Post on 28-Sep-2020
The Queensland Exploration Geochemistry and Drill hole Database
Product Information 1
THE QUEENSLAND EXPLORATION GEOCHEMISTRY AND DRILLHOLE
DATABASE AND
DATABASE PACKAGES
Background information and operational guide
October 2016 Version
The Queensland Exploration Geochemistry and Drill hole Database
Product Information 2
CONTENTS
1 BACKGROUND INFORMATION .............................................................................. 4
1.1 Statewide MS ACCESS Database ............................................................................ 12 1.2 The Five Data Packages ........................................................................................... 16
2 DATA PACKAGE DOWNLOAD.............................................................................. 17
2.1 Components of individual data package ................................................................... 17 2.2 System and memory requirements............................................................................ 18 2.3 Installation instructions ............................................................................................ 18 2.4 Data folders ............................................................................................................. 18
3 GETTING STARTED ................................................................................................ 19
3.1 User name and password ......................................................................................... 20 3.2 Help files ................................................................................................................. 21
4. THE DATABASE ...................................................................................................... 22
4.1 Database structure - Tables ...................................................................................... 22 4.2 The Database attributes ............................................................................................ 23 4.3 Data Tables: Categories and subsets ......................................................................... 24
5. SURFACE SAMPLE ................................................................................................. 25
5.1 Database fields ......................................................................................................... 25
6. DRILL HOLE DATA ................................................................................................. 34
6.1 Drill hole data .......................................................................................................... 34 6.2 Drill hole data source ............................................................................................... 35
7. DATA INTERROGATION USING THE EXPLORER 3 PROGRAM ....................... 36
7.1 Database search........................................................................................................ 36 7.2 Designing a database search using known spatial or Prospect information ............... 36 7.3 Designing a database search using Assay results ...................................................... 40 7.4 Other information .................................................................................................... 40
8. REPORT AND EXPORT ........................................................................................... 41
8.1 Reporting surface samples table ............................................................................... 41 8.2 Reporting drill hole table ......................................................................................... 42 8.3. Reporting data analysis ........................................................................................... 43 8.4 Exporting data ......................................................................................................... 44
The Queensland Exploration Geochemistry and Drill hole Database
Product Information 3
LIST OF FIGURES Figure 1: The Queensland Exploration Geochemistry and Drill hole database subdivided into
five database blocks Figure 2: The system relationship between ‘Data Tables’, ‘Modules’ and Libraries’ tables Figure 3: The major subdivision of the ‘Data Table’ into ‘Surface Sample’ and ‘Drill hole’,
with respective subsets of sample types LIST OF TABLES Table 1: Data coverage and the spatial distribution of data points listed by 1:100 000 map
sheets Table 2: The Stream Sediment File Structure Table 3: Soil Sample File Structure Table 4: Rock Chip File Structure Table 5: Stream Sediment Sample Types Table 6: Soil Sample Types Table 7: Rock Chip Sample Types Table 8: Drill holes File Structure
File descriptions: Table name Description h_Descript_geol Drillhole geology description h_Loc Drillhole location data h_Sample Drillhole samples h_Survey Drillhole survey data h_Coded_Geology Drillhole coded geology s_RC Rockchip samples s_Soil Soil samples s_Seds Stream sediment samples s_WholeRock Wholerock samples h_Text Drillhole text descriptions H_quant_geol Drillhole quantitative geology
The Queensland Exploration Geochemistry and Drill hole Database
Product Information 4
1 BACKGROUND INFORMATION The Queensland Exploration Geochemistry and Drill hole database is a
comprehensive record of information extracted from the hard copy open-file company reports archived in the Geological Survey of Queensland’s Queensland Digital Exploration Reports (QDEX) system. The October 2016 Version of the database combines the original data compiled by Terra Search Pty Ltd and the data updates compiled by Map to Mines Pty Ltd. The database comprises 5,248,102 data points covering three hundred and two (302) 1:100,000 maps sheets. The various map sheets contain varying sample density and sample types. Table 1 summarises the data coverage and the spatial distribution of data points listed by 1:100 000 map sheets. The data have been carefully validated with respect to the spatial and data entry accuracies reported by the various companies. The types of data included in this database are drill hole locations, down-hole assays and geology, and assays of rock chips, stream sediment, soils and whole rock samples. All data points are linked in a matrix of relational tables and libraries, particularly in regard to location, sample type, analytical results and methods, etc.
The Geological Survey of Queensland, Terra Search Pty Ltd and Map to Mine Pty Ltd attempt to provide the most accurate data spatially and scientifically. Inevitably, locations digitised from hard copy maps have some degree of inaccuracies reflected by the ‘location accuracy’ field. All data have been attributed with locational information (Eastings/Northings and Latitude/Longitude), and all local grid coordinates reported were captured in this database. All locational information is converted into AGD66 Datum (AMG projection) in this database. If the original datum was not provided on maps or quoted or in reports, it was assumed based on the age of the report. Methodologies for sample preparation and analysis were recorded for all geochemical data based on the original laboratory certificate, result tables or summarised in the body of the report. In the absence of such information or insufficient information, the methodology was either quoted as “unknown” or guessed based on the laboratory code and profound methodology used by certain laboratories at the time. All data points within the database are individually linked to the original company report references (CR number) and if in doubt, it is always advisable to refer to the original document for confirmation.
