July 17,1991 For: Barbara Kowalski Received from Barbara Kowalski … · 2017-01-17 · ANALYTICAL METHODS The wood core samples were crushed according to standard laboratory methods,

July 17,1991

For: Barbara Kowalski

Received from Barbara Kowalski a cheque for the amount of ei ghty dollars for helper on Spring Lake property.

M. Rentz

42E12NE0202 OP91-085 LEDUC 010

Geobotanical and Geochemical Survey

on the

Spring Lake Property

Jell i coe, Ontario

January 21,1992 Barbara Kowalski

42E12NE0202 OP91-085 LEDUC

TABLE (DF CONTENTS

TITLE PAGE

Introduction l

Location and Access l

Previous Work l

Geob otan i c al Sur vey

Topography and Trees 2

Sampling Area 2

Samp ling Net hods 4

Analytical Methods 4

Result s-Wood Cor e

Au,As,Ni 5-9

Nd y Sm,La 10

Results-Humus

Au,As,Ba 10--17

Fe,Hg,Mo,Sb,Se,Se l8-24

Sr,Ta,W,Yb,Na 25-31

Results~Litter Layer

Co,K,Ni 31-36

Rb 37,38

Con c l us i on s and Ree ommen d at i on s 37

Appendix I -Tables of Results 39-42

Appendix li- Wood Core Samples Results 43-66

Appendix 111-Humus Sample Results 67-88

Appendix IV~Litter Layer Sample Results 89-119

01OC

LIST OF FIGURES PAGES

Figure 1: Location Map of Spring Lake Property 3

Figure 2: Wood Cor e sample locat i on o f gold 6

Figure 3: Heartwood and Sapwood Samples analyzed

for gold 7

Figure 3A: Heartwood and Sapwood Samples analyzed

for arsenic S

Figure 4: Heartwood and Sapwood Samples analysed

for nickel 9

Figure 5: Heartwood and Sapwood Samples for Neodymium 11

Figure 6: Heartwood and Sapwood Samples for Samarium 12

Figure 7: Heartwood and Sapwood Samples for Lanthanum 13

Figure 8: Humus sample location of gold 14

Figure 9: Humus Samples for Gold 15

Figure 10:Humus Samples for Arsenic 16

Figure 11:Humus Samples for Barium 17

Figure 12:Humus Samples for Ir on 19

Figure l3:Humus Samples for Mercury 20

Figure 14s Humus Samples for Molybdenum 21

Figure 15:Humus Samples for Antimony 22

Figure 16:Humus Samples for Scandium 23

Figure 17:Humus Samples for Selenium 24

Figure 18:Humus Samples for Strontium 26

Figure 19:Humus Samples for Tantalum 27

Figure 20:Humus Samples for Tungsten 28

Figure 21:Humus Samp les f or Y11er b i urn 29

Figure 22:Humus Samples for Sodium 30

LIST OF FIGURES PASES

Figure 23: Litter Layer sample location for gold 32

Figure 24: Litter layer samples for gold 33

Figure 25s Litter layer samples for cobalt 34

Figure 26: Litter layer samples for potassium 35

Figure 27: Litter layer samples for nickel 3G

Figure 28: Litter layer samples for rubidium 38

AF'PENDIX I

List of Tables and Results

W o o d C ore sample r' e s u 11 s 4 O

Humus sampl e r esu11 s 41

Litter l aye?r sample results 42

AF'PENDIX II

List of Graphs for Wood Core Samples

Cesium 44

Iron 45

Hafnium 46

Mercury 47

Potassium 48

Molybdenum 49

Sodium 50

Rubidium 51

Antimony 52

Scandium 53

Selenium 54

Strontium - 55

Tantalum 56

Tungsten 57

Zinc 58

Ceri um 59

Ytterbium 60

Lutetium 61

LIST OF GRAPHS PASES

Chromium 62

Cobalt 63

Calcium 64

Bromine 65

Bar i. urn 66

APPENDIX III

List of Graphs for Humus Samples

Silver 68

Bromine 69

Calcium 70

Lutetium 71

Terbium 72

Europium 73

Samar i um 74

Neodymiurn 75

Cer i um 76

Lanthanum 77

Zinc: 78

Uranium 79

Thorium 60

Rubidium 81

Nickel 32

Potassium 83

Iridium 84

Hafnium 85

Cesium 86

LIST OF GRAPHS PAGES

Chromium 87

Cobalt 88

APPENDIX IV

List of Samples for Litter Layer

EJodium 90

Molybdenum 91

Iridium 92

Arsenic S3

Antimony 94

Scandium 95

Selenium 96

