IDGHLIGHTS of2006 Drilling by Arvo Salo · IDGHLIGHTS of2006 Drilling by Arvo Salo Hole F06-02 in...
Transcript of IDGHLIGHTS of2006 Drilling by Arvo Salo · IDGHLIGHTS of2006 Drilling by Arvo Salo Hole F06-02 in...
IDGHLIGHTS of2006 Drilling by Arvo Salo
Hole F06-02 in McGarry Tp. G3678
Hole F06-02 was drilled in August 2006 to test the ground north of Hole F05-01 drilled in 2005.
This hole was spotted on the basis of prospecting by Arvo Salo and this author. This author
logged the core and marked the core for assay. The core was split by wheel and hammer splitter
by Mr. Salo under the supervision of this Author. The core assayed by Kirkland lake Gold Inc.
under the supervision of Mike Sutton, Chief geologist of Kirkland lake Gold.
This property is located approximately 2.8km east of 2005 drilling performed by Goldstake
Explorations Inc. and 15km east of the Upper Beaver Mine. Both of these properties are located
a comparable distance north of the Larder Lake Break which controls the location of many gold deposits in the Abitibi region of Northeastern Ontario and Northwestern Quebec.
The majority of hole F06-02 is zone of calcite fracture filling (generally 2% by volume) with
associated pervasive calcite alteration. This fracture filling and alteration is indicative of close
proximity to a significant deformation zone( s) similar to the deformation zones that typically control gold ore zones in the Kirkland Lake-Larder Lake gold camps. Several small scale
deformation zones were encountered that could be splay or associated zones associated with more significant deformation zones.
Hole F06-02 intersected small scale calcite-pyrite (+I-magnetite) veins and veinlets throughout the hole. Previous hole, F05-0 1 intersected banded quartz-calcite magnetite replacement of the
wall rock with anomalous gold assaying O.3gmAu1tonne over 3.37m. The association of magnetite with gold mineralization at the Upper Beaver Mine Gauthier Township near Kirkland
Lake adds credence to calcite-pyrite-magnetite mineralization being a viable gold target.
Previous hole F05-0 1 intersected four zones that represent a wide range of alteration-vein styles
which represent potential phases of gold mineralization. The .property warrants a widespread exploration program targeting alteration-vein zones and mineralization similar to those
encountered in hole F05-0 1. An existing base line should be re-cut and a new 50m grid spacing
established.
Hole F06-02 intersected O.Oloz/ton (0.34g1tonne) over a 1.59 meter core length in calcite
alteration.
A systematic IF survey should be performed to identifY and trace chargeability and resistively
anomalies. The following work is recommended to identifY gold deposits:
1. Dipole-dipole IF with a 50m "a" is recommended on a 300m spaced line interval. This is
intended to look for large scale features and mineralization to a 150m depth.
2. Dipole-dipole IF with a 25m "a" is recommended on a 100m spaced line interval
(possibly excluding the lines surveyed using the 50m "a" spacing interval). This is
intended to look for smaller scale features and mineralization to a 75m depth.
3. Real section IP is recommended on a 1000 m spaced line interval. This is intended to
look for structural features that control ore deposition and to look for deep blind ore deposits.
4. Walk magnetic surveys conducted with a 2 second reading interval (this gives an approximately a 2m reading interval) should be conducted to trace lithologies, structures
and alteration beyond outcrop areas.
5. The property should be detail mapped (1 cm = lOmeters) with emphasis on outcrop
extent-location, alteration and structures.
6. Grid lines at 50m interval should be cut to accommodate detailed surface mapping,
geophysics and sampling. This close spacing is required to resolve complex alteration and structural structure patterns. The alternative is a square grid with 100m spaced line intervals in both the EW and NS grid directions.
7. Cross (control) lines should be cut at 400m intervals (minimum). These lines are useful to
A· entify cro, s,s stru(;illres an 0 acc~, tely locate the major grid fabric. /
.' / ",,".~"SSIOI\t... .'
~. ' ~//!~f!!- ~ l \ _._~"_." -/ ;' ,'!j' Q. v ~ ~
Douglas Robinson ..., N' 'Of'l ~. (!J i J p.0R\.:> "
August 29, 2006 :c C."""?J!A' ~.: .01) ~1: "
'~ ~ 1.'11) " 'oj ~I ...l.' , 1,1
·"';;.''''c~ of ,"!~ "',, \ w·". _'.', : \, "\
, ~,.. ' .. " II
--=--_J-------r-/ -I--?t\X:6; g.,~~... -, b~\ J..\~ \\J\~ - c..~-Ptl'N\ "'''':\\Bb3c? - '(\ ~f.)~R'tTuJ()- ~\\{t0£.e \.J\~ 0\ "'(S\t,\~ ;~/L \\ <)<)?t'lS -., . \)~ f\\J..~~-~uk~\l/~b \~
m GL.~ ~ ()o'S'\
'e :s:>~,\.~ ~o~ ~ 1\() i\£) ~. ~C~SS " .. M - N\ (\CotJ~T\L ""\'Ri)..JO + ~"~I' Th <'I~ (I. 'iLC;l'c rJS€.
