch.2
-11.9 -2.2 -9.0 -1.3 -8.7 -2. 1 -6.7 -1.3 -6.6 -1.6 -6. 1 -1.3 -3.7 -0.9 -3.7 -0.8 -4.9 -0.5 -3. 1 -0.4-4.9 0.1
-3.2 -0.1 -3.3 0.2
-3.6 -0.8 -4.8 -0.5 -4.8 -0.1 -5.1-0.9 -6.4 0. 1
-6.3 -1.6 -6.3
1.2 -6.3-0.3 -6.3
1.0 -6.60.7
Fll. B l L.2
Tx Loop1
1SE J
Datei 23/08/86
Ch.3
0.0 -0.7 -1.1 -0.6 -2.0 -0.3 -1.7 -0.5 -1.9 -1. 1 -1.9 -0.5 -1.7 -0.2 -1.8 -0.4 -1.8 0.0
-1.8 0.0
-1.7 -0. J -2.0 0.7
-1.9 0.4
-2.0 -0.1 -1.9 0.3
-2.1 0.2
-1.90.3
-2. 1 0.2
-2.2 0.9
-2.2 0.0
-2.0-0. I -2.41.0
-2.60.9
Ch.4
-0.9 -0.6 -1.0 -0.2 -1.6 -1.0 -1.6 -0.7 -1.4 -0.9 -1.4 -O.B -0.9 -0.2 -1.8 0.3 -l.l -0.3 -1.4 0.1
-1.1 -0.1 -1. 1 -0.3 -1.6 -0.6 -1.5-o.a -1. 1-0. l -0.9 -0.5 -1. 10. 1
-1.2 -0,7 -1.5 0.6
- .6 .3
- .3.2
- .4. 1
- .5-0.2
Ch.3 Ch.6
-0.7-0.8-0.7-0.2-1.3-1.6-1.2-0.8-1.0-1. 1-0.8-1.3-0.40.1
-0.5-0.5-0.5-0.9-0.9-1.0-0.5-0.5-0.6-o.a-0.7-0.7-0.40.1
-O.S-0.3-1.10.4
-0.70.2
-0.9-1.9-0.8-0.9-1.4-0.4-t.O0.0
-0.7-0.4-0.90.3
-0.80.0
-0.90.0
-1.2-0.9-0.9-0.9-0.4-0.5-0.6-1.1-0.5-0.2-0.30.3
-0.6-0.7-0.4-0.2-0.3-1.3
0.0-0.9-O.I-0.6-0.9-0.1-0.4-0.2-0.4-0.3-0.4-0.5-0.4-0.5-0.5-0.8-0.9-0.4-0.7-0.5-0.60.3
-t.O-0.5
Ch.7-1.2-0.1-0.7-0.5-1. l 0.0
-1.3-0.5-0.6-0.7-1.2-0.4-0.3-0.6-0.7-0.9-0.7-0.2-0. l-0.4-0.2-0.5-0.2-0.5-0.2 0.2
-0.2-0.7-0.5 0.2
-0.5 0.2
-0.4 0.0 0.0-o.a
-0.7 0.4 0.0
-1. l 0.2
-0.2-0.2-0.5-0.6-0.9
Ch. 8
-0.8 2.0
-0.8-0.9-1.4-1.6-0.6-1.2-0.7-0.9 0.6
-l.O-0.7-0.5-0.2-0.4-I.O-1.2-0.7-0.6-0.6-0.6-0.5 0.9
-0.4 0.9
-0.7-1.2-0.1-1.2-1.2-0.3-0.3-1.2-0.3-0.4-0.4 0.8
-0.3-1.1-0.3-1.3-0.7-0.2-0.2 -0.3
CRONH
ir. :• •ri Crone Geophysics Ltd.
DATALOGGER F*ROCESURFACE PEM
SS IMC3
fCCJMBE
ion dEVAMS
iRL-AMD—
5 — t-AKE
Tim* ba**i 10ms R*mp tim*i 0.5m*
STATION
200V
175V
150V
125V
100V
75W
50V
25V
BL
25E
50E
75E
IOOE
125E
150E
175E
COMPONENT
Z Xz x z x z x z x z x z x z x z x z x z x z x z x z x z x z x
RES.
Lin* 2 1 OOS
ZTS! 170 GA in: 500
Ch. 1
-0.9 0.3
-1.9 -0,2 -1.5 0.7
-1. 3 0.5
-0.0 -0.3 -1. 0
0. 0 -0. 7 -0.5 -0.4 0.5
-1.2 -0. 1 - .3
. 0 - .3— f fo
- . 9 - .3 -2.7 -1.9 -2. 1 -4. 1 -0.2 -6.6 5.2
-9.0
Ch.2
-1.3 -0.5 -1.3 -0.5 -1.4 -O.B -1.5 -1. 1 -1.3 -0.5 -1.4 -0.6 -1.5 -0.8 -1.4 -1.2 -1. 2 -1.5 -1.1 -0.7 -1.5 -1.2 -1.5 -1.9 -2.5 -2. 1 -1.9 -3.2
1.2 -5..? 6.2
-7.7
Fi l* B : L.:
Tx Loop3
21SE55
D*t*i 29/08/86
Ch.3
-0.4 0.6
-0.3 0. 1
-0. 1 0.5
-0.3 0.5
-0.3 0.6
-0.7 0. 0
-0.5 0.3
-0.5 1. 1 0. 1
-0.3 -0.3 -0.3 -0.6 0.0
-0.9 -0.2-i.a-0.4 -1,6 -1.6
0.4 -3.6
0. 7 -5.5
Ch.4
-0. 1 0.2
-0.6 -0.4 -0.7 0.6
-0.4 -0.3 -0.8 0.2
-0.4 0.4
-0.3 -0.2 -0.4 -0.5 -0.3 -0.6 -0.2 0.3
-0.5 -0.3 -0.8 -0.2 -2.3 -0.3 -2.4 -1.6 -1.0 -3.3 -2.8 -4.8
Ch.5
-0.9 -1. l -1. 1 -0.8 -0.8 0.0
-0.8 -0.7 -1.0 0.3
-0.9 -0.8 -0.8 -0.9 -0.7 -1. 0 -0.6 -0.7 -0.7 -0.9 -1.0 -0.7 -1.5 -1.4 -2.6 -1. 1 -2.5 -2."