Strontium 97

Tantalum 98

Thorium 99

Uranium 100

Tungsten 101

Zinc 102

Lanthanum 103

Cerium 104

Neadymi urn 105

Samar i urn 106

Europium 107

Terbium 108

Ytterbium 109

Lutetium 110

Silver 111

LIST DF GRAPHS PAGES

Mercury 112

Hafnium 113

Iron 114

Cesium 115

Chromiurn 116

Calcium 117

Bromine 118

Barium 119

INTRODUCTION

A geobotanical and a geochemical survey was completed over

the Spring Lake property during the month of July 1991. Fifty

w o o d c o re samples were taken along the cut pic k e t lines, t w e n t y -~

five humus samples and twenty-fi ve litter layer samples on claim

number TB 1109100. The purpose of the program was to evaluate

the data and determine the associated elemental anomalies which

are associated with gold. Due to the detail undertaken by the

geobotanical and geochemical program much time was needed to

compile, assess, evaluate and understand the data, therefore, the

other aspects of the program proposal were not completed in this

program. In addition, there are no detail case studies on

Archean geobotanical surveying in Ontario, therefore, much more

time was required to define the importances of the elements with

t heir assoc i at i ons wit h g ol d.

LOCATION AND ACCESS

The Spring Lake property is located along Provincial Highway

11, 220 km northeast from the city of Thunder Bay at the town of

Jell i coe (Figure i). The property is accessible at Provincial

Highway 11 and a bush road leads to the claim.

PREVIOUS WORK

Previous work recorded on the claim encompassed l i nee ut t ing,

magnetometer and VLF-EM surveys and some power stripping com

pleted by Barbara Kowalski since 1989.

6EOBOTANICAL SURVEY

TOPOGRAPHY AND TREES

The area was timbered during the 1930's, therefore, few

mature trees remain on the property. The tree types which were

used for sampling are Pinus bankslana Lamb. (. Jac kpi ne) y F'icea

glauca (Moench) Voss (White Spruce), Abies balsarnes (L.) Mill.

(Balsam Fir), Thuja occidental i s L... (Eastern White Cedar),, Pop l us

balsamifera L. (Balsam Poplar) and Betula papyri fera Marsh,,

(White Birch). Other tree types which were unsuitable for

sampling due to their small size but occur on the property are

Alnus rugosa (du Roi) Spreng. (Alnus incana (L.) moench) (Specled

Alder), Sorbus arnericana Marsh. (American Mountain Ash), Sorbus

decora (Sarg.) Schneid. (Showy Mountain-Ash), Amelancier Med.

(Serviceberr ies), Acer spi caturn Lam. (Mountain Maple) and Fraxin-

us nigra Marsh. (Black Ash).

SAMPLING AREA

The samples were taken at fifty foot intervals ax l on g the cut

picket lines named LI18+OOE, LI 14+0OE and LI10+OOE from the

baseline north.

AKE

L E D O Co

FOR STATUS REFER TO OG'169

O

,V63S99 l liejSOI 11183602,1 l ^ ; t- lY ' ' — -- "i ~~ ~~' r^J T ~ ~

O

SAMPLING METHODS

Trees which were selected for the survey were those trees

with trunks of six inches or more in diameter and located near or

at outcrop areas or slopes of hills where probable tap root and

lateral root system appears to be stressed. A twelve inch Suunto

wood borer was used to bore into the trunk of the tree at ap

proximately four feet from the buttressed base. The samples were

subsequently divided into two, that is, the hear t wood and sap-

wood-bark. The sample si He for each the heartwood and sapwood-

bark was on the average O.S dry grams- Wood core samples were

handled at all times with gloves. The litter layer and humus

samples were also taken using gloves.