N
o 50 \O-C \~o ~ 1 tit t ~~ES
SaLE. \ eM ~ -So h"\
~
f\\.l~~q!~t: \\)S~" \\£~qT
'~ \) \-\ \= 0 to - C 2-
C'-A\fY) L-\ \ <i(b?;OSr
\\1\. c:ca~R~Y -n.u r
(WE.. ,~~~>(b~tEO c-c~~"\"O S\'\"\\\\Nb
iF\\C\L\\'f) S ~~\T -~~ 5~\'{\QLE:, \)G:S\CoK)~tE 0
01 "~E:. CD~S\.tJ.:\PrNTI ~V-\~0£D)·-m"b~D R~ D
lV\.ft~~O ~-\£ CO~E. \JJ£.. --n-\£.'f..J <\"'R~~~QD~D
c..C)~ta S~'N\V\..E<; - \ 0 V0~\('-'1NO L-l\\(\f:. ~OL-D
l\S'S'~'f oFf- \C~ t='o~ ftSS'~y' ~Jf-\-~O ~·~\9r?of.(1£O
coR.£. 1Sc>)(£~ -:r-o V\~~~~\(:\\oLD0 1=oRS\bi\<t\b~
""'. ' . - "--- --/
"OC~\\OW f\ \..JD ~ c.c.a~~
£\. \..C)C.~-nt)lV ~N t) 1\CL\i2:.SS 'f(\~? \ $
~C-LOSED.I ~\-\~ '\'~c\JG:~ 1 S '-OC'f\~O \\J
--n.\a Ua~~L M\~~ £) r '1'1\ c..G-~~~'f "\"OOJ...:&~le
fl\Rc\;L~p ~oX~~9(\\\ ~~~t ""--~$'\1-\~t.J ~ ",,-\ul
"->D~ ~ ~ ~\-\£. K:>~t'I\~R... \'i\ ~.JO ~ b-OLO PRDOUL'£R
f\\J. £'-~(>\\~~) ~~ \('~R.R-i'\\\~fi..J\d'~M\\"'LlDW .
t> 2- D~ &oLD f>~oQuc...-no~ l ~i:.. Q"C~'R..."i \ s
f\c..L~SS~ 0, fi\E~£R~ ~'-1 ro'l -\RQc.\<::. ~()1'A
\I\Rb~~\ {\\b\.O~i\\\~C~"\1 ~~~~S 1\....~.t=T f\ \J 0
NOR\\-t C>\J ~~ ~\-\~W\.\~l S ~OPtO) Oy£~ \t-\ ~
R\i\LuJf1Y~~cKS) ~~D ~FT D~\\-\£ B~~
){\f\\~ ·~.oI)D W~<S~ )<""\0 '\t\£ ~\RS\ m\\\\J \\..:It£R,
5G:.C\\DlJ ~C>U-T\-\ Wt-\\C\-\ ~\S'~c.."\5 ~Ot.LCo~L'I
~t\£ Fo)('Q:~~ ~\\O~~J \\CC:f£:.$$ ~\\,/ B ~
~\l'i\l~O<\O f\\'J \~\\-\~ \)J\\JTER,
· ~ f\ ss~'/ ~~S\1..C\S'
\\<;)~'-J \ N 0 W ,,"So '0 0 ~~ B 'I Y\:'\ ~\\LV\\K) 0 'L'f\ \R~ ~'-O \.\.~D~R -\\-\~ SQ.~ERv\<;\C~ e:>t= 'fV\\\-\£. ~u:( (OCV
4-\\~t:- (9~bLOb\ST. ~<;~y S\-{-~t2:"( ~aS\t.\.."TS \\~E
£~c..\.. oS'E.\) »V \ ~ 'N\D ~ 0 0 <R. \ LL H,o L~ \= 0 G -0 ~
\ ~ ~<; (Zec--E 0 O. 0 I t> fo f....l C D, 34- 9,/-6,,", Y) e) 0\Jtc.R C\ \,,\~ VV\\£TY<E Lt>R£ '-~~~\'t\ \~
C{\'-.L\.TE:- '{\ \... T'€1R.~\\a ~ t~
~~) [~ ~'--:---l h' " ... j
en ~LW. 'Sl <> \.:) ~ ,,~.~'",J I [IIUD I
f\C;C;<f\'1 '-R1.e:- <;'u..L TS \).)~-~~-~·~S \\ Q QOI®l\.\::
ttDw~J~'R ~ yy\\~\~~VVl ~~S~L-r5 Y3y
'f{\ \ ~E- f\-S':}?ty' w~~E:- ,0 \ 62- ~r-0t--J ~v. W \£
\?~L\ ~VE: 'fV\\lC\--\ 0 ~ ~t\ € L{)R.€- Uj ~ S
~~O\J\A'A\.DU<; \'W ?.~ \~ \?\''B\S '4-\Bov/\£
~t\-L~(QRDUWO, \.0~ \D\LL C~~c~ 50VV\E '~Q'4~R'G:~
~ \ S ~ ~ili ~ \[V\ \Z: w \[) ~ D W \Z:- F"o '-lOL()
----\~E- Co wS~L0l\~\S f\ ~C1) 'l\v\V\A~~ O(t\\a~5
'\\;-S c;oo~ \\S ~l~~NL\'\\LL'I ~\~L~
fY\DRS 1)~\'-L\wc' \0\\\:\ beo0-\YS'\CPtL
~0\~ \\(O~ \S ~~~~E"-L'I ~'R(~5rE'i: (1E~ Co N<;'VlLL¥\w-r-S -R 'PO \. ~II\-..l Ld;.. )
~ ~"Z-1 ~~
Pt<;~~'1 ~~\b~T
~O\-\ \= Ob-0 2-
L'-'A\M. L-\\~b30S-
\.ljo~~ \)a~E F~-()~ Cc~S\:c:c:=t '1",...,) rs tx>G;0wt> ~\:rfY ~~~S'(bf{\\~Co Lo~e..\(J ~\\..\ \ (\~b F\\L\,",\TY~ S9'-.\-\' \ \W~ CoR,f:'
, .~~~ ~~\ ~ (0 ¢-"--\t\ c::>(P\ \..l~ S1+"'N\ ~L£.. "S ~~'"$" I,
~\l(P~4!~C>~ ~R\'\'\\NG CORE - VR~Pt\f\\~ A ~~ ~ ~\ ~ G ~ .(4 't\I\. '<'LE '\3 \4 '=> S
(\\l..(P d.. '<;'~(P , S \'\... \. \-\ \ N G. CD R!L.. - (/ Rl£...Q\'\~\.\,jc... r ~ ! IJ.-~O ~"b\o.l'" <;(:\N\PLL £, ~~-I >~£S 'I ~~~~QD~\ N~ CO\R.lZ: v \ 0 ~\~\('L\\~D
\ ~~'+\~ ~ ,-0 \\S'<;~y D~~\L£ \==oR ~SS~i----n<.{t"'VO~~c. Col<E- e,OXES,
--10 \f \~b \ 1--1\ 1itD\..t.)\..J ~R. S -'\0 R. Pr Co ~+ f\~\b~
Canadian Spatial Reference System - Universal Transverse Mercator (U1M) to Geographic Page 1 of 1
1+1
Natural Resources Canada
Cani1dion Spariaf ReferenG":: Systf!rrr p>Home " Height Modernization iI> Partnerships .. Activities I>- History I>- Service Standards
Data products • Products Summary .. CSRS Database .. GDCINFO (Gravity
Data, I> Online Applications
.. NTv2
.. GSRUG I.INDIR .. GPS·H .. TRNOBS