-4.9 -4.3
Ch.6
-0.8 -0.9 -0.8 -0.6 -0.9 -0.5 -0.7 -1.2 -1.4 0.5
-0.6 -1.4 -0.3 -0.7 -O.S -C. 5 -0.2 -0.5 -0.8 0.8
-0.9 -0.2 -1.4-I.?— -*
. t t. 4
-1.7 -2.3 -2.9 -5.6 -3. 1
Ch.7
-0.6 0. 1
-0. 1 -0. 1 -0.2 -0. 1 -0.8 -0.8 -0.3 -1.8 -1.0 -1.2 -0.2 -0.8 -1.0 -0.7 -0.7 -0. 1 -0.5 -1.6 -1. 1 -0.7 -1. 1 -0.7 -2.1 -0.8 -1.8 -1.8 -1.8 -2.0 -5.2 -1.4
Ch.B
-0.5 0.0
-0.1 0.0
-0.5 -0.3 -0.6 -0.3 0.2
-0.3 -0.8 0.4
-0.3 -0.4 -1.0 -0.3 -1.0 -0.8 - .3 - . 1 - .5 - .0 - .4
. 1 - .6 - .2 - .4 -0.4 -2.3 -1.3 -4.2 -1.2
O
0
fO- 2-0 O'O i'O 9-0t -o6-0-i-o9-0i -o t -o- t-off-0-*-o z-o- 1-1-2'2-fi-o-1*0- fO- 6-0 t *0- t -1-*-o-8-0- t*0- 0*0 1*0- t*0- 9*0- f 0 0*0r*o-6*0 8-0-2*0 6*0- •t'O- l*t- 2*0- t'O- 9*0- **0- **0- 8*1- C*0- fi'Z- I'O- I'l- i'Z-
B'i-0
t -o.1-0- **0- 2-0 I 'l i'Q fO 9-0 6-0 6*0z-ofO- 8-0-t -o-2*1- *'0 8-0z-o-Jt-0-o-o9-0- Z*0 8*0- 2-0- **0- 1 'O **0- 0*0 Z'O- **0- 9-0- 2*0- S*t 8-0- i'Q-*-o- o-t**0- 1*0
. Z'O- z*t-1*0- 0*1- Z'O-i -o- 0*0 0*1-s*o-2*1- i *Z-
/i'MO
t -o2-0- 8-0-z-o-8-0*-o-I "0 i'Q- 1 'O 9-0- 1 -0- 2-0-t -o- t -o-6-0- -i-0- t'O Z'O-t -o-1 'O 6-0- 2*0- ^*0- 1 *0 9*0s-o-Z*0- **0-*-o-8-0- 1 *0- 0*1- t*0- f\- 2-1-*'0- 2-1- **0- 1*0 9*0- Z*t- 1*1- 6*0- **I- 8-0- 2*0- 2*1- **0- 9*2- 2*2-
9*MO;v;
**0 **0- *'0 2-0- 8-0^•o-1 "0 2-0- 2-0-*-o-L-Q t *t- 2-0 t'Q- t'O-*-o-1*0o-t-2-0- 9-0- 1 -0- t'O-^•o- i-o-2*1 9-0- 9-0-*-o- o-o z-o-9-2-o-t-8*0- 9-0- 1*1-2-0-t -o- z-o- t -o-2-0- Z*t- 9-0-o-i- o-t-9*0-*-o-2*1- 9*0- 0*2- E*2-
C*MO
'., '-y
9-0 0-2-z-oB-I- 2'0 t'l-2-0-s-i-^•1 6-1-t -o2-1-t -o2-1- 9-0- 0-2-*-o-i'l- Z'O *--t-z-ofl-s-o-2-1- *"0- **t- 2*0 I -1-z-o-2-1-t -z-9-1- d'O- 2-1- 1 *t-2-1-o-o z-i-6*0- 2*1-s-t-i-\~ 2-0- 2-Z- 8-0- fl- S*t- 2*1- S*2- 9*Z-
**--io
,, 4 98/80/tZ
2-0- 0-2-*-o0-2- t. '0 B'2- 9-0- 6-2- O'O 8'2- 2-0 8-2- 1 'O 8'2- t'O- 2'2- 2-0- i'Z-o-ofZ- 2'0- 0-2- O'O 2'2- 9-0 9'2- 2-0- 2-2- 9-0- 9'2- 2'0 9'2- 2-0- 2-2-^*0- 2'2- 9-0- 2-2- 2-0-z-z-Z't- 2'2- *'l- 6'2- O'l- 6-1- t *Z- 6-1- 2-2- 2*Z-
2 -MO
i*i*0
9M 0 '9- 0 'I S'S- i'fi C'S- 6'0- 2-S- I 'I fS- 2-0 9-S- B'O- 2-S- 9-0- O'S- 1 'O 8-t- f 0-i -s- 1 '0i -s-2-0- l -t- 2'0- tl-2-i-o-1 't-O'OI -*- I -1- 2-t-2-0- 2-t-1-0- 6'2- 8-0- 1-t-z-t-i't-o-i-**2- 2-1- 2'9- fl- 2'9- 9-1- \-i- Z-2- 1-8-
2*M3
002 i. tt I
2 'SI i '6- S'S! O'S- 6'frt *'8- 0'9I 6'9- 6'91 L'L- 9-8! *'9- 2'22 O't- 8'22o-^-2-22 S'2- S-I2L '2
*:-tz0-31 9-t-3 fr'S- 9'9t E-2 8-S.I 2 'Z 6 '9 1*;-2i2-61 t'12 6'22 6'929 -^I 9-0* 2-^18-^:s8-61 6-*U 9-12 9-091 Z -92 0-012 6't2 9-t82 9-Z2 2-892 *1*62 ^'02*
t*MO
lui'ttj•sil ,:
xz xz x z x z x z x z x z x z x z x z x z x z x z x z x z x z x zxz x z x z x z x r x
,,4J-iS#iN3NOdWOO
V:',:i;^\.-.-.:, . ••^vV^^^r. V ..-;-
-•^J^tti^vr" ..iiiV- Siit- *^ - 0 4 '•!;-SK®'.VL-:**OU--
3022
3002
302
3S2
CRONE
Cron* Ccophrfic* Ltd.
