REG - Greatland Gold PLC - Drilling Commences at 100% owned Scallywag Licence
--
24 August 2021
Dissemination of a Regulatory Announcement that contains inside information according to REGULATION (EU) No 596/2014 (MAR)
Greatland Gold plc
("Greatland" or "the Company")
Drilling Commences at 100% owned Scallywag Licence
Drilling has commenced at Greatland's 100% owned Scallywag licence testing the first of several new targets identified following promising results of geophysical analysis
Greatland Gold plc (AIM:GGP), a leading development and exploration company with a focus on tier-one gold-copper deposits, is pleased to announce drilling has commenced at its 100% owned Scallywag licence, the latest campaign in the Company's 2021 multifaceted exploration programme in the Paterson province of Western Australia.
After receiving regulatory permits the Company has commenced testing multiple new targets at Scallywag following analysis of results of a Heliborne Electromagnetic ("EM") survey conducted last year and further geological interpretation of regional aeromagnetic and gravity datasets.
Exploration work at Scallywag is focussed on the discovery of large-scale intrusion related gold-copper deposits such as Havieron, Telfer and Winu.
Highlights
§ Multiple conductors were identified following a detailed analysis of Heliborne EM including:
§ Swan - a strong Airborne EM conductor located in an interpreted fold structure with coincident gravity anomaly developed adjacent to, or truncated by, a crustal scale fault.
§ A34, A35 and A36 - discrete segments of strongly conductive material coincident with a positive gravity response.
§ Additional nearby new targets were identified from ongoing geological interpretation assisted by detailed aeromagnetic and gravity data. Targets include "Architeuthis", "Teach" and "Barbossa West".
§ The first pass program comprises eight holes for 4,500 metres, with heritage clearances and statutory work permits now in place.
§ Ground EM will commence in the coming weeks to further improve our understanding and model several conductors identified from the Airborne EM.
Shaun Day, Chief Executive Officer of Greatland Gold plc, commented:
"We are excited to have commenced our drilling campaign at Scallywag, which is focused on a number of high-priority targets in ground adjacent to Havieron. These targets have been selected due to their compelling geological characteristics borne out across multiple datasets and analysis, particularly the EM survey conducted last year.
As a 100% owned asset, Scallywag presents an opportunity to deploy our proven expertise and potentially deliver further exploration upside for our shareholders."
In addition to this release, a PDF version of this announcement with supplementary information can be found at the Company's website: www.greatlandgold.com/media/jorc/
Further Information on Drill Programme at Scallywag
Drilling has commenced on targets identified within Greatland's 100% owned Scallywag licence, adjacent to the Havieron project within the Paterson region. The 2021 Scallywag drill programme is designed to test a series of Airborne EM anomalies identified in the 2020 AEM survey and three new targets (named "Architeuthis", "Teach" and "Barbossa West") identified through ongoing geological interpretation assisted by detailed aeromagnetic and gravity data.
The first pass programme comprises eight holes for approximately 4,500 metres, with heritage clearances and statutory work permits in place. The first pass drilling programme is expected to be completed in late calendar 2021.
Analysis of results from Heliborne EM geophysical survey conducted last year has identified multiple new conductors within the Scallywag licence including:
§ Swan: a strong, deep AEM conductor located in an interpreted fold structure developed adjacent to, or truncated by, structures in the crustal scale Kaliranu Fault Zone; and
§ A34, A35 and A36: discrete segments of strongly conductive material coincident with positive gravity responses.
Ongoing geological interpretation has identified new nearby targets within the Scallywag licence named "Architeuthis", "Teach" and "Barbossa West". Architeuthis is a magnetic anomaly located 9km north west along strike of Havieron, and Teach is located 6km to the west. In both targets the magnetic response is considered to represent alteration potentially similar to that identified at Havieron. Barbossa West is interpreted to overly a series of parasitic anticlinal fold structures in stratigraphy including the Puntapunta Formation, host to gold and copper mineralisation at Havieron.