The current database includes portable X-ray Florescence (PXRF) data. As PXRF data are highly dependent on instrumental settings and models, the lower detection limits are arbitrary. PXRF data are compiled as submitted in the company reports which may include ‘zeros’ for data below detection as reported, and data should be use with care. Table 1: Data coverage and the spatial distribution of data points listed by 1:100 000 map
sheets Sheet No.
Mapsheet Block Drillhole Location
Drillhole Sample
Drillhole Geo_Info
Rock Chip
Stream Sediments
Soils Whole-rock
Map sheet Total
6460 Carrara MIW 1 0 1 14 0 0 0 16
6462 Seigal MIW 4 218 20 2 3 166 0 413
6549 Gnallan A Gea Creek
MIW 0 0 0 0 0 3 0 3
6550 Mirrica Bore MIW 216 985 1,535 71 0 2,401 0 5,208
6551 Abudda Lakes MIW 31 280 160 22 50 0 1 544
6552 Neeyamba Hill MIW 0 0 0 1 68 0 12 81
The Queensland Exploration Geochemistry and Drill hole Database
Product Information 5
6553 Linda Dowms MIW 3 263 1,701 2 238 0 0 2,207
6554 Urandangi MIW 0 0 0 0 97 0 0 97
6555 Headingly MIW 2 1 60 0 25 3 0 91
6556 Bullecourt MIW 7 134 220 0 50 4 0 415
6557 Wooroona MIW 1 15 1 0 29 0 0 46
6558 Camooweal MIW 141 2,772 525 428 416 5,300 0 9,582
6559 Norfolk MIW 23 937 464 110 1,032 2,641 0 5,207
6560 Mussel Brook MIW 404 4,814 1,051 91 215 288 3,050 9,913
6561 Bowthorn MIW 259 1,954 403 83 737 3,278 0 6,714
6562 Hedleys Creek MIW 302 13,734 5,809 2,324 4,474 12,569 692 39,904
6563 Westmoreland MIW 420 3,821 2,744 160 1,438 2,144 29 10,756
6564 Massacre Inlet MIW 0 0 0 0 73 14 0 87
6649 Terriwa MIW 0 0 0 0 0 9 0 9
6650 Barrington Peak MIW 19 60 19 18 0 764 0 880
6652 Glenormiston
MIW 2 51 2 130 31 0 0 216
6653 Lake Katherine MIW 3 72 11 67 62 0 0 215
6654 Carandotta MIW 0 0 0 1 18 0 0 19
6655 Goa Creek MIW 17 209 361 0 3 5 0 595
6656 Templeton MIW 377 774 520 17 193 705 0 2,586
6657 Yelvertoft MIW 606 4,060 1,235 712 3,282 3,274 51 13,220
6658 Undilla MIW 767 4,961 1,299 1,360 1,642 5,351 9 15,389
6659 Riversleigh MIW 566 4,193 690 1,579 3,824 11,507 0 22,359
6660 Lawn Hill MIW 4,253 24,945 10,898 3,019 4,819 19,158 116 67,208
6661 Mount Oscar MIW 956 5,703 1,786 253 935 5,463 0 15,096
6662 Doomadgee MIW 4 57 4 3 8 0 0 76
6663 Ballys Lagoon MIW 11 51 342 12 0 37 0 453
6752 Badalia MIW 0 0 0 0 43 0 0 43
6753 Leslie Peak MIW 47 785 1,548 169 624 1,715 0 4,888
6754 Ardmore MIW 1,670 4,179 5,399 1,183 937 5,226 28 18,622
6755 Oban MIW 2,258 5,431 3,361 487 445 3,660 3 15,645
6756 Mount Isa MIW 4,647 11,350 8,864 3,033 6,414 15,429 0 49,737
6757 Kennedy Gap MIW 4,914 10,520 6,449 4,698 10,093 24,955 0 61,629
6758 Mammoth Mines
MIW 3,753 24,397 14,964 12,960 20,094 32,642 54 108,864
6759 Mount Oxide MIW 2,302 7,809 3,469 6,342 17,872 22,034 74 59,902
6760 Gregory Downs MIW 1,215 4,835 2,634 560 789 2,281 0 12,314
6761 Punjaub MIW 3 1 41 0 0 289 0 334
6762 Escott MIW 1 0 1 0 0 45 0 47
6763 Point Parker MIW 0 0 0 7 2 0 0 9
6851 Marion Downs MIE 0 0 0 0 4 0 0 4
6852 Boulia MIE 50 104 50 22 119 0 0 345
6853 Buckingham Downs
MIE 47 523 343 78 117 1 0 1,109
6854 Dajarra MIE 4,201 11,227 7,865 661 1,925 9,123 102 35,104
The Queensland Exploration Geochemistry and Drill hole Database
Product Information 6
6855 Duchess MIE 3,442 14,457 8,207 3,884 11,764 39,665 0 81,419
6856 Mary Kathleen MIE 4,213 10,492 7,910 6,821 15,014 16,682 0 61,132
6857 Prospector MIE 1,522 4,834 2,215 2,509 14,283 18,070 0 43,433
6858 Alsace MIE 1,339 11,742 2,950 3,436 7,153 10,971 0 37,591
6859 Myally MIE 238 1,575 2,801 448 5,919 3,611 0 14,592
6860 Augustus MIE 1 20 1 0 30 215 0 267
6861 Wernadinga MIE 0 0 0 0 6 0 0 6
6950 Coorabulka MIE 0 0 0 0 29 0 0 29
6951 Canary MIE 145 2,981 4,482 1 23 20 0 7,652
6952 Goodwood MIE 71 781 573 11 152 0 0 1,588
6953 Digby Peak MIE 281 901 329 161 1,423 1,031 0 4,126
6954 Mount Merlin MIE 1,139 17,360 2,781 5,859 5,996 17,274 0 50,409
6955 Malbon MIE 554 5,590 3,750 4,460 5,225 14,875 0 34,454
6956 Marraba MIE 3,848 25,144 18,127 11,496 17,673 33,995 51 110,334
6957 Quamby MIE 6,378 16,097 18,359 4,729 4,304 16,737 8 66,612
6958 Coolullah MIE 449 8,695 7,161 1,580 5,259 18,309 1 41,454
6959 Kamileroi MIE 238 1,718 3,806 46 317 1,824 18 7,967
6960 Talawanta MIE 6 680 62 0 34 0 0 782
6961 Neumayer Valley
MIE 14 0 88 18 58 0 0 178
6962 Middle Point MIE 0 0 0 0 1 0 0 1
7050 Springvale MIE 0 0 0 0 18 0 0 18
7051 Elizabeth Springs
MIE 25 830 975 1 39 42 0 1,912
7052 Lucknow MIE 243 532 7,830 4 85 1,922 0 10,616
7053 Toolebuc MIE 601 4,394 3,278 56 159 1,349 0 9,837
7054 Selwyn MIE 3,575 30,109 28,651 2,903 2,866 10,692 0 78,796
7055 Mount Angelay MIE 7,340 32,922 28,397 9,342 11,031 23,603 164 112,799
7056 Cloncurry MIE 5,914 32,566 29,427 9,347 14,859 31,092 0 123,205
7057 Clonagh MIE 704 15,394 20,325 0 48 1,045 0 37,516
7058 Alcala MIE 14 206 387 2 15 0 0 624
7059 Canobie MIE 10 1,339 1,238 0 17 0 0 2,604
7060 Donors Hill MIE 0 0 0 0 11 0 0 11
7061 Milgarra MIE 0 0 0 0 12 0 0 12
7062 Magowra MIE 43 144 299 7 0 0 0 493
7150 Diamantina Lakes
MIE 0 0 0 0 19 0 0 19
7151 Macartney Range
MIE 0 0 0 0 15 0 0 15
7152 Mackunda MIE 21 1,515 6,902 0 53 0 0 8,491
7153 Finucane Range MIE 7 168 562 13 37 847 0 1,634
7154 Elrita MIE 77 1,999 1,779 229 28 30 0 4,142
7155 Mckinlay MIE 245 5,018 7,120 11 34 855 0 13,283
7156 Oorindi MIE 656 4,439 5,997 92 54 253 0 11,491
7157 Dalgonally MIE 18 119 86 0 38 0 0 261
7158 Numil MIE 50 735 460 57 0 164 0 1,466
The Queensland Exploration Geochemistry and Drill hole Database
Product Information 7
7160 Iffley MIE 1 10 7 0 0 0 0 18
7162 Normanton MIE 4 4 4 0 0 0 0 12
7163 Double Lagoon MIE 23 23 23 0 0 0 0 69
7250 Mount Edward Graves
MIE 0 0 0 0 30 0 0 30
7251 Brighton Downs
MIE 0 0 0 0 39 0 0 39
7252 Hills Range MIE 0 0 0 0 30 0 0 30
7253 Middleton MIE 0 0 0 0 44 0 0 44
7254 Kynuna MIE 0 0 0 0 33 0 0 33
7255 Eulolo MIE 0 0 0 0 39 0 0 39
7256 Julia Creek MIE 5 160 277 0 38 0 0 480
7257 Wyaldra MIE 1 36 35 0 11 0 0 83
7258 Millungera NEQ 5 263 596 0 0 0 0 864
7259 Savannah Downs
NEQ 3 0 3 0 0 0 0 6
7260 Claraville NEQ 2 5 25 0 0 0 0 32
7272 Weipa NEQ-CYW
64 210 273 0 0 0 41 588
7273 Pennefather River
NEQ-CYW
1,670 4,578 10,318 0 0 0 2,316 18,882
7358 Malpas NEQ 0 0 0 0 6 0 0 6
7359 Trenton NEQ 17 81 17 0 0 0 9 124
7360 Prospect NEQ 67 928 843 7 29 245 15 2,134
7361 Croydon NEQ 3,956 63,007 95,264 1,499 1,236 645 0 165,607
7372 Yorkdowns NEQ-CYW
3 9 12 0 0 0 2 26
7373 Agnew NEQ-CYW
160 446 731 0 0 0 225 1,562
7374 Skardon River NEQ-CYW
76 163 233 0 0 0 137 609
7458 Etheldale NEQ
0 0 0 0 0 0 0 0
7459 Pelham NEQ 12 222 739 2 258 620 0 1,853
7460 Esmeralda NEQ
43 1,056 1,627 861 2,991 1,305 0 7,883
7461 Gilbert River NEQ
298 1,960 2,646 500 2,698 2,003 0 10,105
7467 Crosbie Creek NEQ-CY
37 301 230 98 163 1,236 0 2,065
7468 Strathmay NEQ-CY
879 1,442 3,232 80 587 1,454 2 7,676
7469 Strathburn NEQ-CY
284 410 1,005 62 675 1,858 0 4,294
7470 Rokeby NEQ-CY
0 0 0 35 159 199 0 393
7471 Wenlock NEQ-CY
94 1,015 1,990 161 287 0 0 3,547
7472 Batavia Downs NEQ-CY
0 0 0 0 4 0 0 4
7473 Moreton NEQ-CY
0 0 0 0 6 0 0 6
7558 Mount Norman NEQ
122 8,500 203 553 1,024 430 0 10,832
7559 Bellfield NEQ
23 866 555 247 939 316 0 2,946
7560 North Head NEQ
252 3,638 31,522 3,882 12,131 18,762 0 70,187
7561 Forest Home NEQ
677 17,131 14,427 3,767 10,855 14,594 0 61,451
7562 Abingdon Downs NEQ
178 3,186 5,939 764 2,212 831 5 13,115
7563 Red River NEQ
0 0 0 0 1 0 0 1
7565 Highbury NEQ-CY
0 0 0 0 80 0 0 80
The Queensland Exploration Geochemistry and Drill hole Database
Product Information 8
7566 Strathleven NEQ-CY
3 3 3 71 315 419 0 814
7567 Dixie NEQ-CY
351 6,120 2,935 1,447 1,380 6,056 0 18,289
7568 Kalkah NEQ-CY
166 2,725 1,889 783 2,738 9,505 0 17,806
7569 Ebagoola NEQ-CY
105 3,470 2,844 1,386 2,994 4,175 5 14,979
7570 Coen NEQ-CY
91 1,585 720 771 1,891 1,822 0 6,880
7571 Lockhart River NEQ-CY
789 1,747 1,291 385 688 253 0 5,153
7572 Cape Weymouth NEQ-CY
70 1,578 2,332 1,390 568 1,255 0 7,193
7573 Temple Bay NEQ-CY
92 416 29,377 26 53 196 0 30,160
7657 Dutton River NEQ 7 361 101 369 678 1,439 0 2,955
7658 Hampstead NEQ