;UMBERL.AMD—RESP;K;
DATALOGGER F^ROCESS I MGSURFACE PEM
FileB s U22SES
•p r IdHP^:" ' ~HgtTi")* b***flpflUmp tint*ff -r"
gtfsTATION
~^i: 200Uir."'-, -'l®; * 73uV, S 150W4 v-Jj
l?"sr 125WsUySi'1 .epj loouip3*,.y^- 75W
sou': 25W
•, BL
iY 25E, -JjjV;rf SOE• ' - '*.;•A 75E. .-ir;
jXC 100E'v'SSi
JSJJ&- 125E
A *': 150E
•i 175E
5— L-AKE '
i 10m*t O.Sffli
COMPONENT
ZXZxzxzxzxzxzxzxzxzxzxzxzxzxzxzx
Lin*rzzooZTSi 17CGain: SC
Ch. 1
-1.4-0.5-1.2-0.7-1.50.2
-1.20. 1
-1.20.6
-0.70.2
-0.60, 3
-1.70.2
-0.90.4
-l. 1-0. 4-l.S
0. 1-2.3-1.2-0.8-3.50.3
-2.8-0.3-4.42.2
-5.8
S
)0
Ch.2
-1.7-0.3-1.5-0.8-1.7-0. 1-1.2-0.2-0.7-0.8-l. 1-0.4-1. 1-0.5-1. 1-0.6-1.5-0.5-1.3-0.3-1.7-1.2-2.2-1.6-1. 1-2.70.6
-2.30.3
-3.53.4
-4.2
Tx LoopS
D*t*: 21
Ch.3
-0.4-0. 1-0.2
0. 1- J. 00.2
-0. l0.5
-0. 10.5
-0. 70.3
-0.2-0. 1-0.6-0.4-0.6-0.3-0. 70.2
-1.2-0.5-1.2-1.5-0.6-0.8
0. 1-1.2-1.5-2. 1-2.0-1.5
/OS/86
Ch.4
-0.6-0.2-0.50.0
-0.40.2
-0.20.0
-0.40.2
-0.50.4
-0.50.1
-0.2-0. 1-0.20.0
-0.50.0
-1. 1-0.3-1. 1-1.0-1.0-0. 1-0. 1-0.8-2.2-1.9-4.9-1.3
Ch.5-0.7-0.2-0.70.0
-0.4-0.5-0. 1-0.7-0.7-0.3-0.7-0.2-0.4-0.8-0.6-0. 1-0.6-0.9- .0- .6- . 1— t 4-- .2- .8- .2- . 5-0.9-1.4-3.5-2. 1-7.2-0.8
Ch.6
-0.80.5
-0.6-1.2-0.5-0.7-0.2-0.2-0.5-0.7-0.30.0
-0.2-0.3-0.6-0.8-0.2-1. 1— . j- .3- . |- .0- , j- .3- .6- .7- .0- .0-3.0-1.7-7.4-0.7
Ch.7
-0.60.1
-0. 1-1.0-0.3-0. 1
0.0-0.4-0.70.0
-0.5-0.70.21.2-0.8
-0.3 --0.2-0.9-0.4-0.2-0.7-0.4-0.7-1.5-1.2-0.9-1.2-0.7-3.0-0.9-7.2-1.9
Ch.B-0.50.40.4
-0.90.0
-0.6-0.5-2.00.0
-0.2-1.4-1.40.00. 1
-1.5-0.5-0.5-1.4-0.4-1.0-0.30.2
-0.8-1.4-1.0-0.6-0.6-0.3-2.6-0.9-5.9-0.9
O
T Ut bacci J Oms t i m*l 0 .3ml
i IrB i
Tx Loopl
se'l
Da t O 24/08/86
Ch.3
-1.9 -2.7-1.6 -1. 1-1.6 -1.3 -1.9 -0.2-1.3 -0. 1 -1.9 -1.2 -2.3 0.3
-2.2 -0.2 -2.5 0.0
-2. 1 -0.7 -2.4 0.2
-2.4 0. 0
-2.5 -0. 1 -2.3 0.3
-2.7 0.0
-2.3 -0. 1 -2.7
1. 1 -2.9 -0.4 -2.6 -0.6 -2.7 -0.2 -3.0 0.4
-3.4 0.3
-2.80.2
-3.00.6
-3. 10.3
Ch.4
-2.2 -2.6-1.5 -0.9-1.2 -0.9 -1.8 -0.7-1.0 -0. 1 -1.2 -0.2 -1.6 -1.1 -0.7 -0.3 -1.0 -0.3 -1.2 -0.7 -1.3 0.3
-1.3 -0.6 -1.4 -0.4 -1.4 0.3
-1.7 -1.0 -1.2 0.0
-1.31.6
-1.8 -0.8 -1.7
0. 1 -1.8 -0.2 -1.8 -0.3 -2.0 0. 1 -1.40.6
-1.90.3
-1.6-0.2
Ch.S
-1.8 -2.1-0.3 -0.6-0.7 -0.8 0.4
-0.20.0 1.1
-0.3 0.4
-0.9 O.I
-0.3 -0.2 -0.3 -0.2 0.0
-0.2 -0.4 0.4
-0. 1 0.3
-0.2 0.6
-0.4 -1.0 -0.7 -0.6 -0.7 0.8
-0.42.0
-1.0 rO.6 -0.3 0.3
-0.7 0.2
-0.7 -2.8 -0.3 0.3
-0.10.1
-0.30.7
-0.60.9
Ch.6
-2.1 -2.1-1.0 -1.6-0. 1 -1. 1 -0. 1 -1.20. 1 0.3 0.2
-0.2 -0.8 -0.3 -0.7 -0.3 -0.2 0. 1 0.4
-0. 1 -0.5 0.3
-0.2 0.2
-0. 1 0.2
-0.3 -0.6 -0.6 -1.3 -0.4 -0.3 0.20.9
-0. 1 -1.4 -0.4 -0.7 -0,2 -0.3 -0.9 -3.9 -0.3 -0.2 -0.30.1
-0.3-0.8-0.30.6
Ch.7
-2.3 -0.9-0.4 -0.9-0.5 0.3 0.4 0.20.3
-0.4 0.0
-0.3 -0.8 0.8
-0.1 -0.7
0. 1 1. 1 0.2
-0.2 -0.6 -0.4 -0.7 0.1 0.0 0.1
-0.2 0.4 O.I
-0.7 0.0
-0. 1 0.31.7 0.4
-0.9 0.1
-0.5 -0.6 -0.9 -0.1 -6. 1 0.1 0.9 0.2
-0.6 -0.41.9
-0.70.5
Ch.S
-1.4 -1.4-0.5 -0.3-1.4-0.7 -1.6 -1.8-1.90.2 0.6
-1.1 -0.4 -0.8 -0.4 -0.2 -0.1 1.2
-0.3 0.0
-0.3 -1.1 0.7
-l. 1 -0.3 -0.4 -0. 1 -1.1 -0.2 -1.2 -0. 1 -1. 1 0.61.0 0.3
-0.8 -O.I -1.0 -0.8 0.0
-0.2 -7.5 -1.0 -0.5 -1. l-0. 1 -1. 1-0.4-1.3
1.3
O
: '-'Ptvsll
CRONE DATAL-OGGER RROCESSISURFACE PEM
Cron* G*ophyilci Ltd.'