Additional information is presented in Appendices I and II. Targets are shown in Figures 1 and 2.
A regional map showing the Havieron licence area with regional targets and adjacent landholdings can be found at: www.greatlandgold.com/paterson
Figure 1. Scallywag project, with targets including Architeuthis and Teach on aeromagnetic image. Greatland tenements include Scallywag E45/ 4701 (100%) and Black Hills E45/ 4512 (Greatland 75%, JV with Newcrest Mining).
Figure 2. Scallywag project, with Airborne EM anomalies and other targets on a depth slice of the conductivity depth inversion data, approximately 250m below surface. Greatland tenements include Scallywag E45/ 4701 (100%) and Black Hills E45/ 4512 (Greatland 75%, JV with Newcrest Mining).
Competent Person:
Information in this announcement pertaining to Reporting of Exploration Results has been reviewed and approved by Mr John McIntyre, a Member of the Australian Institute of Geoscientists (MAIG), who has more than 30 years relevant industry experience. Mr McIntyre is a full-time employee of the Company. Mr McIntyre has sufficient experience relevant to the style of mineralisation and type of deposit under consideration, and to the activity which he is undertaking to qualify as a Competent Person as defined by the 2012 Edition of the Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves (the JORC Code) and under the AIM Rules - Note for Mining and Oil & Gas Companies, which outline standards of disclosure for mineral projects. Mr McIntyre consents to the inclusion in this announcement of the matters based on this information in the form and context in which it appears.
Additional information on the project can be found on the Company's website at www.greatlandgold.com/paterson/
In addition to this release, a PDF version of this announcement with supplementary information can be found at the Company's website: www.greatlandgold.com/media/jorc
Enquiries:
Greatland Gold PLC
Shaun Day/Callum Baxter
+44 (0)20 3709 4900
SPARK Advisory Partners Limited (Nominated Adviser)
Andrew Emmott/James Keeshan
+44 (0)20 3368 3550
Berenberg (Joint Corporate Broker and Financial Adviser)
Matthew Armitt/Jennifer Wyllie/Detlir Elezi
+44 (0)20 3207 7800
Canaccord Genuity (Joint Corporate Broker and Financial Adviser)
James Asensio/Patrick Dolaghan
+44 (0)20 7523 8000
Hannam & Partners (Joint Corporate Broker and Financial Adviser)
Andrew Chubb/Matt Hasson/Jay Ashfield
+44 (0)20 7907 8500
SI Capital Limited (Joint Broker)
Nick Emerson/Alan Gunn
+44 (0)14 8341 3500
Luther Pendragon (Media and Investor Relations)
Harry Chathli/Alexis Gore/Joe Quinlan
+44 (0)20 7618 9100
Notes for Editors:
Greatland Gold plc (AIM:GGP) is a leading development and exploration company with a focus on tier-one gold-copper deposits. The Company's flagship asset is the world-class Havieron gold-copper deposit in the Paterson region of Western Australia, discovered by Greatland and presently under development in Joint Venture with Newcrest Mining Ltd.
Havieron is located approximately 45km east of Newcrest's Telfer gold mine and, subject to positive decision to mine, will leverage the existing infrastructure and processing plant to significantly reduce the project's capital expenditure and carbon impact for a low cost pathway to development. An extensive growth drilling programme is presently underway at Havieron with a Pre-Feasibility Study due for release in late calendar 2021. Construction of the box cut and decline to develop the Havieron orebody commenced in February 2021.
Greatland has a proven track record of discovery and exploration success. It is pursuing the next generation of tier-one mineral deposits by applying advanced exploration techniques in under-explored regions. The Company is focused on safe, low-risk jurisdictions and is strategically positioned in the highly prospective Paterson region. Greatland has a total six projects across Australia with a focus on becoming a multi-commodity mining company of significant scale.
APPENDIX I
JORC Code, 2012 Edition - Table 1 report template
Section 1 Sampling Techniques and Data
(Criteria in this section apply to all succeeding sections.)