18 677 230 1,536 2,440 2,651 0 7,552
7659 Gilberton NEQ
2,098 8,701 7,255 4,984 13,599 13,793 0 50,430
7660 Forsayth NEQ
779 19,971 12,349 4,388 7,957 14,812 14 60,270
7661 Georgetown NEQ
348 6,066 8,320 1,506 7,903 4,701 0 28,844
7662 Galloway NEQ_HB
144 2,744 1,903 770 5,458 3,230 61 14,310
7663 Blackdown NEQ_HB
85 2,887 1,296 70 1,200 1,328 0 6,866
7664 Walsh NEQ
1 15 16 0 138 15 0 185
7665 Mount Mulgrave NEQ-CY
6 58 85 489 2,732 3,480 0 6,850
7666 Jedda Creek NEQ-CY
0 0 0 463 2,559 966 0 3,988
7667 Kalinga NEQ-CY
6 0 34 12 377 821 0 1,250
7668 Marina Plains NEQ-CY
25 265 301 0 196 78 0 865
7669 Princess Charlotte Bay NEQ-CY
38 291 530 2 298 285 2 1,446
7670 Silver Plains NEQ-CY
0 0 0 0 5 0 0 5
7757 Boonderoo NEQ 9 166 137 3 197 2 0 514
7758 Chudleigh Park NEQ
14 524 74 297 1,659 821 0 3,389
7759 Lyndhurst NEQ
131 2,155 2,805 940 6,680 11,436 0 24,147
7760 Einasleigh NEQ
127 6,124 30,911 2,763 6,398 7,505 0 53,828
7761 Mount Surprise NEQ_HB
92 1,507 1,284 769 4,427 3,880 6 11,965
7762 Lyndbrook NEQ_HB
439 7,439 1,483 3,284 6,687 12,597 6 31,935
7763 Mungana NEQ_HB
1,980 38,556 13,742 5,920 12,056 41,043 0 113,297
7764 Bellevue NEQ_HB
56 2,023 331 1,511 7,172 24,334 0 35,427
7765 Maytown NEQ-CY
81 1,712 3,648 2,324 8,953 17,084 0 33,802
7766 Laura NEQ-CY
15 677 168 949 3,742 3,496 0 9,047
7857 White Mountains NEQ-RB
410 6,991 2,055 1,185 7,129 1,658 0 19,428
7858 Wandovale NEQ-RB
52 786 1,376 559 3,092 760 0 6,625
7859 Burges NEQ
796 16,258 6,205 5,692 8,995 19,874 7 57,827
7860 Conjuboy NEQ
1,153 23,196 13,491 2,196 11,744 31,462 0 83,242
7861 Saint Ronans NEQ
66 753 903 171 331 528 4 2,756
7862 Bullock Creek NEQ
159 753 1,115 1,202 2,747 7,123 2 13,101
7863 Chillagoe NEQ_HB
307 11,522 2,158 1,918 3,631 13,711 0 33,247
7864 Mount Mulligan NEQ_HB
253 7,223 3,397 2,368 5,079 3,626 0 21,946
7865 South Palmer River NEQ-CY
182 10,913 6,126 1,730 5,928 6,110 0 30,989
7956 Pentland NEQ-RB
637 10,734 6,486 1,666 306 9,523 0 29,352
The Queensland Exploration Geochemistry and Drill hole Database
Product Information 9
7957 Lolworth NEQ-RB
1,147 6,375 4,200 2,545 3,173 5,927 0 23,367
7958 Maryvale NEQ-RB
170 4,126 11,278 397 433 190 0 16,594
7959 Clarke River NEQ
159 5,945 2,253 3,010 4,451 3,693 0 19,511
7960 Valley of Lagoons NEQ
418 7,412 3,606 2,640 4,696 6,581 0 25,353
7961 Cashmere NEQ
107 1,568 258 359 2,612 1,541 0 6,445
7962 Ravenshoe NEQ
405 10,213 2,300 1,020 2,472 5,813 0 22,223
7963 Atherton NEQ
211 3,980 3,174 2,508 1,358 5,203 0 16,434
7964 Rumula NEQ
566 4,200 28,844 1,250 5,824 2,063 0 42,747
7965 Mossman NEQ-CY
34 796 274 116 955 67 0 2,242
7966 Helenvale NEQ-CY
83 3,508 4,422 617 2,250 1,630 34 12,544
8056 Milray CQ-DB 240 2,451 7,789 76 61 0 0 10,617
8057 Homestead NEQ-RB
2,103 18,558 36,780 1,947 2,939 9,890 17 72,234
8058 Hillgrove NEQ-RB
563 8,497 24,254 487 1,231 348 0 35,380
8059 Ewan NEQ-RB
645 12,298 12,423 3,670 6,741 2,948 0 38,725
8060 Kangaroo Hills NEQ
1,809 26,517 29,567 9,161 3,519 11,144 0 81,717
8061 Kirrama NEQ
2 281 60 276 2,752 613 0 3,984
8062 Tully NEQ
5 58 5 144 651 894 0 1,757
8063 Bartle Frere NEQ
13 909 850 449 549 1,364 0 4,134
8064 Cairns NEQ 0 0 0 246 497 178 0 921
8154 Mount Tutah CQ-DB 0 0 0 1 55 0 0 56
8155 Natal Downs CQ-DB 0 0 0 23 742 0 0 765
8156 Pajingo CQ-DB 460 4,922 10,329 556 1,371 1,139 5 18,782
8157 Charters Towers NEQ-RB
7,461 194,670 84,197 15,556 18,903 97,894 0 418,681
8158 Dotswood NEQ-RB
1,121 21,775 30,644 3,629 7,781 10,551 192 75,693
8159 Rolling Stone NEQ-RB
274 7,205 5,248 3,986 10,373 7,550 0 34,636
8250 Alpha CQ-DB 4 0 42 0 53 0 0 99
8251 Surbiton CQ-DB 27 22 315 1 37 0 0 402
8252 Albro CQ-DB 114 989 2,258 254 253 1,445 0 5,313
8253 Epping Forest CQ-DB 81 1,151 300 13 90 1,270 0 2,905
8254 Bulliwallah CQ-DB 120 315 2,115 266 1,100 1,110 0 5,026
8255 Scartwater CQ-DB 26 1,036 97 1,514 4,301 4,749 0 11,723
8256 Harvest Home CQ-DB 463 4,828 16,449 2,990 5,282 3,719 0 33,731
8257 Ravenswood NEQ-RB
1,679 45,058 17,921 12,386 19,889 58,682 0 155,615
8258 Mingela NEQ-RB
455 20,121 2,282 8,313 6,730 11,790 0 49,691
8259 Townsville NEQ-RB
0 0 0 19 50 0 0 69
8350 Bogantungan CQ-DB 0 0 0 72 485 0 0 557
8351 Zig Zag CQ-DB 0 0 0 226 2,068 896 0 3,190
8352 Monteagle CQ-DB 327 9,304 3,196 3,973 6,926 9,754 0 33,480
8353 Frankfield CQ-DB 1,416 10,778 3,811 1,025 527 5,453 0 23,010
8354 Gunjulla CQ-DB 666 4,967 2,889 953 1,264 11,927 2 22,668
8355 Mount Coolon CQ-DB 781 26,254 24,350 4,990 1,264 16,696 0 74,335
8356 Glendon CQ-DB 631 12,654 3,715 9,658 11,606 18,323 0 56,587
The Queensland Exploration Geochemistry and Drill hole Database
Product Information 10
8357 Strathalbyn NEQ-RB
47 2,212 2,252 3,436 7,553 12,179 5 27,684
8358 Ayr NEQ-RB
23 325 217 239 761 706 0 2,271
8450 Anakie CQ-DB/BOW
0 0 0 7 28 157 0 192
8451 Rubyvale CQ-DB 59 1,855 16,336 491 269 1,927 0 20,937
8452 Clermont CQ-DB 450 11,471 4,229 2,733 633 6,951 7 26,474
8453 Kilcummin CQ-DB 379 11,214 4,472 1,418 948 5,947 0 24,378
8454 Wyena CQ-DB 242 3,365 1,977 427 434 3,681 0 10,126
8455 Byerwen CQ-DB 66 2,265 291 1,351 2,557 5,785 0 12,315
8456 Collinsville CQ-DB 25 519 25 1,265 4,645 452 24 6,955
8457 Bogie NEQ-RB
218 3,646 682 3,508 4,765 10,372 232 23,423
8458 Cape Upstart NEQ-RB
2 45 47 91 0 0 0 185
8551 Capella CQ-DB/BOW
0 0 0 89 0 0 0 89
8552 Cotherstone CQ-BOW 0 0 0 20 0 0 0 20
8553 Grosvenor Downs
CQ 53 211 307 128 95 1,222 0 2,016
8554 Harrybrandt CQ 67 961 1,870 702 358 850 6 4,814
8555 Hillalong CQ 41 775 1,654 1,617 5,191 1,027 0 10,305
8556 Urannah CQ 22 116 22 969 5,471 2,086 0 8,686
8557 Bowen CQ 81 1,320 92 1,089 3,986 4,461 0 11,029
8558 Abbot Point CQ 0 0 0 1 5 0 0 6
8651 Cooroorah CQ-BOW 0 0 0 3 0 0 0 3
8652 Windeyers Hill CQ-BOW 0 0 0 0 0 0 0 0
8653 Bombandy CQ 11 192 15,183 90 237 296 0 16,009
8654 Nebo CQ 797 5,454 5,798 1,353 2,602 3,961 0 19,965
8655 Mirani CQ 21 589 775 267 2,678 500 0 4,830
8656 Calen CQ 188 1,797 205 549 1,282 2,125 0 6,146
8657 Proserpine CQ 0 0 0 43 187 0 0 230
8750 Dingo SEQ 0 0 0 0 21 0 0 21
8751 Strathconan CQ 0 0 0 1 136 0 0 137
8752 Mount Bluffkin CQ 25 1,116 893 569 2,297 1,586 0 6,486
8753 Connors Range CQ 69 2,462 70 2,160 4,636 4,085 0 13,482
8754 Carmila CQ 96 2,816 2,420 1,316 2,909 3,947 0 13,504
8755 Mackay CQ 34 1,380 199 2,879 962 1,855 0 7,309
8849 Baralaba SEQ 12 111 72 87 105 966 13 1,366
8850 Duaringa SEQ 0 0 0 290 992 306 0 1,588
8851 Rookwood CQ 486 18,388 2,430 1,959 5,104 2,889 0 31,256
8852 Marlborough CQ 471 4,264 1,194 996 2,411 1,954 840 12,130
8853 Saint Lawrence CQ 0 0 0 69 227 40 0 336
8946 Bungaban SEQ 33 302 1,293 45 558 0 0 2,231
8947 Cracow SEQ 223 3,135 256 3,200 1,303 5,106 0 13,223
8948 Theodore SEQ 27 1,630 1,134 1,350 1,524 1,095 0 6,760
8949 Banana SEQ 67 4,656 2,755 839 1,044 7,938 0 17,299
8950 Mount Morgan SEQ 741 9,489 6,543 4,760 19,606 26,221 0 67,360
The Queensland Exploration Geochemistry and Drill hole Database
Product Information 11
8951 Ridgelands CQ 115 1,903 1,146 1,257 5,483 6,713 0 16,617
8952 Princhester CQ 1,356 5,249 1,848 675 1,225 2,937 2,483 15,773
8953 Shoalwater CQ 23 1,095 443 69 572 5,418 0 7,620
9046 Auburn SEQ 293 9,002 9,915 1,576 709 3,417 0 24,912
9047 Rawbelle SEQ 29 370 630 421 655 3,104 0 5,209
9048 Scoria SEQ 78 2,656 2,022 1,806 4,127 3,465 0 14,154
9049 Biloela SEQ 400 4,036 1,435 1,711 7,714 3,995 8 19,299
9050 Bajool SEQ 239 2,750 2,278 1,900 15,958 17,709 9 40,843
9051 Rockhampton CQ 141 4,269 1,823 1,835 5,455 18,449 0 31,972
9139 Ashford SEQ 1 3 1 53 344 0 0 402
9140 Texas SEQ 291 11,238 1,796 1,952 2,130 4,344 0 21,751
9141 Inglewood SEQ 0 0 0 45 134 75 0 254
9145 Boondooma SEQ 7 813 91 140 516 765 9 2,341
9146 Mundubbera SEQ 309 785 974 550 885 3,332 2 6,837
9147 Eidsvold SEQ 55 2,194 1,414 630 2,089 2,082 0 8,464
9148 Monto SEQ 151 3,905 2,727 2,357 8,391 4,848 59 22,438
9149 Calliope SEQ 307 6,923 3,459 2,434 5,760 7,550 39 26,472