JOrid -. - -: . •••'-••' EVAMS—L-AKE
[Tim* bat*i 10m* R*mp t lmti O.Smi
RES
Lin* 23003
ZTSi 170 Q*int 500
Fit*BS L.23ESE5
Tx Loop9
D*1*1 29/OS/B6
|V STATION
|!" 200W
V. J75W;. .j 150W
i- 125W
'S IOOV,x? 75W^ : -s- SOWT"1- 25U'f..'-
fe.V BLP'|f. 25E
f, 50E
^-- 75E
l 1 OOE
l; r 125Ete-ffe". 150Ei*''1- 1 75E
COMPONENT
ZXzxzxzxzxzxzxzxzxzxzxzxzxzxzxzx
Ch. 1
-1.40.2
-1.70.6-1.80,5
-i. 3-0. 1-1.20.4-1,50. 1-1.7-0.2-1.9-0,5-1.30.2-2.40. 1-1.9-0.5-2.3-1.5-1.6-1.6-1.9-3.4-0.6-3.60.7
-5.5
Ch.2
-1.6-0.4-1.6-0.4-1.2-0.6-1.0-0,6-1.3-0.7-I. 1-0.2-1.5-0.2-1.6-0.8-1.2-0.3-1.4-0.5-1.5-0.9- .5- . 3- .0- , 7- .6-3.4-0.3-3.02.4
-5. 1
Ch.3
-0.60.4-0.30.0-0.40.3-0.5-0. 1-0.3-0. 1-0.4-0.4-0. 70.3-0.7-0.5-0.30. 1
-1. 10.4-0.7-0.6-1.0-0.6-0.5-1.0-2. 1-3.2-1.6-1,9-1.7-4.6
Ch.4
-0.30. 1-0.30.1-0.5-O.S-0.2-0. l-0.40.3-0.30.3-0.5-0.5-1. 1-0.4-0.5-0.1-0.80.3-0.9-0.4-0.7-O.S-0.7-0.8-2.3-3. t-2.5-2. 1-4, 1-4.3
Ch.5
-0.80.0-0.4-0.4-0.30.2-0.5-0.3-0.4-0.3-0.2-0.8-0.3-0.2-0.7-0.7-0.3-1.0-0.5-0.2-0.6-0.6-0.6-0.7-0. 1-t.l-2.4-2.7-2.7-l.B-4.9-4.0
Ch.6
-0.9-0.3-0.4-f. 8-0. 1-C. 8-0.6-0.4-0.2-0.2-0.20.0-0.4-0. 1-0.4-0. B-0.4-0.7-0.60,3-0.4-1.2-0.8-0.8-0.7-1. 1-2.2-2.2-3.0-2.1-5,5-2.9
Ch.7
-0.60,0-0.4-0.40. 10. 1-0.30.3-0.30.2-0.2 ;-0.6-0.30.2-0.6-0.6-0. 1-0.4-0.4O.B-0.2-0.7-0.5-0.3-0.4-0.7-1.9-2.4-2.9-2.7-4.7-2. t
Ch.8
-0.70.0-0.40.30. 1
-0.6-1.0-0.2-0.90.0-0.4-0.8-0.40.7-0.3-0.4-1.00.2-0.60.60. 1
-1.4-1. 10.2-0.5-0.9-1.2-1.6-2.6-3.4-3.5-1.9
ijOrvie. , p^TAL-OGOi^?^SSt^*'SlJRFAes,-iPa*
uici;- i :'V;^; ::': '- '/;';^':!^:;*: '•y{'^^^^0^"^y^^ i.
B iTx Loop
itlm.rfl.5Ml
S^fffi||Sf^
-114'.'.: G*ini 500' 0*1*1 24/08/86
:' COMPONENT Ch. l
!w?5ow,V..;,Iff' 225V , -- '
J 200V
173V
150V
123V
100V
75V
SOV
23V
BL
25E
50E
75E
IOOE
125E
150E
175E
200E
225E .
230E
27Se
300E
325E
350E
:.' "•"z;,;.:-;y•' X'-V
ZX . '.."zxzxzxzxzxzxzxzxzxzxzxzxzxzxzxz -xzxzxzxzxzxzxzx
V . 343.4:. : 30. 0
268. 133. 0194.020.3 110.026.9 82.423.3 38.923.2 46.923.018.318.316.215.81. 1
12.40.212.9-8.310.9-5.616.7
-10.28.2
-9.512.4
-12.610.1
-13.012.3
-13. t16.9
-16.414.3
-13.416.8
-14.413.2
-15. 111.4
-13.69.0
-15.311.6
-13.79.3
Ch.2
-3.2-2.3-3.3-1.8-5.5-0.5-4.3-1.3-4.4-1.6-4.4-0.9-3.0-0.6-3.6-0.3-4.8-1. l-4.4-0.4-4.8
0. l-4.2-0. l-4.0 0.5
-4.2 0.4
-4.7-0.2-4.7 0. l
-5.0 0.3
-3.6 0.3
-4.8 0.3
-5.5 0.5
-5.4 0.4
-3.3 O.S
-5.2 0.7
-5.70.9
-3.70.7
Ch.3
-1. l-1.2-1.3-0.8-2.2-1.3-1.9-0.6-1.6-0.4-2. l-0.3-3. l-0.3-2.8-0.4-3.3-0.6-2.4 0.3
-2.3-0.2-2.3-0.3-2.4 0.3
-7.3-0.2-2.3-0. l-2.3 0.3
-2.6 0.2
-2.4 0.0
-2.8 0. O
-2.3 0.3
-2.7 0.3
-2.8 0.3
-2.3 0.6
-2. 7 0.6
-2.7 0.2
Ch.3 Ch.6-0.7-1.0-0.9-0.6- .7- .6- .2- .0- . l- . 1- .2- .6- .8- .1- .4™" * 1
- .0- .6- .20.2-1.6
-0.2-1.3-0.4-1.00.2
-1.4-0.3-1.3-0.4-1.70.2
-1.9-0.3-1.70.4
-1.5-0.2-1.4-0.1-1.40.3
-1.3-0.3-1.40.4
-1.80.0
-1.30.2
-0.3-0.70.00.7-0.3
-0.8-0.3-0.80.3
-0.4-0.1-0.9-0.3-0.5-0.4-0.3-1.2-0.6-0.40.0
-0.2-0.3-0.4-0.3-0.60.4
-0.30.1
-0.6-0.3-0.30.1-0.7
-0.2-0.9-0.4-1.0-0.3-0.90.1-0.60.0
-0.8-0.2-0.7-0.2-0.90.0-1.2
-0.3
-1.1-1.1-0.2-1.0-0.8-0.9-0.6-0. 1
0.2-0.3-0. I-1.0-0.4-1.2-0.6-0.1-1.2-1.4-0.20.2
-0.6-0.8-0.3-0.9-0.20.2
-0.2-0.6-0.3-0.6-0.40.0-0.2
-0.3-0.30.0
-0.4-0.6-0.90.0-0.30.3
-0.90.0
-0.3-0.7-l.l0.0-0.7
-0.1
Ch. 7
-1.9-0.8-0.3 0.0
-1.3-0.1-0.9-1.0
0.0 0.4 0.1
-0.4-0.5-1.0-0.7-0.4-1.3-0.3-0.1 0.2
-0.4-0.3 0.0
-1.2-0.1 0.0
-0.6-0.3 0.3
-0.4 O.I 0.3 0.7-0.2
-O, t-0.7-0.4-0.6-0.8-0.3-0.3-0.4-0.2 0.0-0.3
-0.2-0.2-0.1-0.3 0.0
ch.a-l.l-0.2-0.6-0.3-0.9-1.0-1.4-1.3-0.8-0.8 0.2
-0.1-0.4-0.1-0.9-1.4-1.6-0.1 0.0 0.6
-0.8 0.0
-0.1-1.1 0.2 1. l
-0.4-0.6-0. l-1.6-1.0 0.2 0. l
-0.3-0.7-0.4-0.4-0.2-0.3-1.2-0.9-0.3-0.4 0.1
-0.4-0.3 0.3
-0,3 O.Ift A
O
T!M* bacciR**M* 11 rao 0.3ms
^ES.