Criteria
JORC Code explanation
Commentary
Sampling techniques
· Nature and quality of sampling (eg cut channels, random chips, or specific specialised industry standard measurement tools appropriate to the minerals under investigation)
· Include reference to measures taken to ensure sample representivity and the appropriate calibration of any measurement tools or systems used.
· Aspects of the determination of mineralisation that are Material to the Public Report.
· In cases where 'industry standard' work has been done this would be relatively simple (eg 'reverse circulation drilling was used to obtain 1 m samples from which 3 kg was pulverised to produce a 30 g charge for fire assay'). In other cases more explanation may be required, such as where there is coarse gold that has inherent sampling problems. Unusual commodities or mineralisation types (eg submarine nodules) may warrant disclosure of detailed information.
· Greatland samples- no sampling reported
· Historical drilling- no sampling reported, locations only are shown in Figure 1 and 2 and listed in Appendix II
Sampling techniques
· Xcite Airborne EM Program
· An Airborne Electromagnetic and Magnetic Survey was undertaken in 2020 by New Resolution Geophysics Australia Pty Ltd (NRG), using a Time Domain Airborne Electromagnetic (Excite TM ) time‐ domain, helicopter borne electromagnetic system.
Transmitter -Receiver Concentric In-loop;
Acquisition System NRG RDAS II Dual Core ARM 1.5Ghz;
Transmitter details:
Diameter 18.4m
Number of turns 4
Current 235 amperes
Dipole Moment 250,000 NIA
Base Frequency 25Hz
Flight Height 30m
Waveform Nominal square wave
On Time Typically 5.4 mSec
Off time 14.6 mSec
Receiver
Flight Height 30m
Orientation X & Z
Receiver (Z - Component)
Diameter 1m
Number of turns 100
Dipole Moment 78.5m2
Number of Channels 44
Receiver (XZ - Component)
Diameter 0.613m
Number of turns 200
Dipole Moment 236m2
Number of Channels 24
Drilling techniques
· Drill type (eg core, reverse circulation, open-hole hammer, rotary air blast, auger, Bangka, sonic, etc) and details (eg core diameter, triple or standard tube, depth of diamond tails, face-sampling bit or other type, whether core is oriented and if so, by what method, etc).
· No drill results are reported
Drill sample recovery
· Method of recording and assessing core and chip sample recoveries and results assessed.
· Measures taken to maximise sample recovery and ensure representative nature of the samples.
· Whether a relationship exists between sample recovery and grade and whether sample bias may have occurred due to preferential loss/gain of fine/coarse material.
· No drill results are reported
Logging
· Whether core and chip samples have been geologically and geotechnically logged to a level of detail to support appropriate Mineral Resource estimation, mining studies and metallurgical studies.
· Whether logging is qualitative or quantitative in nature. Core (or costean, channel, etc) photography.
· The total length and percentage of the relevant intersections logged.
· No drill results are reported
Sub-sampling techniques and sample preparation
· If core, whether cut or sawn and whether quarter, half or all core taken.
· If non-core, whether riffled, tube sampled, rotary split, etc and whether sampled wet or dry.
· For all sample types, the nature, quality and appropriateness of the sample preparation technique.
· Quality control procedures adopted for all sub-sampling stages to maximise representivity of samples.
· Measures taken to ensure that the sampling is representative of the in situ material collected, including for instance results for field duplicate/second-half sampling.
· Whether sample sizes are appropriate to the grain size of the material being sampled.
· No drill results are reported
Quality of assay data and laboratory tests
· The nature, quality and appropriateness of the assaying and laboratory procedures used and whether the technique is considered partial or total.
· For geophysical tools, spectrometers, handheld XRF instruments, etc, the parameters used in determining the analysis including instrument make and model, reading times, calibrations factors applied and their derivation, etc.