ANALYTICAL METHODS

The wood core samples were crushed according to standard

laboratory methods, and then analysed using the neutron activa

tion analysis technique. Detection limit for Au was 0.1 ppb and

Ir was analysed in ppb level. Other elements were detected

within the pprn range*. The 35 elemental package which was chosen

included elements, Ag, As, Ba, Br, Ca, Co, Cr, Cs, Fe, Hf, Hg,

Ir, K, Mo, Na, Ni , Rb, Sb, Se, Se, Sr, Ta, Th, U, W, Zn, La, Ce,

Nd, Sm, Eu, Tb, Yb, and L LI. Copper and lead could not be analyz

ed using this method because copper requires separate irradiation

and is therefore best analyzed using atomic absorption spectros

copy. Lead is not suitable for analysis since it does not ir

radiate. These two elements were excluded from the analysis..

RESULTS

WOOD CORE

The wood core samples which indicated anomalous gold (i.e.

gold two times above background or more) are sample numbers BK-1-

A, which is a hear t wood sample t a k en f r om a Jac k p i n e, BK-14- A,,

which is a heartwood sample taken from a Balsam, and BK-18-B the

sapwoocl taken from a Poplar. The sample locations are presented

in Figure 2.

ELEMENTAL ASSOCIATIONS WITH SOLD

The elements which indicated anomalies and are associated

with gold are As, Mi, Lax, Nd, and Sm. The other elements clid not

appear to be related to gold. Each of the elements which are

anomalous with gold will be compared individually as follows:

As (Figure 3A)

Although four samples appear to be anomalous one sample wîs

directly associated with gold. Sample number BK-18--B was the

sapwood from a Poplar. This anomaly suggests the presence of

arsenopyrite on the property and serves as a prospecting area in

the next program.

N:i. (Figure 4)

Three samples indicated anomalies, however, one sample

number BK-l-A was associated with gold. Nickel is an element

5i

SC

ft- -

0

c|Ju. Q

c*oQ-

o Vet

Samples 1 A. B through 25A.B

Seep cooed

Samples 1 A.B through 25A.B

d

1 86Oo\ cole/.

d

oo3

Samples 1 A,B through 25A.B

O4- v*~oVe \

^g

/Q

which is typically found as a trace element within the mineral

pyrite. Since it exists with gold this serves as a second

prospecting area.

Nd,Srn,La (Figures 5,6,7!)

These elements may be coincidentally associated with gold or

act as tracer element within a mineral which may coincide with

g o l d .

Ag y Ba, Br , Ca, Co, Cr , C s, Fe y H f , Hg, I r , K, Mo, Ma, Kb , Sb , Se , Se, Sr , T a, Th , U, -

W, Zn, Ce, ELI, Tb, Yb, Lu did not appear to be associated with gold.

These elements can be found in Appendix II.

HUMUS

Five humus samples indicated the presence of anomalous gold

(Figure S). Several elements were found to occur with gold, they

are summarized below.

As (Figure 10)

Two samples indicated anomalous arsenic content, samples 02-

L-118-0-H and 044-L-l10-250-H. Sample 044-L-l10-250-H coincides

with gold, indicating the possible presence of arsenopyrite.

Ba (Figure 11)

S a m p l e O 4 4 L -110 - 2 5 O -H is t h e one sample w h i c h i s a. n o m a l o u s

and is associated with gold. Barium is a well known associate of

h


S:

0.008

Samples 1 A,B through 25AB

fe

13

0.25

0.2-

Q. Q.

0.15-

0.1-

0.05-

Samples 1 A, B through 25A.B

(T) O p r-.'