II> Networks • Software & Data ,.CSRS-PPP I> Publications II> Standards .. ToolboX
Educational reSOUY<::8S .. Geodesy JooOutreach I> Postglacial Rebound iI> Chicxulub Crater I>FAQ /i>GJossary ,.Acronyms
Related Link:; I> Links Summary > Provincial Agencies j> International Year of
Planet Earth
Proactive disclosure
~
Print version ;;;~~
Naturol Reooureos Rossootccs natuml1cs c.'lnQ(jQ Ctmodo
Site map
Earth Sciences Sector
Canadian Splltial Ref~ren(e System
Natural Resources Canada> Earth Sciences Sector > Priorities> Knowledge-based services> Canadian Spatial Reference System
Canadian Spatial Reference System Universal Transverse Mercator (UTM) to Geographic
(GSRUG - Info 1 C Data File Processing J
Enter the UTM coordinates of the point you want to compute .
Optionally, you can select the ellipsoid and the UTM zone width. Note that the 3 degree choice is only valid ;n Canada.
View UTM 6 Degree Zone Map for Canada - JPG File View the Canadian 3 Degree MTM Zone Map - JPG File
Input Data
Zone:
Northing
Easting
Ellipsoid
Zone Width:
Output Data
ResuHs
17
5336126 meters north
0606399 meters
GRS80 (NAD83, WGS84)
6
UTM to Geographic computation output
latitude: 48 degrees 10 minutes 10.073782 seconds NORTH
Longitude: 79 degrees 34 minutes 08.201180 seconds WEST
2006-05-16 Important notices
2.33154 http://www.geod.nrcan.gc.caJapps/gsrug/utm_e. php?utmzone= 17&northing=5336126&nor... 8/28/2006
® Ontario Ministry of Northern Development and Mines
Drill Hole Summary Sheet
Folder Identification Number
Drill Hole Identification
DRILL HOLE IDENTIFICATION Name of CI' Holder or Mining Land Holder
\If!) 0
CO-ORDINATE INFORMATION Indicate method used to obtain drill hole location co-ordinate:
o Don't know 0 GPSreading (Geographic Positioning System) 0 MNDM CLAIMaps system 1M NTS 1:250,000 map 0 NTS 1:50,000 map . 0 Ontario OBM Series map o Paper claim map 0 Sketch map 0 Surveyed co-ordinates o other
DRILL HOLE COLLAR LOCATIQN CO-ORDINATES '\
Collar Location Co-ordinates. You may provide co-ordinates in UTM or Latitude and Longitude
Datum NAD 27 or 83
Zone 15, 16, 17 or 18 -UTM Easting
Northing
Latitude and longitude data Latitude
(degrees/minutes/seconds or decimal values) Longitude
OTHER DRILL HOLE DATA
Hole Type 1) \\\W\ouO YR\Ll (~QU1 (examples percussion, diamond drill, underground) .......... ,
Year Drilled ~t)C:-..>
Azimuth 3400
-i\-S ,
Dip
Length (metres) \S-~ l"V\
Overburden Depth (metres) C
ELEMENTS PRESENT ABOVE DEFINED THRESHOLD LEVELS
o none 0 Nickel -at least 0.1 % o Silver - at least 35 grams per ton 0 Lead - at least 1.0%
~
o Gold - at least 3000 ppb 0 Platinum group elements - at least 500 ppb o Gold - between 500 and 3000 ppb 0 Zinc - at least 0.25% o Copper - at least 0.1 %
TYPE OF LOGS ASSOCIATED WITH THIS DRILL HOLE
o none 0 geochemistry ~eology 0 geochronology
o geophysics o petrography
"Mining Lands Website: http://www.mndm.gov.on.ca/mndm/mines/lands/default_ e.asp"
0205E (01/2006)
DIAMOND DRILL LOG REcORD Drilling Company: Crites Drilling. Date Started: Aug. 06,2006 Date Completed: Aug. 11, 2006 Hole Length: 152 metres Log Completed: Aug. 22, 2006 Logged by: Douglas Robinson, P .Eng Core size: NQ Rig Type: Longyear 38 Shell & Core barrel Notes:
HOLE #: F06-02 Property: McGarry Township
Collar Grid Data and orientation Claim No: 1186305 Grid Line: No Grid Township/Area: McGarry Tp. Station: No Grid North of Virginia town Elevation: Approximately -315m. ConcessionlRange: n.a. Azimuth: 340° '''~---. "~~-J~' .. _...., Lot: Unsurveyed Tp.