9150 Gladstone SEQ 112 682 722 318 637 677 0 3,148
9240 Stanthorpe SEQ 41 2,038 2,011 863 2,391 9,073 0 16,417
9241 Allora SEQ 11 428 179 1,101 1,867 2,329 0 5,915
9242 Toowoomba SEQ 0 0 0 7 3 0 0 10
9243 Oakey SEQ 0 0 0 80 14 16 65 175
9244 Kingaroy SEQ 73 41 612 31 124 2 24 907
9245 Murgon SEQ 99 1,550 1,426 227 761 214 8 4,285
9246 Gayndah SEQ 133 7,252 5,815 2,433 8,495 4,261 0 28,389
9247 Mount Perry SEQ 93 3,020 892 2,591 7,790 9,860 0 24,246
9248 Rosedale SEQ 59 2,003 613 553 2,104 2,885 0 8,217
9249 Miriamvale SEQ 0 0 0 62 240 19 0 321
9340 Drake SEQ 63 3,677 3,708 329 371 783 0 8,931
9341 Warwick SEQ 23 44 23 233 603 1,364 0 2,290
9342 Helidon SEQ 15 39 197 0 9 0 44 304
9343 Esk SEQ 23 1,506 587 1,616 1,687 1,807 76 7,302
9344 Nanango SEQ 26 1,309 704 921 1,812 4,230 0 9,002
9345 Goomeri SEQ 235 10,112 4,846 3,434 5,377 12,624 0 36,628
9346 Biggenden SEQ 206 4,958 4,370 1,531 2,930 8,236 0 22,231
9347 Childers SEQ 63 425 599 871 1,544 2,271 0 5,773
9443 Caboolture SEQ 0 0 0 201 426 819 0 1,446
9444 Nambour SEQ 145 3,170 4,292 515 1,709 2,071 0 11,902
9445 Gympie SEQ 394 1,959 2,731 787 1,821 2,591 0 10,283
9446 Maryborough SEQ 35 83 122 145 659 20 0 1,064
9542 Beenleigh SEQ 60 1,072 1,133 182 659 0 0 3,106
9543 Brisbane SEQ 46 108 46 0 0 0 0 200
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9544 Caloundra SEQ 0 0 0 5 4 0 0 9
9548 Waddy Point SEQ 59 425 59 0 0 0 0 543
TOTAL 302 134,732 1,415,977 1,184,523 361,190 750,084 1,390,071 11,525 5,248,102
The Queensland Exploration Geochemistry and Drill hole database is delivered in two formats – a statewide single MS ACCESS database, and a package of 5 geographic based database blocks.
1.1 Statewide MS ACCESS Database
The statewide database is delivered in MS ACCESS only. As the database exceeds the MS ACCESS storage limit, the database is broken down into 3 MS ACCESS files as:
1. tsxpldat, 2. tsxpldat2, and 3. tsxpldat3.
To link the 3 MS ACCESS files, Map to Mine Pty. Ltd. (MTM) has supplied the following instructions.
How to link the database files to see all the data in the one database (MTM, 2017) Due to the limitations of access databases only having the ability to store up to 2GB of data, the 100% merged database has had to be split into three access .mdb files. The file “link” recognises the file path address, which means that every time you move the data, the links need to be told where to get the information from. It is only the surface data that needs to be linked. Here are a few simple steps to help set this up once the data is migrated off the hard drive.
1. Right click the left hand tables list panel and select ‘Link Table Manager’ (see below):
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2. This will open up a dialog box with showing a list of all linked tables.
Due to the size, the linked tables are located in two databases. tsdpldat2.mdb contains tables: tsdpldat3.mdb contains tables: s_Dating s_Soil s_Dating_Lith_Param s_Soil_Lith_Param s_Geology s_Soil_Param s_Geology_Lith_Param s_Structure s_Petrology s_Structure_Lith_Param s_Petrology_Lith_Param s_Wholerock s_Photo s_Wholerock_Lith_Param s_Photo_Lith_Param s_Wholerock_Param s_PIMA s_Wholerock_Trace s_PIMA_Data s_PIMA_Lith_Param s_Program s_Program_Lith_Param s_RC s_RC_Lith_Param s_RC_Param s_Seds s_Seds_Lith_Param s_Seds_Param As there are 2 databases linking to the main database the process will have to be completed twice, but once it has been re-linked at its final storage destination, the process should not need to be repeated again.
3. In the tick boxes to the left (see image below), select the tables in the above list to the left (all the files that have ‘\tsxpldat2.mdb’ at the end of file path name in the linked table manager window).
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4. Click “OK” 5. Find the access database file: ‘tsxpldat2.mdb’ in the system (see below) and click
“OPEN”
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6. After you have clicked ‘OPEN’ it should tell you that all the tables were successfully linked/refreshed.
7. Repeat steps to link ‘\tsxpldat3.mdb’ tables i.e. In the tick boxes to the left, select the tables in the list to the right (all the files that have ‘\tsxpldat3.mdb’ at the end of file path name in the linked table manager window) and then click “OK”.
8. Find the access database file: ‘tsxpldat3.mdb’ in the system (see below) and click ‘OPEN’
9. After you have clicked ‘OPEN’ it should tell you that all the tables were successfully linked/refreshed.
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10. Click ‘OK’ and then click ‘Close’ to close the dialog box and the tables should open as normal in the database.
1.2 The Five Data Packages
The Queensland Exploration Geochemistry and Drill hole Data has also been geographically subdivided into five database blocks (Figure 1) as:
1. The South East Queensland block, 2. The Central Queensland and Drummond Basin block, 3. The North East Queensland block (including Georgetown Inlier, Hodgkinson
Basin, Ravenswood and Cape York blocks), 4. The Mount Isa Eastern block, and 5. The Mount Isa Western block.
The different data packages are of different sizes as summarised in the table below:
Database Size
The South East Queensland Block 6.0 GB
The Central Queensland and Drummond Basin Block 6.4 GB
The North East Queensland, Ravenswood and Cape York Block
9. 5 GB
The Mount Isa Eastern Block 7.9 GB
The Mount Isa Western Block. 5.8 GB
Each data package is delivered in the MS ACCESS, CSV and MS EXCEL formats
and also includes ArcMap shapefiles. The MS ACCESS database is readable using the Explorer 3 database management software distributed with the database that allows reporting and export options, but does not allow edits, deleting or adding. Terra Search Pty Ltd owns the Intellectual Property of the Explorer 3 system and the licence to the full-version of the program.
Query fields that are inaccessible to this cut-down version of Explorer 3 are greyed out. The read-only Explorer 3 allows:
• Effective interrogation and sub-setting of data.
• Exporting to spreadsheet.
• Standardised geological codes and authority tables. Figure 1: The Queensland Exploration Geochemistry and Drill hole database subdivided
into five database blocks
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2 DATA PACKAGE DOWNLOAD 2.1 Components of individual data package
Within each database package, there are 5 sub-folders of related files or data. The subfolders are:
Access\ PSWD.txt tsxpldat.mdb Data file tsxplimg.mdb Image file tsxplsys.mdb System file
CSV\ For users who work with Ascii tables or want to have a quick overview of data. The CSV files are linked to the shapefiles. Explorer3 exports Ascii data extracts, and the export files will have the same name as the CSV files. ArcMap project has been generated for each package using CSV files extracted from the database. As long as the file exports have
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the same name, the linkage between CSV and Shapefiles will automatically display the data within an ArcMap environment.
EXCEL\Key data types from the database Explorer 3 Setup
A read only data management system (32 and 64 bit) that links the various table within the database. Users have the option to install and interrogate the data using the Explorer 3 program, or to link the various ACCESS tables outside the Explorer 3 environment. The full-version of the program remains under licence to Terra Search Pty Ltd.
Shapefiles\ Readme_2016.PDF A document to assist users on how to use the Explorer 3
program. 2.2 System and memory requirements
Minimum operating system is Windows 98. Installation of the Explorer 3 data management system: 220 MB The additional memory requirement for the download and installation depends on the size of the database package.