O ~h P (7 c u o ex.

ftj

v,

^^

O

-X

^? —

——

——

X

'/N O

E

——

. ——

135; —

— . —

—

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os

^ x

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^' 5^

^ r

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W

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-M

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rn

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^ ^

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? *3

C7

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3-t. t —i

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/s"

r Samples 2 through to 50

Samples 2 through to 50

os

O

O i

se|duLnsQ

-fci

gold and typically.

F e (.Figure 1 2)

Sample 036 L-l10-50-H is associated with gold. The presence

of this element could indicated pyrite, arsenopyrite or other

iron bearing minerals occurring within the rocks.

Hg (Figure 13)

Saxmple 044 L i 10-250-H is indicated to be associated with

gold. It is to be determined the form in which mercury occurs.

Mo (Figure 14)

Sample 036-L-110-50-H is indicative o f mol yb d en urn. Th i s ar ea

warrants further prospecting.

Sb (Figure 15)

Sample 032-L-l14-3QQ-H is a tracer element. It's occurrence

has yet to be evaluated.

Se (Figure 16)

Sample 036-L-l10-50-H is a tracer element and probably

occurs as a trace element naturally within the humus or could

have been contributed from the erosion from the surface of the

roc ks.

Se (Figure 17)

Sample 04-L--118-50-H is a tracer element and probably is an

s


i Q '

t)

13


Homoi Sa^pteO

Q


pV"V

CSevx tÔvOtxtr Samples 2 through to 50

odHM?VeS O*

•re l


Samples 2 through to 50se Ve

essential nutrient within the humus and vegetation. Although,

one sample coincided with a gold anomaly.

S r (Figure 18)

Sample 044-L-l1Q-250-H is a tracer element within the humus

and serves as part of the nutrient system with vegetation.

One sample is associated with gold.

Ta (Figure 19)

Sample 036 L-l10-5Q-H is a tracer element probably associat

ed with the nutrient cycle of vegetation and humus interface.,

One sample coincides with an anomalous gold sample.

W (Figure 20)

Sample 036-L-110 H is a tracer element and probably occurs

as a single element or as a trace element within a mineral. It's

association with gold has yet to be discovered in this air ea.

Yb (Figure 21)

Sample 036-L-l10-50-H is an element which is probably

essential to the nutrient cycle. It coincidentally indicates an

anomal y wit h g ol d i n this one sample.

Na (Figure 22)

Samples 04-L-l 18-50--H and 022-L-14-50-H correlate with

anomalous gold samples. S o d i u m depl e t i on has b een well known to

occur in gold camps and is one of the indicators for its p r e--


Coe* Samples 2 through to 50

YK~V \cs'

a

J


P J* Samples 2 through to 50

:J

8000-1


sence.

All other elements were found not be significant nor indicate any

association with gold. These elements are incorporated in

Appendix III.

LITTER LAYER

Twenty-five litter layer samples were taken from the claim.

These include leaves, needles and twigs. The following elements

are summarized below to be associated with gold (.'Figure 24).

Co (Figure 25)

This element is a tracer element which occur within the

mineral pyrite. It is apparent with this associated coupled with

two gold anomalies that cobalt is significant in the gold bearing

system.

K (.'F"i gure 26)

Potassium is well known associated of gold. It occurs

typically with minerals such as the feldspars and therefore,

should serve as an indication and an associate of gold.

Ni (Figure 27)

Nickel is a tracer element within the mineral pyrite.

Ther e f or e, its assoc i at i on with gold i s ap par ent.

-Q•S A2

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w. •2

Suj V3 U

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x

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^4-

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l

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a31 "

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ffiC

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300+1,111

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CO Wl~f.

•si-Ml

l-"-uinbef Samples 1 through to 49

O

k,

s Samples 1 through to 49

Rb (Figure 28)

R u b i d i LI m :i. s an essential n u t r i e n t e l e m e n t w h i c h i s t h e

probable association. One sample number 01-L--118-0-LL shows a

distinct spike and is therefore interpreted as being associated

with gold.