· Nature of quality control procedures adopted (eg standards, blanks, duplicates, external laboratory checks) and whether acceptable levels of accuracy (ie lack of bias) and precision have been established.
· No drill results are reported
Verification of sampling and assaying
· The verification of significant intersections by either independent or alternative company personnel.
· The use of twinned holes.
· Documentation of primary data, data entry procedures, data verification, data storage (physical and electronic) protocols.
· Discuss any adjustment to assay data.
· No drill results are reported
Location of data points
· Accuracy and quality of surveys used to locate drill holes (collar and down-hole surveys), trenches, mine workings and other locations used in Mineral Resource estimation.
· Specification of the grid system used.
· Quality and adequacy of topographic control.
· Drill collar locations were surveyed using hand held GPS. RL's were collected with the same GPS;
· Drill rig alignment was attained using a hand held compass.
· Downhole survey was collected every 30m in diamond drill core segments of the drill hole using a single shot Axis Mining Champ Gyro.
· The topography is generally low relief to flat, elevation within the dune corridors in ranges between 250-265m AHD steepening to the southeast;
· All collar coordinates are provided in the Geocentric Datum of Australian (GDA20 Zone 51). All relative depth information is reported in Australian Height Datum (AHD);
· Historical drilling- where recorded holes are located by GPS with +/-30m accuracy.
Data spacing and distribution
· Data spacing for reporting of Exploration Results.
· Whether the data spacing and distribution is sufficient to establish the degree of geological and grade continuity appropriate for the Mineral Resource and Ore Reserve estimation procedure(s) and classifications applied.
· Whether sample compositing has been applied.
· Drill holes are individual exploration holes targeting specific targets, and are not part of a grid pattern;
· Not applicable in early stage exploration;
· No sample compositing has been applied;
· Historical drilling has comprised generally vertical holes on a nominal 400m x 400m grid - no sampling reported
Orientation of data in relation to geological structure
· Whether the orientation of sampling achieves unbiased sampling of possible structures and the extent to which this is known, considering the deposit type.
· If the relationship between the drilling orientation and the orientation of key mineralised structures is considered to have introduced a sampling bias, this should be assessed and reported if material.
· Drilling is oriented at various angles to folded layering, and to identified sulphide mineralized structures. The relationship to possible mineralized structures is unknown at this stage.
· Historical drilling- no sampling or structure reported
Sample security
· The measures taken to ensure sample security.
· No drill results are reported
Audits or reviews
· The results of any audits or reviews of sampling techniques and data.
· No audits or reviews have been completed.
Section 2 Reporting of Exploration Results
(Criteria listed in the preceding section also apply to this section.)
Criteria
JORC Code explanation
Commentary
Mineral tenement and land tenure status
· Type, reference name/number, location and ownership including agreements or material issues with third parties such as joint ventures, partnerships, overriding royalties, native title interests, historical sites, wilderness or national park and environmental settings.
· The security of the tenure held at the time of reporting along with any known impediments to obtaining a licence to operate in the area.
· The Scallywag tenement E45/4701 is 100% owned by Greatland Pty Ltd.
· The tenement is subject to a Land Access Agreement (LAA) with Western Desert Lands Aboriginal Corporation;
Exploration done by other parties
· Acknowledgment and appraisal of exploration by other parties.
· Historical work comprised shallow drilling in the north end of the Scallywag tenement (72 generally aircore holes, averaging 47.3m deep, 4 RAB holes (average 68m) and 9 RC holes (average 96.3m) by companies including Newcrest and Normandy Exploration Limited.
· Historical reports (WAMEX "A" numbers) are referenced in Appendix IV
Geology
· Deposit type, geological setting and style of mineralisation.
· Exploration is for intrusion related Au-Cu deposits similar to Telfer, Havieron and Winu, all located in Neo-Proterozoic Yeneena Group sediments of the Paterson Province, Western Australia
Drill hole Information
· A summary of all information material to the understanding of the exploration results including a tabulation of the following information for all Material drill holes:
o easting and northing of the drill hole collar
o elevation or RL (Reduced Level - elevation above sea level in metres) of the drill hole collar
o dip and azimuth of the hole
o down hole length and interception depth
o hole length.