Lin* 2300S
ZTSi 1 1 4 Galni l
Ch. 1
107.3 6.5 4.92.0
52.8 10.5 25.9 9,8
19.3 10.5 11.3 11.4 -3. 1 9.9 2.6
13.8 -5.2 9.8
-10.7 4.4
-5.2 10.2 -9.8 8.7
-9.3 12.7
-12.7 7.2
-10.7 11.4
-15.4 12.5
-11.4 8.9
-15.7 11.7
--15. 7 12.9
-17. 1 8.3
-10.3 17.3
-13.2 5.8
-16. 1 9.4
Ch.2
-5.9 -4.9 -1.8 -1.3 -3.2 -1.6 -3.4 -O.B -4.2 -0.5 -5. 1 -1.3 -4.2 0.0
-4.7 -0.2 -4.5 -0.6 -4.0 -0. 1 -4,8 -0. 1 -4.7 0.0
-5.2 -0.4 -4.7 0.0
-5. 1 -0.3 -5.0 0.7
-4.3 0.5
-4.9 0.3
-5.3 0.1
-3.3 0. 1
-3.5 0.9
-5.0 0.6
-5.7 0.9
Fit* B * L-25SE 1
Tx Loop 1
D*t*i 24/08/86
Ch.3
-5.9 -4.5 -1.3 -0.4 -1.7 -0.3 -1.4 0.6
-2.2 -0.5 -2.9 -0.4 -1.9 0.6
-2.3 0.6
-2.4 0.2
-1.9 0.5
-2.2 0.4
-2.5 0.5
-2.5 0, 1
-2.4 0.6
-2.4 0.3
-2.7 1. 1
-3. 1 0.8
-2.4 0.7
-2.5 0.6
-2.2 0.9
-2.4 1. 0
-2.4 0.7
-2,7 0. 7
Ch.4
-7.0 -4.9 -1.6 -0.8 -1.2 -0.6 -1.2 0.1
-1.3 0.0
-2.4 -0.3 -1.2 0.3
-1.7 0. 1
-1.6 -0.2 -1.4 -0.1 -1. 1 0.4
-1.5 0. 1
-1.6 0.0
-1.8 0.0
-1.8 0.3
-1.5 0.4
-1.4 0.0
-1.6 0.3
-1.4 0.4
-1.8 0.3
-1.9 -0. 1 -1.2 0.2
-1.3 0,2
Ch.3
-6.8 -6.2 -1.3 -1.4 -1.3 -0.8 -0.8 -0.5 -0.8 -0.9 -1.6 -1.0 -0.6 -0.2 -1.2 -0.4 -1.0 -1. 1 -0.8 -0.1 -0.3 -0.3 -0.9 -0.5 -0.7 -0.6 -0.7
0. 1 -1. 1 -0.2 -1.0 -0.4 -1.6 -0. 1 -1.3 -0.2 -1.2 -0.4 -1.1 -0.2 -0.8 0.2
-1.2 0.0
-0.8 0.1
Ch.6
-3.8 -5.3 -1.3 -1.6 -1.0 -0.4 -0.3 -0.5 -1.0 -1.0 -1.3 -1.2 -0.8 -0.3 -0.8 -0.4 -0.8 -0.7 -0.5 -0.3 -0.5 -0.3
0. 1 -0.6 -0.7 -1. 1 -0.7 -0.8 -0.9 -0.8 -0.3 -0.4 -0.9 -0.6 -0.6 -0.7 -0.8 -0,3 -0.9 -0.2 -0.6 -O.B -0.8 -0.5 -0.3 -0.3
Ch.7
-4.5 -4.2 -1.8 -0.8 -1.0 -0.6 -0.9 -0.9 -0.3 -0.7 -0.8 -1.0 -0.4 -0.6 -1.3 0. l
-0,6 -1.0 -0.5 -0.4 -0.2 -0.4 -0.2 -0.6 -0.5 -0.4 -0.4 -0.1 -0.6 -0.4 -0.4 -0. 1 -1.4 -0.3 -0.3 -v.3 -0.5 -0.3 -0.4 -0.3
0. 1 0. 1
-0.9 -0.3 -0.3 -0. J
-3.2-3.3-1.2-0.7-0.8-1.0-1.2-0.3-0.7-0.8-0.7-1.4-0.4-0.2-1.6 0.2
-0.6-0.2-0.3 0.2
-0.3-0.3
0. l-0.6-0.9-O.I-0.4-0.4-0.3-0.8-0.3-0. l-0.3-0.2-0.3-0.6-0.3 0.2
-0.4-0.
0.-o.-o.-0.7-0.9-0.8
O
.6 l l
.3
Qflbphytjct Utd.
—RES
COMPONENT
o**4^ CRONE -^ ~'— fi^^gs;ss^^^9f|NQ ;''-.' . ; ,-' ..-; " •" : -\ i ^ .
#~- ZTSI 114*;. G*lni 500
Ch. l
fc^.250UV- :|f223V; ".""
Y ; 200V
173V
130W
123V
100V
75W
SOW
25V
8L
25E
50E
73E
100E
I25E
150E,-
173F.
•JOOE
225E
250E
275E
300E
. z . -.•- .x: '-.Z . . -:-x -:-zxzxzxzxzxzxzxzxzxzxzxzxzxzxzxzxzxzxzxzxzx
279. 0-11.2242.3
4.899.013.0-0.44.0
-3. 13.7
-9.45. 15.511.2-8.810.8-0.818.4-3.815.3-7.311.2-6.613.0
-13.213.9
-12.710. 1
-14. 010.6
-14.911.4
-13.67.7
-20.413. 1
-15.211.2
-16.312.4
-14.812.4
-14.77.8
-14.6B. 4
Ch.2
-7.6-2.8-4.7-1.8-3.1-1.2-4.8-1.7-4.0 0.1-4.4-0.3-3.3-0.4-4.8-0.4-5.6-0.6-5.7-0.3-5.3-0.4-3.3 0.3
-5.6-0. l-3.7 0.3-5.8 0.3-6.2 0.3-5.6 0.4
-5.9 0.5
-5.7 0.4
-5.9 0.8-6.3 0.7-5.9 0.2-5.8 0.6
. Tx Loop-:' ; '^-.V.'i ; "Y::"; ; ' -,~'-"'
D*ttJ 24/08/86
Ch.3-4.8-1.3-0.8-0.2-2. l-0.2-3.1-0.6-2.2 0.5
-1.8 0.8
-2.4 0.3
-2.4 0.8
-2.2 0.7
-2.0 0.6
-2.5 0.8
-2.2 1.0
-2.5 1.4
-2.3 0.7
-2.5 1.0
-2.3 1.2
-2.2 0.9
-2.2 1.2
-2.3 1.2
-2.5 1. l
-2.2 1.4
-2.4 1.2
-2.2 1.2
Ch.4 Ch.3 Ch.6
-3.7-2.7-1. 1-0.3-1.7-0.3-2.8-1.2-1.40.1
-1.40.0
-1.70.4
-l. 10.3
-1.70.3
-1.30. 1
-1.30.4
-1.60.9
-1. 10.3
-1.30.8
-1.30.2
-1.30.2
-1.40.8
-1.40.3
-1.40.8
-1.40.0
-1.20.8
-1. 10.6
-1.81.0
-3.4-3. l-0.6-0.4-1.3-1. 1-2.4-2.0-1.0-0.4-1.0-0.7-1. 1-0.3-0.8-0.3-1. 1-0.9-0.8-0.4-1. 1-0.7-I. 1-0.3-1. 1-0.8-1.2-0.4-1.3-0.3-l. 1-0.1-1.8-0.5-1.4-0.3-1.6-0.6-1.4-0.5-1.2-0.3-1.2-0.2-1.30. 1
-3.0-3.2-0.6-0.8-1.1-0.7-2.3-1.3-0.4-0.9-0.6-0.3-0.9-0.3-0.6-0.7-0.9-0.6-0.3-1.0-0.7-0.6-0.7-0.8-0.7-0.9-0.7-0.7-0.9-0.8-0.8-0,3-1.2-0.7-1.0-0.8-1.2-0.9-0.7-0.8-0.9-0.9-0.8-0.9-1.3-1. 1
l.3 .4
Ch.7
-3.6-2.3-0.3-0.6-1.3-0.6-1.3-1. l-0.7-0.7-1.0-0.6-1.2-0.5-1.0-0.2-0.2-0.3-0.-0.-0.-0.6-0.4-0.7-0. l
0. l-0.3-0.4-0.8-O, l-0.3-0. l-0.8-0.8-0.8-0.5-0.2-0.2-0.3-0.8-0.1-0.2-0.3-0.3-0.8-0.2
Ch.B-2.3-1.3-0.6-t.O-1.1-0.6-1.7-0.3-0.3-O. l-0.5-0.1-1.3-0.5-0.9-0.6-0.3-0.3-0.6-0.3-0.3-0.6-0.6-0.3-0.9-0.3-0.4-0.2-0.8-0.9-0.6-0.3-1.0 0.0
-0.8-0.7-0.3-0,9-0.40.2
-0.3-0.9-0.7-0.7-0.9-l, l
O
Nl
Ut m
Ut
O mM
U
I mrO
C
JC
Irc
U
O eM
lll e
-
—
—
—
KJ
W
K)O
M
O
l -J
O
K
) U
lO
d
O
U
l O
W
O
c e
e e
c e
c
XM
XN
Xr-I
Xr-J
XN
XN
XU
XN
XN
XN
XN
XN
XN
XN
i i
i i
ii.