Grid: No Grid' : ;::. I Longitude: -79°36' West Wedging Data h.a. ~. I Latitude: -48°10' North Depth Direction n.a. \' I UTM (NAD'83) Zone: 17
Reaming Shell: Not Specified 20 foot core barrel
• '~J I 06064498 mE . 5336077 mN
Casing: Open Casing left
Down the Hole Survey Control Measurement Depth Raw Method Meters Dip Brunton 000 Clinometer 000
Raw Azimuth
340°
True Dip
NTS: Map Ref No. ,i
,j
I ~
True 1~_,,",~ __ ,~, ____ .~J Azimuth (Magnetic Declination 12°19'W)
3400
. ~' . ~ i
:_-',', ~\\
Hole #F06-02 Logged By: Douglas RobinsonP. Eng Sample # From To meters gmAuitonne 1
From To Description Sample From To Metres gmAu/tonne
0.00 7.42 MAFIC VOLCANIC CHLORITIC. Light to medium green, aphanitic to extremely fine grained, generally massive with minor flow texture. Moderately hard « nail), sporadically not magnetic to moderately magnetic. Mineralization: Under hand lens the core appears to be pervasive alteration with extremely tiny white specks. Sporadic pervasive calcite alteration. 3% calcite fracture filling to 0.5cm commonly 45 & 150° to core axis. 0.1-1.0% extremely fine grained disseminated pyrite in calcite fracture filling. Up to 0.5% fine grained disseminated pyrite in fractures and in wall rock. 78451 Whole core sampled. Broken Ground 78451 0.00 0.98 0.98 0.00 1.05 52° 1.2cm calcite fracture filling with 1 % fine grained disseminated pyrite.
78452 0.98 1.10 0.12 0.00 78453 1.10 1.57 0.47 0.00 78454 1.57 2.46 0.89 0.00
2.80 Two l.Ocm calcite fracture filling with 5% black magnetite and 3% pyrite masses. Fracture fillings at 148° & 30° to core axis
3.00 62° 2.5cm calcite-quartz-chlorite vein; banded. with 0.5% very fine grained disseminated pyrite.
78455 2.46 3.28 0.82 0.00 78456 3.28 4.22 0.94 0.00
4.49-4.68 Possible pillow structure with fine hyaloc1astic breccia. 78457 4.22 4.80 0.58 0.00 1 % disseminated pyrite.
78458 4.80 5.78 0.98 0.00
78459 5.78 7.42 1.64 0.00 7.30 00-20° 6.0cm epidote-quartz-calcite vein with frayed contacts
Hole #F06-02 Logged By: Douglas Robinson P. Eng Sample # From To meters gmAu/tonne 2
at approximately 60° to upper contact of porphyry below. Ground Conditions: 0.0-2.0 Slip spacing average 3cm 2.0-7.42 Slip spacing average 10-20cm.
7.42 9.20 PORPHYRY; FELDSPAR-MAFIC Mafic feldspar porphyry, medium pinkish green. Uniform and massive, not magnetic. 25% 0.Ox1.0m feldspar phenocrysts and 2% 2.0mm feldspar phenocrysts. 5-10% 0.0-1. Omm mafic phenocrysts and interstitial masses of dark green mafic mineral. Upper contact and lower contact frozen at 30° and 80° to core axis respectively. Along upper contact 5.0cm chilled with 0.5mm feldspar phenocrysts. Mineralization: Weak pervasive calcite alteration of groundmass. 3% calcite fracture filling to 0.3cm commonly at 55°, 30° and 10° to core axis. 2% epidote alteration as fracture filling to 0.3cm. 8.10 -45° 4.0cm quartz vein massive, with 15% calcite patches and 5% chlorite patches. Ground condition: Slip spacing average 5-25cm; brittle ground.