All other elements are summarised in graph form in Appendix IV.

Cone lusi ons and Ree ommendat i cms

The geobotanical and geochemical survey was successful in

detecting gold and its associated elements in the wood core,

h u m u s a n d litter layer,, There was n o a p p a rent d i s t i n c t i o n

between preferred concentration of gold in any one tree type, nor

heartwood and sapwood-~bar k saunples. There also does not appear

to be one specific area for prospecting, taut a few areas appeared

with strong gold indications. Therefore,, areas which warrant

prospecting, collecting rock samples and analyzing them for whole

rock analysis, with tracer and rare earth c? lenient s are the

following areas located in the grid: LI10+OOE, CO+50N, 1+OON,

2+50N); L114+OOE, CH-50IM, 2+50M, 3+35N); L118+OOE, (Base line,

0+50N, 4 -i- O ON).

vi-vj lOi

A*


APPENDIX I

o-f

GEOBOTANICAL RESLLTS N THE SPRTJG LAKE AREA. JELUCOE. ONTARO

SAMPLENJM3ER LOCATION TREESPECES

BK-1.A8K-1.8BK-2-ABK-a-BBK-MBK-3-8BK-4-ABK-4-BBK4ABK-S-B

BK-VABK-*B8K-7-ABK-7-8BK-OABK-S-BBK-9VIBK-9BBK-tOABK-10-BBK-tt-ABK-II-BBK-12-ABK-ia-BBK-t*ABK-134BK-t4ABK-I4-BBK-1SABK-I3-B

BK-1CABK-1*-BBK-17-A xBK-17-BBK-t*ABK-tMBK-19-ABK-19-BBK-aoABK-aeteBO2IABK-21-BBK4MBX-2a-B8K33ABK-ZVBBK-34ABK-a+BBK-aSABK-aaa

Ula+OQE.CMmUn.Ltia+OOCCWtlLh*L118+OOE.O+5ONLtia*ooe,otsoNL11S+OOE.1+OONLlia+OOE.I+OONLIlt+COCZ+OONL1H+006.2+OONL118+OOE.2+SONLtia+OOE.Z+SONLI 18+006,3+00*Ltia+OOE.S+OONLI 1 8+006, 3+50NUK+OOE.3+90NL118+006.4+OONL1 18+006.4+0*1L1 14+006,0*11 Ul.L1 1 4+006, d*nLb.L114+OOE.O+SONL1I4+OOE.O+30NL1I4+O06.1+OONL114+OOE.1+OONL114*O06,1*7ONL1M+OOE.1+7ONLil 4+OOe, Z+OONLil 4+O06. Z+OONLil 4+006. Z+SONIt 1 4+OOE, S+SONL1I4+OOS.3+OONLil 4+006, 3+OON

U10*OO^CUnLh*UtO+OOgCttnUt*

— L110+006.O+SONLIIO+OOEÔ+SONL110+OOE.1+OON1.1 10+006, 1+OONL11 0+006, 1+KNL11 0+006, 1+aONL11 0+006, 2+OON1.1 10+006, 3+OCN1.110+005 3+SONL1 10+006, Z+SON

' LI 1O+006, 3+OONL1 10+006, 3+OONL11O+OOE, 3+OONL110+OOE.S+OONL11O+O06, 3+OONLi 10+006, 3+OONLI 10+006, 3+OONL1 10+005, 3+OON

BMkgrcurxl

WM. Sprue. WM. Sprue.