2.3 Installation instructions
1. Download your database block into a single folder area and unzip any files if necessary.
2. Use the ‘Browse’ function to locate the ‘Setup.exe’ program from the ‘Explorer 3 Setup’ folder, and run the setup program. If you have downloaded multiple blocks of the Exploration Geochemistry database, you only need to install one Explorer 3 program though each data block includes the same Explorer 3 sub-folder.
The setup program will install the Explorer 3 RDBMS program in a default directory called C:\Program\Explorer 3. However, if you wish to customise the destination, you can change the folder by using the “Browse” button. The “Browse” button activates the “Choose folder” dialog box where you can type in your customised data folder. You will need approximately 220 MB free memory to install the entire data management system.
2.4 Data folders
The setup program will create four subfolders under the folder you have created i.e. C:\Program\Explorer 3\. The subfolders are:
Data\ MapInfo| Temp\ Tutorial\
If you intend to download multiple database blocks, you need to create individual folders for each database, e.g.
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q SEQ\: (South East Queensland block) q CQ_RB\: (Central Queensland and Drummond Basin block) q NEQ_RB_CY\: (North East Queensland, Ravenswood and Cape York block) q MIE\: (Mount Isa Eastern block) q MIW\: (Mount Isa Western block)
The MapInfo\ and Temp\ subfolders are empty folders created for storing Readme.PDF document and working tables and files. The Tutorial folder contains simple introductory exercises to the Explorer 3 regional database management system.
3 GETTING STARTED
Once the Explorer 3 file management system has been installed, the program can be run from the ‘Start’ menu by clicking on the ‘Programs’ folder, followed by “Explorer 3 RDBMS” option under the ‘Explorer 3’ folder. When starting up Explorer 3, the file management system will prompt you for the database directory.
For ‘Access’ database, you can choose any of the last six Databases previously accessed or browse for the new database location using the ‘Browse’ function. The main database is tsxpldat.mdb with the system and image databases being called tsxplsys and tsxplimg respectively
For SQL Server you can choose a ‘DSN’ name setup using the ODBC32 Configuration program. You may need to install the SQL Server Driver from the Data Access objects section of the Microsoft Office CD. There are three database objects for each Project Database setup and these should all have the same prefix with suffixes of _DB for the main DB, _SYS for the System Database and _IMG for the image database respectively.
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Selecting database types: Access or SQL
3.1 User name and password The system will ask for a user name and password.
The default user name is “DBA” (uppercase). The default password is “AMIRA” (uppercase).
If the data files are to be accessible over a network, a file called PSWD.txt in the C:\Explorer3\Data folder has been included, which contains the encrypted password to the system. This file will retain the same “DBA” user name and “AMIRA” password.
User name DBA (uppercase) Password AMIRA (uppercase)
Browse button to locate the database directory e.g. C:\Explorer3\Data\tsxpldat.mdb
Access Database
SQL
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User ID and Password
3.2 Help files
Help files contain instructions on how to use the Explorer 3 system and information on the tables and fields within the database. There are separate help files located under ‘Help’ in the main toolbar. The help topics are specific to the tasks and are listed below:
Main Menu Database Tables General Information Exporting Reporting Tools System Settings
There are several ways of navigating to the help file: 1. By pressing F1 on any screen the relevant section of the help file should appear. 2. Click on the Help button on the top of the screen for this option. Under Help, there are
the ‘Contents, Index and Find pages that allows rapid access to information. 3. Scattered throughout the Help file, there are words or phrases that show up as green
underlined words. These are hyperlinks that will automatically take you to a help topic related to the word or phrase.
4. Some help topics have pictures associated with them, and clicking on various parts of the picture will take you directly to the related topic.
5. The arrow keys on the top of the screen will move you through the help files in a specified order and the Back button will move you to the last topic viewed.
User ID: DBA Password: AMIRA
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4. THE DATABASE 4.1 Database structure - Tables
The database consists of approximately 160 tables, each containing between 6 and 100 fields. There are three main entities designated as “table” within the system- Data, Modules and Libraries Tables, which have complex relationships as depicted in Figure 8.
Database structure- Tables
1. The ‘Data Tables’ or sample-type tables contain the observed or analysed data for the
variety of sample types. 2. The ‘Modules’ tables consist of one to several tables containing information that refers
to groups of sample data. The Modules included information on: • Exploration Program: Project, Prospect, Company and Grid Details. • Tenement: Land Tenure information directly linked to the Sample Tables. • Bibliographic: Report and other source information directly linked to the samples. • Assay Analysis: Analytical details stored efficiently and exactly for all analyses. • Polygon: Storage of 2 and three dimensional bodies for analysis using GIS.
3. The ‘Libraries’ tables are authority tables for the many codes in the system. ‘Libraries’
tables are split into several groups: • Geographical Libraries: Includes all items defined on Geographical criteria such as
Countries, States, GeoRegions etc. • Geological Libraries: All assigned geological criteria such as Provinces,
Geological Units, Regolith units etc. • Lithological Libraries: Lithological codes including lithology, Descriptors and
Structures. • Mineralisation Libraries: Style, Amounts and Mineralogy of mineralisation. • Surface Sampling Libraries: Codes for subsetting data on broad sampling methods or
lithological types.
Data Tables Module Table Library Tables
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• Drilling Libraries: Codes specifically for drilling tables such as Bit Types, Drilling Companies etc.
• System Libraries: Codes that are the basis for the system such as coding system, parameters etc.
•
Exploration Program
Module Project, Prospect, Grid, Company Information.
Basic Division of the data
Polygon Module Stores data defining
2-D areas for the system. Including
geological boundaries, countries, tenements, grids etc.
Data Tables
Surface Tables: Streams; Soils; Rock Chips
Drill hole Tables; Collars; Geochem; Geology;
Geotech
Library Tables All Decodes for
Geological, Geographic, Drilling, And System Codes.
Tenement Module Land Tenure Details for
the Data in the system. Areas Stored within the Polygon
Module.
Assay Module Batch Details, Dispatch
Info, Laboratory; Method,
Location, Detection Limits, Units
Bibliographic Module Reports and References
for the data within the
system and broader geological
information Figure 2: The system relationship between ‘Data Tables’, ‘Modules’ and Libraries’
tables 4.2 The Database attributes Datum: All data points are stored with AMG and Lat/Long as well as relevant local grid
coordinates. The locations are stored with reference to the AGD66 Datum (AMG projection). Within a GIS environment, the data can be converted other datum such as GDA94 (Projection MGA).
Location accuracy: The estimated location accuracy is recorded in the grid_ID library and
appeared as a separate field on the data tables. The locational accuracy is recorded as an absolute distance in metres eg. ± 100m.
Geographic criteria: These include the country, state, mapsheet, prospect name, geological
province, company collecting the data, and the project to which the data belong. These data are all stored on the sampling tables using 3 of the primary key fields - Prospect Code, Company Code and Sheet. These codes are linked to the Exploration Program Module, which contains all the information common to an area. These fields are part of the database index and most functions will be faster where these fields are defined.
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Assay module: The assay results can be effected by:
• Sample collection method, e.g. bulk or selected digestion • Sample preparation method, e.g. crush or sieve, size of sample • Digestion method, e.g. total or partial • Extraction method, e.g. none or selective concentration • Analytical method, resulting in varying levels of detection limits dependent on
sensitivity of method e.g. flame AAS compared to graphite furnace (carbon rod) AAS finish.
In this database, the different sample collection, preparation and analytical methods were recorded.
4.3 Data Tables: Categories and subsets
The ‘Data Tables’ database is split into two major categories - ‘Surface Sample’ and ‘Drill hole’. The ‘Surface Sample’ is further split into the four main categories as ‘Soil Sample’, ‘Stream Sediment’, ‘Rock Chip’ and ‘Wholerock’ (Figure 3). These broad data divisions separate the data into different tables, with one table for each of the four surface sample groups and fifteen tables for the different sorts of drilling data potentially collected at different from_to intervals, down drill holes. Each table contains a data type variable, which allows further subsetting of data based on the sampling methods used.
Data Tables, Categories and Subsets
Figure 3: The major subdivision of the ‘Data Table’ into ‘Surface Sample’ and ‘Drill hole’, with respective subsets of sample types.
DATA TABLES
Example of data subsets within the ‘Drill hole’ Data Table.
The ‘Data Table’ is subdivided into ‘Surface Sample’ and ‘Drill hole’
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Surface Sample Drill hole Soil Sample Collar Stream Sediment Collar (Cut Down Version) Rock Chip Sample Data Whole rock Survey Data Coded Drill hole Geology Quantifiable Geology Text Geology Size Structure Geotech
Alteration Regolith Bulk Density Waterflow Geophysics 5. SURFACE SAMPLE
The Surface Sample Table for stream sediment samples
5.1 Database Fields
The database file structure for the Stream Sediments, Soil Sample and Rock Chip (including whole rock) samples is summarised in Tables 6 to 8 respectively.
The Surface Sample table
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These file structures summarise the possible information recorded for the different sample types, depending on the source data (most data points may not contain all these information).