9.20 142.42 VOLCANIC; MAFIC Generally aphanitic appearance, pale green except as described below. Generally massive with minor flow texture including 2-3mm calcite filled vesicles. From 28.16-46.00 Prominent vesicular texture. (to 0.5cm near bottom) 39.50-60.80 Appears to be weakly porphyritic with vesicules. 46.00-60.80 Massive, appears to be in part (tuffaceous?). 60.80-73.70 Flow textured with vesicles to 3. Omm. 73.70-127.70 Flow textured with prominent primary insitu volcanic brecciation
with bleaching offragments. 127.70-141.55 Medium green, massive with minor flow texture.
No brecciation, not vesic1ular. 141.55-142.42 Mixed light green and medium green.
Hole #F06-02 Logged By: Douglas Robinson P. Eng Sample # From To meters gmAuitonne 3
From 9.20-13.50 moderately magnetic. From 13.50-85.50 not magnetic From 85.50-99.00 Weakly to moderately magnetic. From 99.00-142.42 Generally moderately magnetic, locally weakly magnetic to not magnetic. From 9.20-18.50 Moderately hard « nail). From 18.50-38.00 Soft «<nail). From 38.00- 126.00 Moderately soft «< to < nail). From 126.00-132.00 Moderately hard « nail). From 132.00-142.42 Moderately soft «< to < nail). Mineralization: 9.20-16.95 3% calcite fracture filling to O.4cm commonly 40-4~ to core axis,
also 30° to core axis. Fracture filling at 45° have extension columnar structures perpendicular to the walls.
14.10 Over-ground core with 1 % 1.0mm disseminated pyrite over 2.0cm. 14.12-14.26 Possible hyaloclastic breccia unit with 2% disseminated pyrite to 1.0mm.
78460 14.00 15.50 78461 14.50 16.25
16.50-20.00 Locally disseminated pyrite and wall rock pyrite to 0.5%. 78462 78463
16.25 17.71 17.71 18.15
18.43 0.3x1.0cm chalcopyrite patch in calcite fracture filling. 18.52 0.3xO.5cm chalcopyrite patch in calcite fracture filling.
20.44 Trace chalcopyrite in calcite fracture filling. 18.00-21.52 Micro-fracturing w <1% disseminated pyrite. 20.00-26.00 Strong alteration with tiny white specks.
20.56 55° 2.5 & 0.5cm quartz filled gash fractures.
78464 18.15 18.87
78465 18.87 20.20 78466 20.20 21.38
0.50 1.75
1.46 0.44
0.72
1.33 1.18
0.00 0.00
0.00 0.00
0.00
0.00 0.00
21.40 30° Fault as 4.0cm zone of thin chloritic wafers. 78467 21.38 21.86 0.48 0.00
21.52-23.10 Deformation fabric zone with fabric 45° to core axis 78468 21.86 23.28 1.42 0.00
Hole #F06-02 Logged By: Douglas Robinson P. Eng Sample # From To meters gmAuitonne 4
plus micro-fracturing, irregular calcite fracture filling and up to 1 % disseminated pyrite.
21.67 3.0cm very fine grained calcite with 10% disseminated pyrite to 0.5mm. 78469 23.28 23.75 0.47 0.00
23.35 40° 0.5-3.0cm grey calcite with 5% disseminated pyrite to 0.5mm. 23.50-23.75 25% fine grained calcite with 2% fine grained disseminated pyrite. 24.10 3.0x1.0cm patch fine grained calcite with 2% fine grained disseminated pyrite.
78470 23.75 24.71 0.96 0.00 27.07-28.16 Broken ground 27.07-27.82 Many strong chloritic slips at 30-45° to core axis. 27.94 45° 2.5-4.0cm calcite vein; coarse grained
with 10% 0.5cm quartz crystals. 28.15 45° Fault as approximately 3.0cm fine dark green chloritic flakes.
78471 27.08 28.28 1.00 0.00 28.16-35.00 Very little calcite fracture filling.
Rock does not appear as altered as above. Minor pyrite in fractures.
32.55-35.00 0.5% disseminated pyrite (primary mineralization?). 78472 33.02 34.48 1.46 0.00
34.40-39.00 2% calcite fracture filling moderately soft «nail). 78473 34.48 35.92 1.44 0.00 35.36-36.18 Set of quartz fracture fillings to 0.5cm at 55-65° to core axis
Set includes 3. Ocm quartz fracture filling at 35.52. 78474 35.92 37.40 1.48 0.00 36.18-37.40 Broken ground, moderately soft to moderately hard «< to < nail). 39.00-48.00 Possibly silicified; generally hard (>nail).
3 % calcite fracture filling to 1.5cm. 42.75 62° 2.5cm calcite fracture filling with sharp frozen walls. 43.00-46.00 Appears to be altered with tiny white specks throughout.
Micro-fractured. From 44.12-44.50 Strong pervasive calcite alteration. 78475 42.97 44.38 1.41 0.00
44.55 2.0cm 1% disseminated pyrite in calcite fracture filling along strong slip. 78476 44.38 44.67 0.29 0.00 78477 44.67 46.00 1.33 0.00
Hole #F06-02 Logged By: Douglas Robinson P. Eng Sample # From To meters gruAu/tonne 5
48.00-65.S0 1-2% calcite fracture filling. Appears to be weakly altered. Variable hardness « to == nail).