WM. Sprue* WM. Sprue* Ddi.nFr BrinmFV WM* Sprue* WM* Sprue*

EMt*mWM*C**r

sar-

M*V.hchM

tntV.klchM*Mthen*s•irftixhMtonheh**t*ntwhMtanlnchM

•wttvhM•UthcnM*J*v*nkich**

•Ir/thehM•i/CVthMitchchMitchchM

•IgttlnchMBfitxillxuajrjat**lltlLlr*lifrutuJiMnYMhchM

t*nhen*s•rg+thcrw**9thcnMtanhehMt*ntah*a

•VthehM

MvmhchM••TunrhohMitchohM

fculMOlKhM

fcUtxnlXhM

•fcylhchM•UihehM•ttillciw*nhthchMlijainirM•khchM•khehM vteulMiilxoMfeutMnhchMfeutMnhchM

fautMnhehMteujtMnixnM

Au Ag Aj B. Br Ca Co Gppb ppm ppm PP171 Ppm * PP"1 PP171

245 as aos to au 007 0.2 a*3.0 0.3 aoS 35 aZS O.27 O3 12.2 as aos to aia at aa i7.1 os aos ts aoa 017 aa 0414 as aos 10 ais aos as aa1.7 as aos 'o aos ao? az 042,3 0.3 aOS l* 0.02 0,03 OS O*t.7 as aos 20 aoa aos 0.3 0.747 as aos 3O aos aos as t2.8 as aos *s i-s 0.4 as 1.7

t as aos 23 aot 017 az a4a as aos 37 014 ass as t

2.9 as aos 10 0.19 ats 03 t.t3.7 as aos to 034 as7 as 2.31.8 as oos 23 aia at* as 041.0 as aos " az ai3 o-3 as3.0 as aos ss tto2 o-24 as i3.1 as aos 20 002 023 as . t3.4 as aos 37 aiz aas az 072,1 OS OOS 38 O27 O2S O3 O*2.3 as aos 38 012 0.44 02 as12 as oos t a o-18 02 02 os2.8* O3 OOS Z3 O03 OOS OS 1.1t.0 as oos 2s aos aos as 1.222 as oos 28 aoz ais as 1.23.2 as aos 3* aos ass as 1.2

0 as aos M o-21 ao9 a3 '-21.7 as oos *4 02 as* 02 aa12 as oos 20 at* 017 02 aa3.0 as 005 to ais az az aa

is os at* so aos aos 04 \a2.1 OS OOS 31 023 017 OS aaS.S os aos 43 ots 014 as aa

4 03 oos aa ot3 017 os os

ata as ot at ooi ost 03 aa1.3 as oos ss ata 033 os t3.0 03 OOS 37 atS 003 OS 1.73j3 as aos at 003 019 as 1.2s.0 os aoa 37 oos oos 03 1.91.7 O3 013 48 017 019 01 1.22.3 as aos 43 ats 023 02 14S.3 03 OOS 33 Oia O18 OS Us.0 03 oos 29 ots oos os aa2.9 ' as oos to .002 oi3 03 asaa 03 014 14 aos ost 02 aa1.0 as oos aa ots oos as t.t42 03 aOS 22 013 O19 O3 O7

t as oos 39 ais 027 as as0.9 as . aos ta 017 os4 os os

d F* Hppm * ppm

aos aoi 7 aosaos ao28 aosaos 0022 aosaos aoi 4 aosaos aoas oosoos aoi s aosaos 0024 aosaos aoi 7 aosaos aoas aosaos ao4i aosaos aoi 4 aosaos 0022 oosaos aozs aosaos aO4s aosaos aoi2 aosaos aoi a aosaOS 027 OOSaos aozs oosat 0.021 aos

aoa O.OS4 aosaos aots aosaos aoi s aosaos ao2a oosaos 0027 aosaos aoz7 aosaiz 0.037 aosao* aoz* aosaos aoi 7 aosao* aoi a aosaos aoi* aos

at s aoza oos007 0017 aosaos aoas 007aoa ao24 aosaia aoas aasoos aot* aosaos 002* oosaos 002* oosao* 0027 oosOOS 0024 OOSoos aoa aos007 0017 005ao? 0023 aosOOS 001* OOSOOS 0023 00*oos aos oosaos aoi* aosCLOS Q O?? *X07oos ao2 aosao* aot* oos