· If the exclusion of this information is justified on the basis that the information is not Material and this exclusion does not detract from the understanding of the report, the Competent Person should clearly explain why this is the case.
· No results are reported.
Data aggregation methods
· In reporting Exploration Results, weighting averaging techniques, maximum and/or minimum grade truncations (eg cutting of high grades) and cut-off grades are usually Material and should be stated.
· Where aggregate intercepts incorporate short lengths of high grade results and longer lengths of low grade results, the procedure used for such aggregation should be stated and some typical examples of such aggregations should be shown in detail.
· The assumptions used for any reporting of metal equivalent values should be clearly stated.
· No significant results have been reported, and no data aggregation methods have been applied.
Relationship between mineralis-ation widths and intercept lengths
· These relationships are particularly important in the reporting of Exploration Results.
· If the geometry of the mineralisation with respect to the drill hole angle is known, its nature should be reported.
· If it is not known and only the down hole lengths are reported, there should be a clear statement to this effect (eg 'down hole length, true width not known').
· No significant results are reported, and there is no known relationship between reported widths and the geometry of any mineralization.
Diagrams
· Appropriate maps and sections (with scales) and tabulations of intercepts should be included for any significant discovery being reported These should include, but not be limited to a plan view of drill hole collar locations and appropriate sectional views.
· Maps are provided in Figure 1 and 2. No significant discovery is reported and no sections are provided.
Balanced reporting
· Where comprehensive reporting of all Exploration Results is not practicable, representative reporting of both low and high grades and/or widths should be practiced to avoid misleading reporting of Exploration Results.
· The reporting is considered balanced
Other substantive exploration data
· Other exploration data, if meaningful and material, should be reported including (but not limited to): geological observations; geophysical survey results; geochemical survey results; bulk samples - size and method of treatment; metallurgical test results; bulk density, groundwater, geotechnical and rock characteristics; potential deleterious or contaminating substances.
· This is the fourth release of Exploration Results for this project made by Greatland Gold. The previous releases are dated 19 August 2020, 20 January 2021 and 19 April 2021,
· No other substantive exploration data other than that provided in the figures.
Further work
· The nature and scale of planned further work (eg tests for lateral extensions or depth extensions or large-scale step-out drilling).