78478 47.00 48.34 1.34 0.00 48.44-48.54 60° & 30° to core axis angles. 78479 48.34 48.62 0.28 0.00
25% fine grained calcite and 3% fine grained disseminated pyrite. 78480 48.62 49.62 l.00 0.00
60.70-64.00 Deformation fabric generally 45° to core axis. 78481 60.68 61.36 0.68 0.00 61.47-61.64 Several quartz fracture fillings perpendicular to deformation fabric. 61.61 4So 1. Scm quartz vein parallel to deformation fabric 78482 61.36 62.00 0.64 0.00
with O. Scm fault along leading wall. Lower wall strong slip.
61.77 4So Fault as I.Ocm fine flakes. 62.10-62.80 Chlorite and other alteration overprinting deformation fabric.
Also irregular calcite fracture filling and minor pyrite. 78483 62.00 63.00 1.00 0.00 63.00-6S.1O S% irregular calcite fracture filling. 78484 63.00 64.08 1.08 0.00 61.00-99.80 Moderate to strong pervasive calcite alteration. 64.64-65. IS 10% irregular quartz fracture filling to 1. 5cm and
S% calcite fracture filling to 0.3cm. 65.10-83.00 1% calcite fracture filling to 0.3cm. 78485 64.08 65.46 1.38 0.00
Minor pyrite filling vesicles to 2.0mm .. 65.50 4So 3.5cm quartz vein; grey (not altered). 66.S6- 42° 0.8cm silicification with 1% disseminated pyrite 78486 65.46 66.87 1.41 0.00
(beside quartz patch similar to quartz at 65.50). 65.95-66.62 Quartz fracture filling to 2.0cm at 00° to core axis similar to 6S.S0.
Does not cross the core. Numerous offsets of vein at 70-7So to core axis.
67.20 2% pyrite over 1 O.Ocm bleached carbonated alteration. 70.S0-71.20 5.0cm quartz vein at 00-ISo to core axis 78487 70.38 71.82 1.44 0.00
similar to quartz at 65.50. 71. 93-72.24 45°? 3% disseminated pyrite (fine grained to Imm) 78488 71.82 72.35 0.53 0.00
in dark green chlorite-calcite-quartz alteration zone.
Hole #F06-02 Logged By: Douglas Robinson P. Eng Sample # From To meters gmAuitonne 6
83.00-88.00 3% calcite fracture filling as gash fractures pinching to O. Ocm in the core (-90° to alteration texture where present).
77.34-77.80 10% calcite fracture filling including 150° to core axis. 78489 77.30 78.26 0.96 0.00 Rock fabric 45° to core axis. 1 % pyrite in zone.
78490 Random sample of calcite fracture filling. 78490 85.61 87.07 1.46 0.00 88.00-119.00 < 1 % calcite fracture filling. 87.36-87.77 Vein Zone.
with 7% calcite in short gash fracture filling at 110° to core axis. Deformation fabric and quartz veining 30° to core axis. At 87.38 30° 1.0cm calcite-quartz vein. At 87.56 30° 4.0cm quartz vein with trace chalcopyrite.
90.80 70° 2.0cm calcite vein; banded with 2% fine grained disseminated pyrite and micro-fracturing of wall rock ..
91.08 45° 1 % disseminated pyrite over 2.0cm in pale yellow-green alteration. 91.95 65° 1. Ocm calcite vein; pink with 2% disseminated pyrite. 94.65 50° 3.5cm quartz-calcite-breccia veiil with 78494 94.52 95.00 0.48 0.00
20% angular breccia fragments rimmed by grey calcite with cherty orange tinted quartz in centres of vein openings. 2% disseminated pyrite.
1 00.~0-142.42 Moderate to strong pervasive calcite alteration. 119.00-142.42 2% calcite fracture filling to O.4cm at many orientations.
60°, 90° and 35° to core axis noted. 129.09 50° O.4cm calcite-chlorite vein 78495 129.00 129.24 0.24 0.00
with 20% 0.5mm disseminated pyrite. 78496 129.24 130.91 1.67 0.00 Black bands and segmented bands of magnetite in wall rock (parallel to vein).
137.50-137.72 40° Weak deformation fabric 78497 137.25 137.83 0.58 0.00 with patches of pyrite to 0.3xl.0cm. 0.3cm pale grey band with fine grained disseminated magnetite.
78498 137.83 138.21 0.38 0.00
Hole #F06-02 Logged By: Douglas Robinson P. Eng Sample # From To meters gmAuitonne 7
138.32 40° 4.0cm pale grey quartz, calcite, chlorite band 78499 138.21 138.47 0.26 0.00 with 20% magnetic and 2% fine grained disseminated pyrite.
78500 138.47 139.20 0.73 0.00 78401 139.20 140.67 1.47 0.00 78402 140.67 141.69 1.02 0.00
141.75-142.42 Deformation texture 40° to core axis 78403 141.69 142.42 0.73 0.00 parallel to porphyry contact below. 7% quartz-calcite fracture filling parallel to deformation texture. 3% calcite quartz fracture filling perpendicular to deformation fabric.
0.5% pyrite masses in veining and in wall rock along veining. Ground condition: 9.20-36.00 Slip spacing average 30cm, good ground 36.00-37.40 Slip spacing average 2-5cm; bad ground. 37.40-60.70 Slip spacing average; good ground. 60.70-64.00 Slip spacing average 20cm except for faults described above . 64.00-142.00 Slip spacing average 20-60cm; good ground.