Table 2: The Stream Sediment File Structure
Field Name Field Type Field Length Description Prospect_Code Text 8 Coded eg. PLCS Company Text 6 Coded eg. WMC, BHP Sheet_Number Text 6 1:100K sheet # eg. 8423 Sample Text 10 Sample number eg. 1234, or AB56789 Data_Type Text 6 Coded eg. BCL, SSS etc Mesh Text 12 Original sieved fraction size eg: -80# Grid_ID Text 6 Coded eg. AMG2 Over_SIMesh Number Integer 4 Standard SI units in microns Under_SIMesh Number Integer 4 Standard SI units in microns Locality Text 40 Locality Description Location_Accuracy Number Integer 2 Accuracy of sample point measured in metres Geological_Unit_Code Text 6 Coded dominant geological unit Ph_Ref Text 10 Aerial photography reference code Ph_Run Text 4 Aerial photography run Ph_Num Text 4 Aerial photography photo number Country Text 10 Coded eg: AUS State Text 10 Coded eg: VIC Amg_N Number Double 8 AMG North Amg_E Number Double 8 AMG East North Number Double 8 Local grid north East Number Double 8 Local grid east Latitude Number Double 8 Latitude Longitude Number Double 8 Longitude RL_Regional Number Double 8 Regional relative level RL_Local Number Double 8 Local relative level Sampler Text 4 Persons name Date_Sampled Date 8 Date sample was collected in the field Sample_Wt Number Integer 2 Weight in grams Bulk_Wt Number Single 4 Bulk weight in kilograms Trap Text 1 Was sample collected at a Trap Site (Y/N) Catch Number Single 4 Catchment size (nominal square Km) Conc_Wt Number Double 8 Weight of concentrate Min_Occurrence Text 10 Coded mineral occurrence Lith1 Text 6 Lithology (AGSO standard codes) Desc11 Text 6 First description relevant to Lithology 1 Desc12 Text 6 Second description relevant to Lithology 1 Desc13 Text 6 Third description relevant to Lithology 1 Desc14 Text 6 Fourth description relevant to Lithology 1 AltQual11 Text 6 Primary alteration qualifier to Lithology 1 AltQual12 Text 6 Secondary alteration qualifier to Lithology 1 AltType11 Text 6 Primary alteration type to Lithology 1 AltType12 Text 6 Secondary alteration type to Lithology 1 AltInt11 Text 6 Primary alteration intensity to Lithology 1 AltInt12 Text 6 Secondary alteration intensity to Lithology 1 Min_Style11 Text 6 First mineralisation style for Lithology 1 Min_Style12 Text 6 Second mineralisation style for Lithology 1 Min_Amount11 Text 6 First mineralisation amount for Lithology 1 Min_Amount12 Text 6 Second mineralisation amount for Lithology 1 Min_Min11 Text 6 First mineralisation mineralogy for Lithology 1 Min_Min12 Text 6 Second mineralisation mineralogy for Lithology 1 Lith2 Text 6 Lithology 2 (AGSO standard codes) Desc21 Text 6 First description relevant to Lithology 2 Desc22 Text 6 Second description relevant to Lithology 2
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Field Name Field Type Field Length Description Lith3 Text 6 Lithology 3 (AGSO standard codes) Desc31 Text 6 First descriptor relevant to Lithology 3 Desc32 Text 6 Second descriptor relevant to Lithology 3 Lith_Desc Text 255 Longhand description of sample and site Comment Text 60 Comment relevant to sample treatment at lab Au, Au1, Cu, Pb, Zn, Ag, As, Bi, Mo, Mn, Fe, Ni, Co, Cr, V, Ba, Cd, Sn, Sb, Hg, Te, P, W, Zr, Ti, Mg, Th, U, Pt, Pd, S
Number Currency 8 Individual assay determinations
Job-No Text 10 Terra Search assigned assay job number e.g. ALS88234 - refer to library for full decoded description of assay techniques, detection limits etc
Tenement_Type Text 4 Tenement type linked to state e.g.: EL Tenement Text 8 Original tenement number for particular tenement
type e.g.: 2244 Report_Type Text 4 Report type linked to state e.g. GEDS for VIC
GEDIS Report Report Text 12 Company report number, in Victoria this is GEDIS
or BIB Number e.g.: GEDS7108 Open_File Text 1 (Y)es or (N)o Duplicate Text 1 (Y)es or (N)o whether sample has duplicate Associated_Sample_No Text 12 If sample has duplicate, corresponding sample
number Parameterised lithology and assay fields are added to the end of each record as they usually vary between data sets Table 3: Soil Sample File Structure
Field Name Field Type Field Length Description Prospect_Code Text 8 Coded e.g. PLCS Company Text 6 Coded e.g. WMC, BHP Sheet_Number Text 6 1:100K sheet # e.g. 8423 Sample Text 10 Sample number e.g. 1234, or AB56789 Data_Type Text 6 Coded e.g. AUGER, SOIL etc Mesh Text 12 Original sieved fraction size e.g.: -80# Grid_ID Text 6 Coded e.g. AMG2 Over_SIMesh Number Integer 4 Standard SI units in microns Under_SIMesh Number Integer 4 Standard SI units in microns Locality Text 40 Locality description Location_Accuracy Number Integer 2 Accuracy of sample point measured in metres Geological_Unit_Code Text 6 Coded dominant geological unit Ph_Ref Text 10 Aerial photography reference code Ph_Run Text 4 Aerial photography run Ph_Num Text 4 Aerial photography photo number Country Text 10 Coded e.g.: AUS State Text 10 Coded e.g.: VIC Amg_N Number Double 8 AMG North Amg_E Number Double 8 AMG East North Number Double 8 Local grid north East Number Double 8 Local grid east Latitude Number Double 8 Latitude Longitude Number Double 8 Longitude RL_Regional Number Double 8 Regional relative level RL_Local Number Double 8 Local relative level Sampler Text 4 Persons name Date_Sampled Date 8 Date sample was collected in the field Sample_Wt Number Integer 2 Weight in grams Line_No Text 8 Regional traverse number e.g.: BEN15A Regolith_Regime_Code Text 2 Coded e.g.: E=Erosional, D=Depositional
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Field Name Field Type Field Length Description Regolith_Landform_Code Text 6 Regolith terrain unit Regolith_Profile_Code Text 6 Coded e.g.: RSP=Relict Saprolite Horizon Text 6 Soil horizon e.g.: A or A/B Depth Number Single 4 Depth of soil sample in cm Min_Occurrence Text 10 Coded mineral occurrence Lith1 Text 6 Lithology (AGSO standard codes) Desc11 Text 6 First description relevant to Lithology 1 Desc12 Text 6 Second description relevant to Lithology 1 Desc13 Text 6 Third description relevant to Lithology 1 Desc14 Text 6 Fourth description relevant to Lithology 1 AltQual11 Text 6 Primary alteration qualifier to Lithology 1 AltQual12 Text 6 Secondary alteration qualifier to Lithology 1 AltType11 Text 6 Primary alteration type to Lithology 1 AltType12 Text 6 Secondary alteration type to Lithology 1 AltInt11 Text 6 Primary alteration intensity to Lithology 1 AltInt12 Text 6 Secondary alteration intensity to Lithology 1 Min_Style11 Text 6 First mineralisation style for Lithology 1 Min_Style12 Text 6 Second mineralisation style for Lithology 1 Min_Amount11 Text 6 First mineralisation amount for Lithology 1 Min_Amount12 Text 6 Second mineralisation amount for Lithology 1 Min_Min11 Text 6 First mineralisation mineralogy for Lithology 1 Min_Min12 Text 6 Second mineralisation mineralogy for Lithology 1 Lith_Desc Text 255 Longhand description of sample and site Comment Text 60 Comment relevant to sample treatment at lab Au, Au1, Cu, Pb, Zn, Ag, As, Bi, Mo, Mn, Fe, Ni, Co, Cr, V, Ba, Cd, Sn, Sb, Hg, Te, P, W, Zr, Ti, Mg, Th, U, Pt, Pd, S
Number Currency 8 Individual assay determinations
Job_No Text 10 Terra Search assigned assay job number e.g. ALS88234 - refer to library for full decoded description of assay techniques, detection limits etc
Tenement_Type Text 4 Tenement type linked to state e.g.: EL Tenement Text 8 Original tenement number for particular tenement
type e.g.: 2244 Report_Type Text 4 Report type linked to state e.g. GEDS for VIC
GEDIS Report Report Text 12 Company report number, in Victoria this is GEDIS
or BIB Number e.g.: GEDS7108 Open_File Text 1 (Y)es or (N)o Duplicate Text 1 (Y)es or (N)o whether sample has duplicate Associated_Sample_No Text 12 If sample has duplicate, corresponding sample
number Parameterised lithology and assay fields are added to the end of each record as they usually vary between data sets
Table 4: Rock Chip File Structure Field Name Field Type Field Length Description Prospect_Code Text 8 Coded e.g. PLCS Company Text 6 Coded e.g. WMC, BHP Sheet_Number Text 6 1:100K sheet # e.g. 8423 Sample Text 10 Sample number e.g. 1234, or AB56789 Data_Type Text 6 Coded e.g. BCL, SSS etc Grid_ID Text 6 Coded e.g. AMG2 Locality Text 40 Locality Description Location_Accuracy Number Integer 2 Accuracy of sample point measured in metres Collection_Method Text 6 Method of Collection e.g. Channel, Selected etc. Method_Amount Number Double 8 Distance or area covered when sampling by above
method. Geological_Unit_Code Text 6 Coded dominant geological unit
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Field Name Field Type Field Length Description Ph_Ref Text 10 Aerial photography reference code Ph_Run Text 4 Aerial photography run Ph_Num Text 4 Aerial photography photo number Country Text 10 Coded e.g.: AUS State Text 10 Coded e.g.: NT Amg_N Number Double 8 AMG North Amg_E Number Double 8 AMG East North Number Double 8 Local grid north East Number Double 8 Local grid east Latitude Number Double 8 Latitude Longitude Number Double 8 Longitude RL_Regional Number Double 8 Regional relative level RL_Local Number Double 8 Local relative level Sampler Text 4 Persons name Date_Sampled Date 8 Date sample was collected in the field Sample_Wt Number Integer 2 Weight in grams Min_Occurrence Text 10 Coded mineral occurrence Occurrence Text 6 e.g. Outcrop, Subcrop etc Lithology_Type_Code Text 6 Sample type grouping such as Gossan, Vein ,