*- —
^-
^ ^
^.
^.
i —
^
^
f
—M
l—
0^
Nl
OiJ
oOB
O-o
aow
sioo
oiai
Ni'
*'^
— e
r-co
a*.p
M--
Ni —
on-
oi
y i
^ o
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
D
OO
OC
'OO
'OO
-OC
HO
UIO
lHO
O'-
Op
'pU
I—O
'—'f
' —
O-"
-*
pr
"^ ^
^ m
fg oo
** M
^ t*
-j (^ ^ oo
^) ^
J w eh
o *o
oo **
*^ ro
^ o
o ^
01 ^
^J
i i
i i
i i
i i
i i
i i
i i
oO
W—
KJ
— K
) O
K)
— W
— M
OM
— W
OW
OrO
— M
O M
O W
O M
3^ OJ
M p
l l
l l
l l
l .
l -
l ^
l -
l -
l i ,
l ^
l O
)~U
)WM
03
C*O
x(f
lCIU
IUIU
ICD
NlO
'UIL
IIU
IO-K
I—-O
l l
l l
l l
l l
l l
l l
l l
t l
l l
l l
l l
l l
l l
O
^^
O—
O—
O —
O —
O —
O —
O —
— —
O —
O—
— K
) —
w—
t-J
J Ul
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
O—
— —
— *
-W~
K)
0-
I 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
O
"•O
OO
OO
O —
OO
OO
OO
OO
OO
OO
OO
*-W
O*-
J
-J -j
— * O
- c*
CB
W -
-J —
*-
CD C
D w
*-
Nl
O- C
I OJ
* -
O NJ
W O
- O
O W
W
M
i t
i i
i i
i i
i i
i i
i i
i i
i i
i i
i i
i n
— o
oo
o^
-o*-
o —
o^
oo
o —
o —
o —
*-*
-*-*
-*—
^-o
—H
jO-v
I-O
OC
Do
aC
Da
---W
O-*-*'-
J*-*-W
O —
K)
—
*-
X)
(Jl
O-
OD
Is er
i" S
o *
-'
O
m? Ci
z (O i j* x m MS
o o o) r o o
02
Ci nT
m 71 r z D S m W (O M (O m
c -t o 1 o 3 O r •4-
O.
- x
^iS
iPil
•"••'
•'.'-•.
••VSs
?;--?:
:'.1 --
:-
;'~ - "
JiY; v
;~J:^
y:'V
'';:A
V
O' {
^ i -
: .'A
-**'
;'''-:
'i' '-
-Vi1*-*
^
, HW
,,v-,.
S**
'S',t
if---
"-"--
'••i'.'
- .
.'j.;
.-::
.^it;
:Vfe
-i--
Vf;
'tw.JO
' .;K
-,;-^
?"*
". ;
"-'i
o;U #
y'i:^
i*:3
-:^:
V:
"' '^
•'-'•"
^^ •
-'••
^^.^
•'':
- -'V
'',*
'm* ;^P
;v-p
•••^
3S#.'*
,S?fa
^Bi
52JC7SE8753 8.1*234 BOUCHER 900
OvS* -ifP- - XilX-^and M ines
, ; Ontario i
^Northern Development - "••'v'lTaciiniciy^iBflafiS^ •^and Mines ^^^^^f^jt^^^
TO BE ATTACHED AS AN APPENDIX TO TECHNICAL REPORTFACTS SHOWN HERE NEED NOT BE REPEATED IN REPORT
TECHNICAL REPORT MUST CONTAIN INTERPRETATION. CONCLUSIONS I rCJ JJH 7-3
l Type of Survey(s) Surface "DeepEM" and Borehole Pulse EMl Township nrArM EvanS Lake/ Boucher Twp.__________ "
Claim Holder^ Cumhprl and Resources T.tri.^..^^^^,
MINING!li? IS U W
A.M. P.M.
purvey r^mpan^1'0"6 Geophysics Limited ^uthor 0fReportJ- :Duncan C rone
; of Author : Mississauga. Ontario
[Covering Dates of Survey 'fM: -,\: " .'- - " ''- ' • i;
iTotal Miles of Line Cut —^-^(linecuttinf lo office)20 kms
SPECIAL PROVISIONS CREDITS REQUESTED
H*
j. ENTER 40 days (includes |: line cutting) for first
survey.l ENTER 20 days for each f? additional survey using
same grid.
Geophysical—Electromagnetic.—Magnetometer.^—Radiometric———Other^-^.^^^
DAYS per claim
Geological.Geochemical.
NE CREDITS (Special provision crediu do not *pply to airborne lurvcyi)
Magnetometer Electromagnetic ___ ™ Kadioiuctric(enter dayi per claim)
17. 1987 str. MATIIPif .Author of Report or Aftnl
es, Gcol., .Qualifications.rcvious Surveys File No. Type Date Claim Holder
MINING CLAIMS TRAVERSED Lilt numerically
PA ^45319
845322
846418
846419'•••••••••••••••••i
846420
846422 •873592"
.873593.873598
874393
874394
874395
TOTAL CLAIMS.
' GR
AV
ITY
"W
s
8 f
5!5
S S
1 l
D
E r^ u 3" •* n c •^ c vr. i
to
P rt V. P; c" 3 K C
n fi 3 O. o~ B •-^ o
P
5?
S"
o c
|
1 8
I1
l 3
""
t!
I s
o.
rs
ELEC
TRO
MA
GN
ETIC
' 'y
2
> o
o r
S ^
Q 2.
g - 2
..