· Diagrams clearly highlighting the areas of possible extensions, including the main geological interpretations and future drilling areas, provided this information is not commercially sensitive.
· This announcement describes the proposed work programme for the Scallywag license
APPENDIX II
Scallywag Project (Greatland Gold plc 100%): Historical and Greatland Drill Hole Collar Locations
Hole
ID
Hole Type
A
Number
Year
Operator
Max Depth
Grid_ID
East
MGA
North
MGA
RL
Azi
Dip
BLD001
2020
Greatland
593.85
MGA94_51
456565
7600400
259
0
-90
KRD001
2020
Greatland
748.5
MGA94_51
456025
7601340
249
107
-70
KRD002
2020
Greatland
504.5
MGA94_51
456570
7601165
250
282
-70
KRD003
2020
Greatland
468.8
MGA94_51
456286
7601433
250
12
-55
LOD001
2020
Greatland
576.6
MGA94_51
457665
7600335
246
46
-70
LOD002
2020
Greatland
414.9
MGA94_51
457930
7600060
247
250
-65
LOD003
2020
Greatland
454.3
MGA94_51
456590
7600755
249
56
-70
ANK200
RAB
97054
2012
Newcrest Mining Ltd
56
MGA94_51
453812
7599209
242
ANK201
RAB
75
MGA94_51
457008
7597839
245
ANK209
RAB
97054
2012
"
67
MGA94_51
450638
7603379
243
ANK210
AC
97054
2012
"
61
MGA94_51
445077
7605341
241
ANK211
RAB
97054
2012
"
75
MGA94_51
449738
7605474
245
ANK213
AC
75
MGA94_51
459387
7603561
255
ANK390
AC
97054
2012
"
100
MGA94_51
453888
7599209
241
ANK391
AC
97054
2012
"
56
MGA94_51
450338
7601259
243
ANK392
AC
97054
2012
"
69
MGA94_51
448838
7603959
244
BHR17
RC
101401
2013
"
114
MGA94_51
446718
7607748
247
BHR18
RC
101401
2013
"
120
MGA94_51
446498
7607654
252
BHR19
RC
101401
2013
"
119
MGA94_51
446245
7607576
250
BHR20
RC
101401
2013
"
85
MGA94_51
446052
7607498
246
BHR21
RC
101401
2013
"
106
MGA94_51
446052
7607498
246
BHR22
RC
101401
2013
"
132
MGA94_51
445786
7607436
247
BHR23
RC
101401
2013
"
48
MGA94_51
445786
7607436
247
BHR24
RC
101401
2013
"
34
MGA94_51
445538
7607347
247
TEA8001
AC
84215
2003
"
120
MGA94_51
455238
7601304
245
360
-90
TEA8002
AC
84215
2003
"
115
MGA94_51
457049
7599947
243
360
-90
TEA8004
AC
84215
2003
"
123
MGA94_51
456179
7600958
244
360
-90
YAC1606
AC
57453
1998
Normandy Exploration Ltd
1.1
MGA94_51
448119
7604348
243
360
-90
YAC1607
AC
57453
1998
"
4
MGA94_51
447732
7604372
245
360
-90
YAC1608
AC
57453
1998
"
3.1
MGA94_51
447511
7604428
244
360
-90
YAC1609
AC
57453
1998
"
4
MGA94_51
447138
7604449
244
360
-90
YAC1610
AC
57453
1998
"
5
MGA94_51
446448
7604349
252
360
-90
YAC1611
AC
57453
1998
"
6.5
MGA94_51
446106
7604384
256
360
-90
YAC1612
AC
57453
1998
"
3
MGA94_51
445661
7604449
251
360
-90
YAC1613
AC
57453
1998
"
41
MGA94_51
444728
7604778
260
360
-90
YAC1614
AC
57453
1998
"
15
MGA94_51
446519
7606022
247
360
-90
YAC1615
AC
57453
1998
"
39
MGA94_51
443726
7606369
250
360
-90
YAC1616
AC
57453
1998
"
42
MGA94_51
444875
7607587
250
360
-90
YAC1617
AC
57453
1998
"
6
MGA94_51
446148
7607558
247
360
-90
YAC1618
AC
57453
1998
"
30
MGA94_51
446344
7607550
251
360
-90
YAC1619
AC
57453
1998
"
24
MGA94_51
446544
7607530
250
360
-90
YAC1620
AC
57453
1998
"
42
MGA94_51
446746
7607495
248
360
-90
YAC1733
AC
57453
1998
"
68
MGA94_51
443343
7604361
260
360
-90
YAC1734
AC
57453
1998
"
83
MGA94_51