Country Rock etc. Weathering_Code Text 6 e.g. Strongly weathered Fresh etc. Length, Dip, Strike,Dip Dirn
Number Double 8 Outcrop or Lode Size and orientation
Lith1 Text 6 Lithology (AGSO standard codes) Desc11 Text 6 First description relevant to Lithology 1 Desc12 Text 6 Second description relevant to Lithology 1 Desc13 Text 6 Third description relevant to Lithology 1 Desc14 Text 6 Fourth description relevant to Lithology 1 AltQual11 Text 6 Primary alteration qualifier to Lithology 1 AltQual12 Text 6 Secondary alteration qualifier to Lithology 1 AltType11 Text 6 Primary alteration type to Lithology 1 AltType12 Text 6 Secondary alteration type to Lithology 1 AltInt11 Text 6 Primary alteration intensity to Lithology 1 AltInt12 Text 6 Secondary alteration intensity to Lithology 1 Min_Style11 Text 6 First mineralisation style for Lithology 1 Min_Style12 Text 6 Second mineralisation style for Lithology 1 Min_Amount11 Text 6 First mineralisation amount for Lithology 1 Min_Amount12 Text 6 Second mineralisation amount for Lithology 1 Min_Min11 Text 6 First mineralisation mineralogy for Lithology 1 Min_Min12 Text 6 Second mineralisation mineralogy for Lithology 1 Lith2 Text 6 Lithology 2 (AGSO standard codes) Desc21 Text 6 First description relevant to Lithology 2 Desc22 Text 6 Second description relevant to Lithology 2 Lith3 Text 6 Lithology 3 (AGSO standard codes) Desc31 Text 6 First descriptor relevant to Lithology 3 Desc32 Text 6 Second descriptor relevant to Lithology 3 Comment Text 60 Comment relevant to sample treatment at lab Au, Au1, Cu, Pb, Zn, Ag, As, Bi, Mo, Mn, Fe, Ni, Co, Cr, V, Ba, Cd, Sn, Sb, Hg, Te, P, W, Zr, Ti, Mg, Th, U, Pt, Pd, S
Number Currency 8 Individual assay determinations
Job-No Text 10 Terra Search assigned assay job number e.g. ALS88234 - refer to library for full decoded description of assay techniques, detection limits etc
Tenement_Type Text 4 Tenement type linked to state e.g.: EL Tenement Text 8 Original tenement number for particular tenement
type e.g.: 2244 Report_Type Text 4 Report type linked to state e.g. GS for NT
GS Report Report Text 12 Company report number, in NT this is GS #
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Field Name Field Type Field Length Description Open_File Text 1 (Y)es or (N)o Duplicate Text 1 (Y)es or (N)o whether sample has duplicate Associated_Sample_No Text 12 If sample has duplicate, corresponding sample
number Parameterised lithology and assay fields are added to the end of each record as they usually vary between data sets
Some of the major fields in the ‘Surface Sample’ database are explained further in the section below. 5.1.1. Company: A 3- to 6- character code to uniquely identify a company, and its wholly
owned subsidiaries and affiliates, and background information. The company code is used throughout the Explorer system - on the sample tables, the prospect code library, the company report and tenement library.
5.1.2 Prospect Code: This is can be up to eight letter code. The first two characters of the
prospect code refer to the company who collected the data, the second two are geographically based. Each prospect code is linked to a 100K sheet number. E.g. ABBM 8355 = AB 2 character for Aberfoyle Resources Limited
BM Bimurra 8355 Mt Coolon 100K sheet
Prospect codes are also cross linked to 1:250K sheet areas, geological provinces, subprovinces, GIS projection, and company and land block. Prospect Codes generated by the Geological Survey of Queensland commonly have the GS prefix and codes generated by Map to Mine Pty Ltd have the MM prefix.
5.1.3 Grid_ID: Each grid is assigned a code which is linked to the 100K sheet number to
give a unique code throughout the Explorer system. Grid_IDs appear in the Grid ID library where information on accuracy, nature of grid and common points relating local coordinates to AMG are stored. These common points have been used in grid transformations to compute AMG coordinates where necessary. Grid transformations have been performed with Explorer 3 software and cross-checked with at least two other independently obtained points. The estimated locational accuracy of the samples is stored with the relevant grid. Regional data plotted on base maps are also linked to the grid ID library entries eg. AMG2 refers to data replotted onto 1:25K film base maps and digitised to an accuracy of ±100m.
5.1.4 Sample Numbers: In the Explorer system the original sample number is honoured as
much as possible, including prefixes and suffixes if relevant. Occasionally leading zeros are inserted to ensure a running sequence. If no sample number is found, Terra Search assigns a simple running sequence. The key field links of company:prospect code:100K sheet:data type:mesh:sample number is unique in the Explorer system.
5.15 Data Types: Table 5: Stream Sediment Sample Types
Sample type Code File Bulk Alluvial Sample ALLUV s_seds
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Bulk Cyanide Leach sample BCL s_seds Bulk unsieved stream sediment (Not BCL) BULK s_seds Coarse fraction stream sediment CFSS s_seds Bottom wash drill hole coarse fraction CSBW s_seds Bulk samples for Heavy Minerals (Diamond) DIAM s_seds Ferruginous Gravel FER s_seds Gravel samples GRAVEL s_seds Coarse fraction LAG stream sample LAG s_seds Magnetic fraction MAG s_seds Magnetic lag drainage sample MAGLAG s_seds Stream Sediment orientation sample ORIENT s_seds Pan Concentrate or Heavy Mineral Conc. PC s_seds Pan con:bottom wash of drill hole PCBW s_seds Panned Concentrate top of drill hole PCTH s_seds Slime sample from Diamond sampling SLIME s_seds Bottom wash drill hole sieved stream sed SSBW s_seds Sieved Stream Sediment Samples SSS s_seds Suspended Silt Samples SUSP s_seds
SSS Sieved stream sediments - applies to the fine fraction e.g. -80 mesh (#), -200#, -20#. BCL Bulk cyanide leach samples. Partial extraction for Au, Cu, Ag, occasionally other elements. CFSS Coarse fraction stream sediments, applies to the coarse fraction e.g.; -20#+80#; -80#+200# etc. PC Panned concentrate (heavy mineral conc). BULK Unsieved sample, crushed and ground, analysed by total extraction. i.e. not a partial extraction
such as BCL GRAVEL Coarse gravel sample ALLUV Bulk alluvial sample , total gold after gravity separation in jig. ORIENT Orientation samples, usually a variety of fractions DIAM Samples taken in bulk for diamond and kimberlitic indicator mineral analysis.
Table 6: Soil Sample Types
Soil Orientation sampling ORIENT s_soil Soil Sample, by Bulk Cyanide Leach CL s_soil Coarse fraction, LAG sample LAG s_soil Termite mound sampling TERM s_soil Sieved soil sample SOIL s_soil Bulk unsieved soil sample, not BCL BULK s_soil Shallow hand or power auger AUGER s_soil Ferruginous regolith sample FER s_soil Regolith sample (lateritic) LAT s_soil Partial Digest sample (Mobile Ion) PDMMI s_soil Partial Digest sample (Pyrophosphate) PDMPF s_soil
SOIL Sieved soil sample e.g. -80#, -200# etc. BCL Bulk cyanide leach samples. Partial extraction for Au, Cu, Ag, and occasionally other
elements. BULK Unsieved sample collected in bulk, sub-sample obtained for analysis by total extraction
analytical method. NB: This is not a BCL type sample where the analytical method is partial extraction.
AUGER Shallow auger hole soil sample. PDMPF Partial digest using pyrophosphate leach Units in ppb, mkg or mg ( Russian/Chinese). PDMMI Partial digest mobile metal ion extraction units mostly in ppb. LAT Samples of laterite and soil taken near surface, a bulk sample then entirely crushed. MAGLAG Magnetic fraction extracted from soil. ORIENT Orientation survey, often a variety of fractions.
Table 7: Rock Chip Sample Types
Coarse lag sample LAG s_rc Petrological sample PET s_rc Hand specimen HS s_rc
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Trench sample, continuous channel TRENCH s_rc Vein Selvedge SELV s_rc Wholerock Analysis WROCK s_rc Bulk rock sample (major elements) BULK s_rc Termite Deposits TERM s_rc Rock Chip sample RC s_rc Palaeomagnetic sample PMAG s_rc
RC Standard exploration rock chip sample usually taken from a single outcrop or float. See sample_method, method_amount and lithology_type fields for more info.
TRENCH Trenched rock chip sample, continuously channel sample over identified intervals. 5.1.6 AMG Coordinates: Always quoted as a 7- character northing and 6 character easting.
The link to 100K sheet uniquely identifies the zone and therefore the coordinates. The datum for the data set is defined in the prospect code library.
5.1.7 North, East. Local grid north and east coordinates: Any local grid or line coordinates
from the original data are entered into these fields. In the case of large surveys collected on local grids these coordinates are used to generate the AMG coordinates by grid transformation. In other cases, e.g. regional traverse lines, they may be rough coordinates e.g. flagged or paced lines and are only useful for local geographical reference. In these latter cases AMG coordinates are obtained by replotting onto base maps and digitised.
5.1.8 Latitude/Longitude: Calculated from the AMG coordinates and AMG zone using MapInfo software and the projection. All data are referenced to the AGD66 datum.
5.1.9 Line_No (Soil File): Identifies the original soil traverse line number. Often distances along lines will be entered into the local grid coordinate fields.