MA
GN
ETIC
D D
S3 g3
5
ii !ij
s
n. (D
o
!jgg SELF POTENTIAL ik'/f* Instrument;|;I' Survey Method
RADIOMETRIC InstrumentValues measuredEnergy windows (levels) Height of instrument Size of detector Overburden
Background Count
(type, depth - include outcrop map)
OTHERS (SEISMIC. DRILL WELL LOGGING ETC.)Type of survey Surface "DeepEM" and Borehole Pulse EM surveys
Parameters measured
Additional information (for understanding results)
Type of survey(s) Instrumcnt(s)
Accuracy(ipccify for each type of turvcy)
(specify for e*ch type of lurvcy)
Aircraft usedSensor altitude—Navigation and flight path recovery method
Line SpacingAircraft altitudeOver claims onJyMiles flown over total area
.-- - '-- -V-. -' '. --r
.,.^m^?^^^^ f-'---\ --' :C7^ ~' ;
•H.
11 •i
-- —————~————————————————————-5-i;-.---- -T'.-... |- i . J y*-- - --.- " ;- v' r\ r \i-y-v\-.,,,. *..^,..: r .-.-.. f-. : ;:\^4J ^L-—r?^; ? i.-:l?v ?? r—— -r---,— -rr'V - ,I!~K-^U--—--.-.- -••-••- y-^^^a !- ^ I i/ u/
'-V-?-. iii-.-c^ ' ^"--^Kr^vl f ?*T.i -'^7;•^r--^^:|H--^i; ^ ^^ifWU-ilL 4-^t' L \ \ ~- ~~~—vK i ' : - -^f-^--—--:.-- 7 x" ' \ l ' : - -s-w. \
x iv-'- ^- ' ^ V^- ^ ., ^f - ~'^^ -^ •^'-•..-..--•••\ '^-.1^ - -A ^, ^-- -y— -:——-—— ^——j—— -; v x\ r.- \ ,^--^ . - . .r~±^ - '--'- ', -' ^-;-"-" ,- f *^ ^-"^'
! ., , . v, , -^y . m *. ^ j*. -
^\ -'^
. S 'V--' ---^r,-''^ -- '.-^-'-. - us- '*'-^i-'^! , — — —-^- —— - — -.^' -, : i6\ T-- ; fc- i ; s
L. ^
-- U-:.-.- : :^JI;^L--
^a^T/oise. /vteA^BJ^^ ^rv-\-nM ...;• :-
'^ So^l^--- t- aHoa^.^
**^. -\ *.
- ' -. i -: - . . .
i ( ••.'.••: ..'.--i -. .:-
C; -::: - . - - .
; ----..--,,——-——l
•v. ;. O
^-.-,
BOUCHER TWR-C S STA-.JS ?.^-HR TO TWP PLiS-V:55C
.^ Ar-rs:--^ ,-- . . ..-•:^.:,,--r'.v- :---.-:-:^^-M'^^^rc^--; -%-nil
KV
AN
SM
-177
4 ;'/^
: -;:;
|S
l p-
m ItgtafmmBiBtffiBinnBMHfflBf^ffBtEtBHtfHtBFH&MJi^gUfBBBiBfBHttfi^^fENSftntttniHtffBf*itims^sis^fiW^4'S;v'' Report of Work" : . t ;jr8f~Y4-7 * ".auction*: —Please type or print, ' . .'r'v(; . :v.-;^ ? l,9Rm,?/1!-';. 1 - - , . : A ' W - ""'-' - " numb" of mining claims tra'Wried'v
0^3Ysical/Geological, Geochemical andExpenditures)
Mining i
If;
exceeds space on this form, onncha list. ,* Note:— Only days credits calculated in tho';
"Expenditures" section may bc entered .' in the "Expend. Days Cr." columns,
— Do not use shaded areas below.
fat* C'/?.~- — — -— — -— -
Townshlpo, A roil
Address •7Survey Company ^
Name and Address of Author (of Geo-Technicnl7epor7)
T. U iMJiV.
jOatc of Survey (from Si lo)
fo l ^ '' , f'. Day
iles of line Cui
•.'Credits Requested pi*r 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)
f/an Day*
Complete reverse side and enter totalls) here
Geophysical
- Electromagnetic
- Magnetometer
Badiometric
- Other
Geological
Geochemical
JUU 2
MININGAirborne Credits
Note: Special provisions credits do not apply to Airborne Surveys.
Geophysical
* Electromagnetic
lometcr
Other
Elecuorrtjgnettc
Badiometric
Days per Claim
Days per Claim
Days per Claim
•i Expenditures (excludes power stripping)
Mining Claims Traversed (List in numerical sequence)
Typ* Of Work Performed
Ptrtormed on Claim(s)
Calculation of Expenditure Dayi Credits
Total ExpendituresTotal
Days Credit!
Instructions:, Total Ojys Credits may b* apportioned at the cljim holder's
choice, Enie? number of days credits pci CI.IK^I selected*n columns at right.
Mining ClaJmPrefix
*72 yiflim®#-:-WW.'••fji^'-V*-""' '•.; N^.^v;•' W.Vv^:.:^'.viM i
' * *P'"\ i..';,:;{ -t
Number
.171774rm^35^74^4^Iil32^^74373JT.2^i4-ilttia^.
Expend. Days Cr.
Mining Oo'mPrefix T Number
'JT -^ -* -V-T'.*V r/f-*-*iVf-^.V*
*i**** t i'- */11 *^'•f^?**r.'
fe^
^
,7i8[ iil.0il.lil.2i l i?|I
Expend. Days O.
la. S363M
\'l\l'ln l Holflfi or Agnm (
tion Wrifyinq Report of WorkJ\
.. for pflice Use OnlyToiul Days CriDj.o Rocoiooil RccordoU
Mi ni\j*^Tcc orcWr
l lieicby ceitify thai l how a peison.il and inuin.iic knowledge ci ihu f.icii i'^TfoTiii in Ihc RopOM o( Work annexed hereto, having perfonra-if the wo nr wilnciscd Siime during and/or ader its completion ami 11 if jnmtxrd nrnon ii tun'.
\QZy^*4tone?^.'^,:V^i ,Work Credits ;;^s^^^Mm^^^'^-^'--.-:----':--'- - : t#fitfs83^mw#tefc ti-.fr-'. :M..;' - - ;-' '.K!f^lt^i|^:r-^'"'••.: -' : ' '" ;:"Recorded.Holder,,,^. .,,.:-,.^ v ...... - . - . - . -i^fei^^ll^'/^^'Cumberland Resources Ltd.
hip or ATM ; v'.'i *'..-. ••.'.; .. i—————————-—————. i .i—————————
'"'"^vx ,; : :: -V 4 Boucher Township and the Area of Evans Lakei Type of survey md number of 'Assessment days credit per cliim Mining Claims Assessed
Geophysical' Electromagnetic. 16
b; Magnotometer.
;;'-... Radiometric.
- Induced polarization.
Other—,-————
.days
. days
. dayt
.days
. dayi
PA - 845319-20 845322846418 to 20 Inclusive 846422 873592-93 873598 873774 874383-84 874392 to 95 inclusive
Section 77 (19) See "Mining Claims Assessed" column
Geological _________i________ days
Geochemical _________________days
Man days Q
Special provision Q
Airborne ll
Ground Q
Credits have been reduced because of partial coverage of claims.