Hj Ir K Meppm ppm % ppm

aos as aos ataos as aos aiaos as aos ataos as aos ataos as aos ataos as aos ataos as aos ataos as aos aiaos as an 0.4aos as aos ataos as aos aiaos as aiz ataos os at ataos os aos aaaos as aos aiaos as aos ataos as aos ataos as aos ataOS OS O24 04aos as at* ataos as aos ataos as aos ataos os oos ataos as aos aiaos as at ataos as ao* ataos as aos ataos as aos ataos as aos ataoa as 014 at

aos as oos ataos os 013 osoos as aos atoos as oos ataos as aos 01oos os aos otaos os aos atais os oos atO24 OS 013 ' aiaos os oos ataos os ai* 01aos os aia atOOS OS **fX Q,1oos os aoa 01aos os aos ataos os aos 01aos as oos aioos as aos ataos as ais ataos as O07 01

Mnppm

24.'38,12O!2S.94O458.320.417.103J43.7IS.*24.537.740219.932*54.1

3044.938.427.133.328.532.asaa43.330.S2018.7S0.1

348SS.S37.729.73C234.747.339.8saasi.819.*aot403

20SS.310917

22.122.818.9

N 'PP f

CSSssssssssssssss3sssss8sssssss988ss88

1088tS0S68838

* Sb Se"Pm lppm ppm

1 aoi 0,042 aoi aos

aoi aosaoi ao4aaa ao?aos 004aoa aosaoi aos

9 aoi 0094 aoz at1 as* aa*1 aoi aoa2 aoi at1 002 ati3 ao4 ao43 aot ao*4 ooi ao*s OLO2 ao*7 aoi aos5 aos aos2 aot 0042 OOI OO4

1 aoi aoa4 aoi aar! ooi aos

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S. SrT* ThU W ZnU C. Nd Sm EuTbYb Luppm ppm ppm ppm ppm ppm ppm ppm ppm ppm ppm ppm ppm ppm ppm

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NOTtS

AREAS WITHDRAWN FROM DISPOSITION

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SEC. 36/80

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DA It DISPOSIION f-If:"

2010/03 9 R 188628

8/II/B2 S.R.

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188628

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Pwcd 9801 TBF. PatinM far S R. only. M J). naUtflta far italAit

S.R. SURFACE RIGHTS M.R MINING RIGH1 1

LEGEND

PATENT. SURFACE li MINING RIGHTS -————. " . SURf ACE RICJ1TS ONLY___,—^.-^- . MINING RIGHTS ONLY _____.

e ' e

LEASE. SURFACE A MINING RIGHTS_______——— B- .SURF ACE R IGHTS ONLY_______—————. H- , MINING RIGHTS ONLY______________ B

LICENCE OF OCCUPATION ___,.

ROADSIMPROVED ROADS KING'S HIGHWAYS

RAILWAYS POWFR LINES MARSH OR MUSKEG

MINES

CANCELLED

SCALE: 1INCH - 40 CHAINS

f 10OO MOO 6000

100O 11 KM)

2000(a KM)

T O W fi SHIP

LEDUCM.H.R. ADMINISTRATIVE DISTRICT

NIPIGONMINING DIVISION

THUNDER BAYUNO TITLES/ RECI'TRV DIVISION

THUNDER BAYMinistry ofNatural ' Mansg.m.ntResources

Ontario

t** s FEMUAMV

G-169

THE INFORMATION THAT APPEARS ON THIS MA'' HAS BEEN COMPILED FROM VARIOUS SOURCES AND ACCURACY IS NOT GUARANTEED THOSE WISHING TO STAK1 MIN ING CLAIMS SHOUl D CON SULT WITH THE MINING RECORDER, MINISTRY OF NORTHERN DEVELOP MENT AND MINES, FOR AD DITIONAL INFORMATION ON THE STATUS OF THE LANDS SHOWN HEREON

O) Q)

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42E12NEEQ202 OP91-085 LEDUC 200

t (D

Documents

July 17,1991 For: Barbara Kowalski Received from Barbara Kowalski … · 2017-01-17 · ANALYTICAL METHODS The wood core samples were crushed according to standard laboratory methods,