444070
7604333
260
360
-90
YRB1276
AC
60010
1999
"
42
MGA94_51
447006
7607596
250
360
-90
YRB1277
AC
60010
1999
"
53
MGA94_51
447345
7607553
251
360
-90
YRB1278
AC
60010
1999
"
15
MGA94_51
447740
7607566
251
360
-90
YRB1279
AC
60010
1999
"
29
MGA94_51
448140
7607560
246
360
-90
YRB1280
AC
60010
1999
"
23
MGA94_51
448544
7607559
250
360
-90
YRB1281
AC
60010
1999
"
31
MGA94_51
448916
7607540
254
360
-90
YRB1282
AC
60010
1999
"
61
MGA94_51
449337
7607459
250
360
-90
YRB1283
AC
60010
1999
"
50
MGA94_51
449341
7607163
246
360
-90
YRB1284
AC
60010
1999
"
38
MGA94_51
448944
7607161
246
360
-90
YRB1285
AC
60010
1999
"
23
MGA94_51
448538
7607164
246
360
-90
YRB1286
AC
60010
1999
"
29
MGA94_51
448144
7607158
248
360
-90
YRB1287
AC
60010
1999
"
37
MGA94_51
448938
7606763
249
360
-90
YRB1288
AC
59339
1998
"
83
MGA94_51
449540
7606359
247
360
-90
YRB1289
AC
59339
1998
"
35
MGA94_51
448737
7606360
248
360
-90
YRB1290
AC
59339
1998
"
56
MGA94_51
448153
7606384
250
360
-90
YRB1291
AC
60010
1999
"
29
MGA94_51
448131
7606707
250
360
-90
YRB1292
AC
60010
1999
"
32
MGA94_51
447744
7606740
250
360
-90
YRB1293
AC
60010
1999
"
41
MGA94_51
447332
7606760
247
360
-90
YRB1294
AC
60010
1999
"
31
MGA94_51
446932
7606762
247
360
-90
YRB1295
AC
60010
1999
"
62
MGA94_51
446532
7606763
247
360
-90
YRB1296
AC
60010
1999
"
63
MGA94_51
446132
7606762
246
360
-90
YRB1297
AC
60010
1999
"
38
MGA94_51
447718
7606339
247
360
-90
YRB1298
AC
60010
1999
"
65
MGA94_51
447336
7606362
246
360
-90
YRB1299
AC
60010
1999
"
56
MGA94_51
446934
7606358
248
360
-90
YRB1300
AC
60010
1999
"
55
MGA94_51
446546
7606361
250
360
-90
YRB1301
AC
60010
1999
"
80
MGA94_51
446138
7606360
251
360
-90
YRB1302
AC
60010
1999
"
65
MGA94_51
445749
7606385
251
360
-90
YRB1303
AC
60010
1999
"
59
MGA94_51
445732
7606705
247
360
-90
YRB1304
AC
60010
1999
"
62
MGA94_51
445338
7606758
246
360
-90
YRB1305
AC
60010
1999
"
80
MGA94_51
444539
7606763
248
360
-90
YRB1306
AC
60010
1999
"
80
MGA94_51
444142
7607162
247
360
-90
YRB1307
AC
60010
1999
"
44
MGA94_51
443340
7607164
245
360
-90
YRB1308
AC
60010
1999
"
49
MGA94_51
444939
7607161
247
360
-90
YRB1309
AC
60010
1999
"
44
MGA94_51
447731
7607157
249
360
-90
YRB1310
AC
60010
1999
"
53
MGA94_51
447335
7607161
246
360
-90
YRB1311
AC
60010
1999
"
80
MGA94_51
446935
7607167
245
360
-90
YRB1312
AC
60010
1999
"
29
MGA94_51
446544
7607162
250
360
-90
YRB1313
AC
60010
1999
"
25
MGA94_51
446537
7607539
250
360
-90
YRB1314
AC
60010
1999
"
29
MGA94_51
446128
7607560
246
360
-90
YRB1315
AC
60010
1999
"
31
MGA94_51
446141
7607165
248
360
-90
YRB1316
AC
60010
1999
"
59
MGA94_51
445742
7607175
251
360
-90
YRB1317
AC
60010
1999
"
62
MGA94_51
445743
7607560
245
360
-90
YRB1318
AC
60010
1999
"
32
MGA94_51
445335
7607560
246
360
-90
YRB1319
AC
60010
1999
"
50
MGA94_51
445340
7607211
251
360
-90
YRB1320
AC
60010
1999
"
89
MGA94_51
444931
7607565
250
360
-90
YRB1321
AC
60010
1999
"
59
MGA94_51
444543
7607579
243
360
-90
YRB1322
AC
60010
1999
"
32
MGA94_51
443737
7607560
250
360
-90
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