142.42 152.00 PORPHYRY: FELDSPAR, MAFIC 142.42 44° Upper contact sharp, frozen parallel to texture above. 142.42-143.55 Medium greenish porphyry.
10% 1.0mm pale grey feldspar phenocrysts in dark green groundmass. Very hard (» nail), very weakly magnetic.
143.55-147.73 20% 1.0x2.0 feldspar phenocrysts. Hard (>nail), very weakly magnetic
147.73-152.00 20% 1.0x2.0 feldspar phenocrysts. in dark red groundmass with 20% dark green mafic component < 1. Omm. Hard (>nail), very weakly magnetic.
Mineralization: Moderate pervasive calcite alteration. 2% hairline to 0.3mm calcite fracture filling set generally 40° to core axis. Trace pyrite, mostly in fracture fillings described above.
78404 142.42 144.11 1.69 0.00
Hole #F06-02 Logged By: Douglas Robinson P. Eng Sample # From To meters gmAuitonne 8
144.25 47° 0.8cm calcite vein with 2% disseminated pyrite, 3% tiny black specks of hematite and 20% red hematite bands.
145.94 60° 2.0cm calcite-quartz vein; banded with three thin chlorite seams. (wall rock breccia fragments between two chlorite bands only).
146.70 85° 0.8cm calcite-quartz-chlorite vein with 5% chlorite bands. Wall rock appears to be less calcite carbonated.
Ground Condition: Slip spacing 15-30cm with ruff to semi smooth surfaces. Appears to be brittle ground. From 151.00-152.00 slip spacing 3-lOcm.
152.00 END OF HOLE
Hole #F06-02 Logged By: Douglas Robinson P. Eng
78405 143.55 144.48 0.37 0.00
78406 144.48 146.00 1.52 0.00
78407 146.00 147.41 1.41 0.00
78408 147.41 149.00 1.59 0.01 78409 149.00 150.45 1.45 0.00 78410 150.45 152.00 1.55 0.00
Sample # From To meters gmAuitonne 9
COMMENTS: The calcite-pyrite-magnetite fracture filling and veining appears to be significant mineralization. The collar location of the hole was moved south to intersect below chalcopyrite observed in the field when the hole was laid out. Deformation fabric was logged to indicate the possible location of deformation zones that could mark gold bearing structures.
Hole #F06-02 Logged By: Douglas Robinson P. Eng Sample # From To meters gmAultonne 10
Hole # F06-02 Property Foxworth Lake Prope~ Sample # From To Meters
78451 0.00 0.98 0.98 Au gltonne
78452 0.98 1.10 0.12 Au gltonne
78453 1.10 1.57 0.47 Au gltonne
78454 1.57 2.46 0.89 Au gltonne
78455 2.46 3.28 0.82 Au gltonne
78456 3.28 4.22 0.94 Au gltonne
78457 4.22 4.80 0.58 Au gltonne
78458 4.80 5.78 0.98 Au g/tonne
78459 5.78 7.42 1.64 Au gltonne
78460 14.00 14.50 0.50 Au gltonne
78461 14.50 16.25 1.75 Au gltonne
78462 16.25 17.71 1.46 Au gltonne
78463 17.71 18.15 0.44 Au gltonne
78464 18.15 18.87 0.72 Au gltonne
78465 18.87 20.20 1.33 Au gltonne
78466 20.20 21.38 1.18 Au gltonne
78467 21.38 21.86 0.48 Au gltonne
78468 21.86 23.28 1.42 Au gltonne
78469 23.28 23.75 0.47 Au gltonne
78470 23.75 24.71 0.96 Au gltonne
78471 27.28 28.28 1.00 Au gltonne
78472 33.02 34.48 1.46 Au gltonne
78473 34.48 35.92 1.44 Au gltonne
78474 35.92 37.40 1.48 Au gltonne
78475 42.97 44.38 1.41 Au gltonne
78476 44.38 44.67 0.29 Au gltonne
78477 44.67 46.00 1.33 Au gltonne
78478 47.00 48.34 1.34 Au gltonne
78479 48.34 48.62 0.28 Au gltonne
78480 48.62 49.62 1.00 Au gltonne
78481 60.68 61.36 0.68 Au gltonne
78482 61.36 62.00 0.64 Au gltonne
78483 62.00 63.00 1.00 Au g/tonne
78484 63.00 64.08 1.08 Au gltonne
78485 64.08 65.46 1.38 Au gltonne
78486 65.46 66.87 1.41 Au gltonne
Sample List F06-02.xls 1
78487 70.38 71.82 1.44 Au gJtonne
78488 71.82 72.35 0.53 Au gltonne