Credits have been reduced becauie of corrections to work dates and figures of applicant.
is; Special credits under section 77 (16) for the following mining claims
m ltiJ??-*
fimJo credits have been allowed for the following mining claims^"l1 PI not sufficiently covered by the survey'' '- Q Insufficient f hnical data filed
(' The Mining Recorder may reduce the above credits If necessary in order that the total number of approved assessment days recorded on each claim does not C l exceed the maximum allowed as follows: Geophysical - 80; Geologocal - 40; Geochemical -10; Section 77(10) - 60.
Resources Ltd.Township cr Area - , .^i^ s j".; : v:-;.Boucher Township and the Area of Evans Lake
of survey and number of Assessment Jays credit par claim
GeophysicalBorehole PFM 4.7 PA - 846418
846420 874384 874392 to 94 inclusive
;. Magnetometer
Radiometric
Induced polarization
l Otrn.
Section 77 (19) Sea "Mining Clalmi Attetied" column
Geological __________________days
Geochemical _________________days
Airborne Q
Ground
Man days
Special provision Q]
Credits have been reduced because of partial coverage of claims.
f~l Credits have been reduced because of corrections to work dates and figures of applicant.
, Special credits under icction 77 (16) for the following mining claims
iy No credits have been allowed for the following mining claims
t Q not sufficiently covered by the survey Insufficient technical data filed
: The Mining Recorder may reduce the above credits tf necessary in order that the total number of approved assessment days recorded on each claim does not j axceedthe maximum allowed ai follows: Geophysical -80; Geologocal - 40; Geochemical - 40; Section 77(19) -60,--
^^^ "'.'' ' fC ,7"*^-;\.^^Y^^''^*'^^^7t^f^,^-;v:'1/-''^' ~'i'i "' • f .-i-*'.'-".-V '-V ' ". '
Telephone (807) 344-6?)98
74 Winnipeg Avenue. .THUNDER BAY, ONTARIO
P7B 3P9 .
July 21, 198?
Mr. Roy SpoonerMining RecorderMinistry of Northern Development and MinesP.O. Box 309Sioux Lookout, Ontario, POV 2TO
/Dear Mr. Spooner:
This report of v/ork includes both surface and borehole geophysics. Thus claims PA846418, 87^384, 87^392 and 37^393 have the borehole and/or deep EM surveys. Each of these claims should be assessed 20 days of assessment from each of the borehole plus the surface survey assessment, (ie. 846^18 - ^0 days for borehole) I enquired locally on how best to file this v/ork. Audrey phoned the Toronto office and advised me to follow this route.
It would be in Cumberland's best interest if this form of geophysics was allowed on the dollar value since it is very similar to the drilling assessment in nature.
Please advise on any necessary changes.
Yours truly,
CUMBERLAND RESOURCES LTD.
tt. Mccrindle.
PATRICIA MINING DIV.IS) g (81 i) M [f,
JUL23 1987A.M. P.M.
i!Ministry ofNorthern Developmentand Mines
Ontario Ministere du Developpement du Nord et des Mines
February 2, 1988 Your File: 87-147 Our file: 2.10234
Mi nine RecorderMinistry of Northern Development and MinesCourt I'nuseP.O. Box 3000Sioux Lookout, OntarioPOV 2TO
Dear Sir:
RE: Notice of Intent dated January 12, 1988Geophysical (Electromagnetic and Borehole PEM) Survey submitted on Mining Claims PA 845319 et al
___in Boucher Township and Evans Lake Area,———————
The assessment work credits, as listed with the above-mentioned Notice of Intent, have been approved as of the above date.
Please inform the recorded holder of these mining claims and so indicate on your records.
Yours sincerely,
W. R. Cowan, ManagerMining Lands SectionMines and Minerals Division
Whitney Block, Room 6610 Queen's Park Toronto, Ontario M7A 1W3
Telephone: (416) 965-4888
Enclosure: Technical Assessment Work Credits
ONTARIO GEGIOGSCAI SUK.'Cf *Aoo^.vi.-iii r H.:. -- j fi "' A.iJri C.'.-iw^ j
FEB -1^38
R G C F: i V E D
cc: Mr. G.H. FergusonMining X Lands Commissioner Toronto, Ontario
Cumberland Resources Ltd. 74 Winnipeg Avenue Thunder Bay, Ontario P7B 3P9
Resident Geologist Sioux Lookout, Ontario
Si^S^.,y'V;,:
SEE ACCOMPANYING MAP(S) IDENTIFIED AS
LOCATED IN THE MAP CHANNEL IN THEFOLLCWING SEQUENCE
(X)
ANSAKE l Q61590
DIGHEM III AIRBORNE EM, it M AGNETOMETER SURVEY AREA
GROUND SURVEYS NORTHWEST GEOPHYSICS MAX MIN EM MAGNETOMETER GRID COVERAGE
CUMBERLAND RESOURCESLTD.
SAVANT-EVANS LAKE PROJECTCRONE PEM TRANSMITTER
LOOPS TX-1 to 5 SURFACE DEEPEM TRANSMITTER LOOPS TX-1 to 2, BH PEM
REVIEW MAP SURVEY COVERAGE
FIGURE 4
COMPLIED BY: M.W. LEAHEYDEEPEM SURVEY nmn l IMF COVERAGEXXX X SCALE: 1:5000E-OP aa APRIL 1987
52J07SE8753 2 .18234 BOUCHER 200
MONIQU LAKE
DIGHEM III AIRBORNE EM, ft MAGNETOMETER SURVEY AREA
GROUND SURVEYS NORTHWEST GEOPHYSICS MAX MIN EM k MAGNETOMETER GRID COVERAGE
x x jc y
CRONE PEM TRANSMITTER LOOPS TX-1 to 5 SURFACE DEEPEM TRANSMITTER LOOPS TX-1 to 2, BH PEM
DEEPEM SURVEY .1 GRID LINE COVERAGE
CUMBERLAND RESOURCES
______LTD.________SAVANT-EVANS LAKE
PROJECT
REVIEW MAP SURVEY COVERAGE
FIGURE 4A
\
COMPLIED BY:
SCALE: 1:5000 IL 1987
52J07SE8753 2.18234 BOUCHER210
SE- QQ
LEGEND
Conductor location
Detected on this number o f channels (1 to 8)
Weak amplitude anomaly
Moderate amplitude anomaly
Strong amplitude anomaly
First priority anomaly
Cultural conductor - power line, pipe line. etc.
Transmitter loop corner
IOO 100 200 300
METERS
CUMBERLAND RESOURCES LTD.
SURFACE AND BOREHOLE PULSE EM SURVEY - DEEPEM
EVANS LAKE PROPERTY SAVANT UAKE AREA - ONTARIO
DRAWNBY: m | jamshedji
APPROVEDBY: o . Duncan Crone
DATE: Sepl 1986
SCALE: 1 : 500C
CRONE GEOPHYSICS LTD.MISSISSAUGA ONTARIO
52J07SE8753 2.10234 BOUCHER