78489 77.30 78.26 0.96 Au g/tonne
78490 85.61 87.07 1.46 Au gJtonne
78491 87.07 87.87 0.80 Au gltonne
78492 90.71 91.13 0.42 Au gJtonne
78493 91.13 92.12 0.99 Au gltonne
78494 94.52 95.00 0.48 Au gJtonne
78495 129.00 129.24 0.24 Au gltonne
78496 129.24 130.91 1.67 Au gJtonne
78497 137.25 137.83 0.58 Au gltonne
78498 137.83 138.21 0.38 Au gJtonne
78499 138.21 138.47 0.26 Au gJtonne
78500 138.47 139.20 0.73 Au gJtonne
78401 139.20 140.67 1.47 Au gltonne
78402 140.67 141.69 1.02 Au gltonne
78403 141.69 142.42 0.73 Au gJtonne
78404 142.42 144.11 1.69 Au gltonne
78405 144.11 144.48 . 0.37 Au g/tonne
78406 144.48 146.00 1.52 Au gltonne
78407 146.00 147.41 1.41 Au g/tonne
78408 147.41 149.00 1.59 Au gltonne
78409 149.00 150.45 1.45 Au gltonne
78410 150.45 152.00 1.55 Au gltonne
Sample List F06-02.xls 2
Hole #: F06-02 Property: Foxworth Lake Property
Box # From To Meters 001 0.0 2.5 2.5 002 2.5 6.6 4.1 003 6.6 10.6 4.0 004 10.6 14.8 4.2 005 14.8 19.1 4.3 006 19.1 23.2 4.1 007 23.2 27.5 4.3 008 27.5 31.9 4.4 009 31.9 35.9 4.0 010 35.9 39.8 3.9 011 39.8 44.2 4.4 012 44.2 48.5 4.3 013 48.5 52.9 4.4 014 52.9 57.1 4.2 015 57.1 61.3 4.2 016 61.3 65.5 4.2 017 65.5 69.7 4.2 018 69.7 74.0 4.3 019 74.0 78.4 4.4 020 78.4 82.8 4.4 021 82.8 87.1 4.3 022 87.1 91.4 4.3 023 91.4 95.7 4.3 024 95.7 99.9 4.2 025 99.9 104.0 4.1 026 104.0 108.3 4.3 027 108.3 112.6 4.3 028 112.6 116.7 4.1 029 116.7 120.9 4.2 030 120.9 125.2 4.3 031 125.2 129.5 4.3 032 129.5 133.8 4.3 033 133.8 137.8 4.0 034 137.8 142.1 4.3 035 142.1 146.3 4.2 036 146.3 150.4 4.1 037 150.4 152.0 1.6 End of Hole
Box Log F06-02.xls 1
Kirkland Lake Gold Inc. Assay Office Report - Core
Gold Gold Gold Gold Sample No. On.tron OZ5.rron Dale Comments Sample No. Ozsffon ozs.rron Date Comments
Fine Coarse Fine Coarse
I 78401 0.00 28-Aug-06 Core 46 78486 0.00 28-Aug-06 Core 2 78402 0.00 28-Aug-06 47 78487 0.00 28-Aug-06 3 78403 0.00 28-Aug-06 48 78488 0.00 28-Aug-06 4 78404 0.00 28-Aug-06 49 78489 0.00 28-Aug-06 5 78405 0.00 28-Aug-06 50 78490 0.00 28-Aug-06 6 78406 0.00 28-Aug-06 51 78491 0.00 28-Aug-06 7 78407 0.00 28-Aug-06 52 78492 0.00 28-Aug-06 8 78408 0.01 28-Aug-06 53 78493 0.00 28-Aug-06 9 78409 0.00 28-Aug-06 54 78494 0.00 28-Aug-06 \0 78410 0.00 28-Aug-06 55 78495 0.00 28-Aug-06 II 78451 0.00 28-Aug-06 56 78496 0.00 28-Aug-06 12 78452 0.00 28-Aug-06 57 78497 0.00 28-Aug-06 \3 78453 0.00 28-Aug-06 58 78498 0.00 28-Aug-06 14 78454 0.00 28-Aug-06 59 78499 0.00 28-Aug-06 15 78455 0.00 28-Aug-06 60 78500 0.00 28-Aug-06 16 78456 0.00 28-Aug-06 61
17 78457 0.00 28-Aug-06 62
18 78458 0.00 28-Aug-06 63
19 78459 0.00 28-Aug-06 64
20 78460 0.00 28-Aug-06 65
21 78461 0.00 28-Aug-06 66
22 78462 0.00 28-Aug-06 67
23 78463 0.00 28-Aug-06 68
24 78464 0.00 28-Aug-06 69
25 78465 0.00 28-Aug-06 70
26 78466 0.00 28-Aug-06 71
27 78467 0.00 28-Aug-06 72
28 78468 0.00 28-Aug-06 73
29 78469 0.00 28-Aug-06 74
30 78470 0.00 28-Aug-06 75
31 78471 0.00 28-Aug-06 76
32 78472 0.00 28-Aug-06 77
33 78473 0.00 28-Aug-06 78
34 78474 0.00 28-Aug-06 79
35 78475 0.00 28-Aug-06 80
36 78476 0.00 28-Aug-06 81
37 78477 0.00 28-Aug-06 82
38 78478 0.00 28-Aug-06 83
39 78479 0.00 28-Aug-06 84
40 78480 0.00 28-Aug-06 85
41 78481 0.00 28-Aug-06 86
42 78482 0.00 28-Aug-06 87
43 78483 0.00 28-Aug-06 88
44 78484 0.00 28-Aug-06 89
45 78485 0.00 28-Aug-06 90
Expected Actual Expected Actual Sheet # 2
Blank Tr Blank Tr Time Reported 3:01 pm
Qcs 0.000 0.000 Qcs 0.000 0.000