5.1.10 Mesh: Records the original reported sieve size in mm or Tyler mesh. For fine fractions refers to under size e.g. -80#, -2mm; for coarse fractions refers to over size e.g. +20#. Additional information on coarse fraction often recorded in comments field e.g. -10#+20#.
5.1.11 Under_SI mesh and Over_SI mesh: Original report mesh sieve size converted to standard SI units and recorded in microns e.g. -80 mesh will appear as 180 (microns).
5.1.12 Bulk_Wt: Bulk weight in kg, often recorded for BCL streams, occasionally recorded for original pan concentrate bulk samples.
5.1.13 Lith 1, 2, 3: Lithology coded 3- to 4- character, uppercase, field decoded in lithology library. The codes used were designed with collaboration with AGSO.
5.1.14 Desc 11, 12, 12, 31 etc: Descriptions relevant to each lithology using Explorer 3 descriptor codes.
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5.1.15 Lith_Desc and Comment: General pertinent comments recorded here, such as longhanded lithological information, site description, soil survey, notes, presence of old workings, sample descriptions. Comment is used for info relevant to sample treatment.
5.1.16 Collection_Method: This records available information for rock chips, sample method e.g. G for single grab, S for selected, C for continuous channel.
5.1.17 Method_Amount: For rock chip samples, records the amount in m or square meters
respectively of sample length or area as related to collection method.
5.1.18 Occurrence: For rock chips this is a separate field which records nature of sample occurrence e.g. O = outcrop, FLO = float. For stream and soil data, if info is available, occurrence info can be found in the Descriptor fields.
5.1.19 Lithology_Type_Code: For rock chip samples, this is a simple generic code to group lithology types e.g. R = bulk rock, B = breccia, G = gossan, V = vein.
5.1.20 Assay Fields: The results of individual assay determinations are recorded in the relevant element field. Repeat analyses are recorded as separate elements e.g. Au, Au1, Au2. The assay fields are number fields therefore less than detections are recorded as negative e.g. <2 = -2. Blank fields in the MapInfo files are recorded as zeros.
5.1.21 Element Units: The units adopted for all the element analysed have been standardised throughout database types facilitates the plotting, visualisation and statistical analysis of data. Some examples are listed below: Au On all stream sediment and soil tables for all data types - recorded as ppb. Au On all rock chip (and drill hole tables) for all data types - recorded as
ppm. Au_ppm Parameterised field for recording Au in ppm on stream sediment and soil
tables, if required. Au_ppb Parameterised field for recording Au in ppb on rock chip and drill tables, if
required. Ag Recorded as ppm on all tables for all data types. Ag_ppb Parameterised field for recording Ag in ppb on stream sediment and soil
tables, if required. Hg Recorded as ppb on soil and stream sediment tables. Recorded as ppm on
rock chip and drill hole tables. Fe Recorded as % in all data types. Cu, Pb, Zn, As, all other elements = Recorded as ppm in all data types.
5.1.22 Concentrate_Wt: Concentrate weight for stream sediment sample, refers to weight in
grams of concentrate obtained from panning. This figure is useful in combination with bulk weight to calculate a normalised value for panned concentrate samples.
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5.1.23 Assay Jobs: Each batch of samples that can be identified as being sent to an assay lab is assigned an Explorer system assay job number. This field is linked to each sample and also to a series of libraries which identify the lab, date assayed, analytical methods (preparations and techniques), detection limits and units for each element. Any batch that differs because of any of the above parameters is then assigned a unique assay job number. When the original lab batch number is known, this is utilised and recorded in the job number and old job number field. The assay job is also linked to company report and tenement. Assay Job and Assay Job Number codes generated by the Geological Survey of Queensland commonly have the GS prefix and codes generated by Map to Mine Pty Ltd have the MM prefix.
5.2.24 Company Report & Tenements: Each sample is linked to the company report and the
tenement that the original data are sourced from. Explorer 3 preserves the original company report (CR) number and tenement (EPM) number. The database includes a company report library which links the various exploration reports to the individual samples. Within the library entries there are notes (see summary field) that Terra Search have made whilst reviewing the exploration reports together with additional key words relevant to our data compilation.
5.1.25 Open File Flag: Identifies through a ‘Yes’ flag that the particular sample is from the
open file company report system or public domain as opposed to a ‘No” flag for closed file from a confidential source.
5.1.26 Tag: This field allows the user to tag samples derived from a search and flag them
with an entry in the tag field. 5.1.27 Parameterised Fields: These fields are utilized to cover any data that do not fit into a
fixed field. A list of these fields is found in the system library section under lib_parameters. Examples would include rarely analysed elements e.g. Sr, Rb or Au
analytical systems e.g. Au_wt (weight of gold in alluvial analysis etc.). 6. DRILL HOLE DATA 6.1 Drill hole data
The drill hole data acquisition has concentrated on recording of location, assay and survey information. There has been no concerted effort to capture geologic information across the various mineral provinces of Queensland. Within the Explorer 3 database, drill hole data are entered onto a series of relational tables and libraries. These are:
• Hole location table that records location, and may include information such as drill-rig type, depth of transported cover, water table, logger, dates, company report, tenement etc.
• Sample table which holds assay data. Similar to other sample tables, recording all assay results and through the assay job field and libraries records all analytical methods, detection limits, labs, dates, and units.
• Survey table which records all downhole survey information. • Hole text which records text details such as reason for drilling hole, results and
comments, including material left downhole.
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• Down hole geology which stores all lithological, textural and geological descriptive information in coded form, including regolith profile and regime. Decodes are recorded in the lithology, texture and mineralisation libraries. Stratigraphic information is stored in the dominant unit library. The down hole geology is incomplete and may include:
o Percussion drilling details such as hammer sizes and type of drilling o Core size details recorded in the core size tables.
6.2 Drill hole data source
The drill hole data sources include logs, sections, plans and report text. Information for each drill hole is listed according to the following fields.
Hole ID Prospect code (assigned by Terra Search) 100K sheet Hole data type (DD, PERC, BEDRK etc) EPM and company report no. Final depth Collar elevation Depth of transported cover Completion status (completed, abandoned etc.) Survey (collar and downhole) Percussion and cored intervals
Addition information may include: Local co-ordinates, grid information and locational accuracy Base of oxidation Water table Geologist Dates of drilling Drill rig and company Assay data, including assay laboratory, methods, detection limits. All assay results for holes were entered into the database.
Table 8: Drill holes File Structure Diamond Hole DD h_loc Bedrock Drill hole BEDRK h_loc Wacker bedrock drill hole WACK h_loc Detail prospect scale drilling INFILL h_loc Air Core ACORE h_loc Reverse Circulation Percussion REVC h_loc RAB Hole RAB h_loc trench TCH h_loc Water bore WB h_loc Percussion hole PERC h_loc Magnetic susceptibility reading MAGSUS h_sample Re-assayed drill core REASS h_sample Au by BCL BCL_RB h_sample Sawn core sample DD h_sample Sludge sample SLG h_sample Reverse Circulation REVC h_sample Percussion sample PERC h_sample Filleted, shaved or ground core sample FILLET h_sample
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RAB sample RAB h_sample Wacker bedrock drill sample WACK h_sample Composite sample resampled @ 1m intervals COMP h_sample Auger AUG h_sample Air Cover ACORE h_sample
7. DATA INTERROGATION USING THE EXPLORER 3
PROGRAM 7.1 Database search
The Explorer 3 RDBMS database management system is designed as a state-wide data repository, both for recording and data retrieval. Its design encompasses all possible geological data types, geologic codes, assays and field observations. The pull-down menu for Prospects, Company, Mapsheet, etc. includes the state-wide listing, and can be very confusing. It is therefore essential to use known local parameters (e.g. 1:100,000 mapsheets, companies or prospect) or geochemical targets (e.g. Au>1000 ppb and Cu>500 ppm) to interrogate a specific database.
7.2 Designing a database search using known spatial or Prospect information The list of suggestions below sets out a simplified search procedures for first-
time users of the Explorer 3 program. The search focuses on a particular data set with known spatial and prospects information (listed in Tables 1-5, Figures 2-6).
Steps 1. Load the Explorer 3 RDBMS program from the Start Menu.
2. From the ‘Data Table’ on the Menu Bar, select the data type (i.e. either Surface
Samples or Drill hole samples)
3. Choose the type of data subset (e.g. Stream Sediment) from the major data subdivision (i.e. Surface Sample in this example).
4. By choosing a data subset, a query table with multiple fields will appear (as shown
below). (The cut-down version of Explorer 3 has limited application and greyed out keys are functions not available for use in this database).
5. Using a fixed parameter or a combination of parameters for the search.
For a location-based search, mapsheet references listed in Table 1 and Figure 1 provides a spatial constraint that focuses on an area of interest. Enter the mapsheet number into the ‘Sheet’ field on the Site Information table, and click the ‘Search’ button (bottom right corner).
Explorer 3 will list all samples located within the mapsheet e.g. “Record 1 of 3500” (at the bottom of the table). The arrows at the bottom left of the Table can be used to scroll the record individually (>), in 10s (>>) or to the end of the record list (>|).
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Example of the query table in Explorer 3
Using 1:100,000 mapsheet number as a spatial constraint for search
Example of search result for stream sediments samples in Mapsheet 9345
STEP 2 Choose the type of data of interest: - Surface Sample - Drillhole
STEP 3 Select the type of sample or interest e.g. Stream Sediment
STEP 4 The Surface Sediment Samples query table which appear will require search parameters to be entered.
STEP 5 Enter the 1:100,000 mapsheet number for an area of interest, and hit the search button on the lower right corner. Such generalised search recalls all the sample of the chosen type in the mapsheet
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6. a. If more than one mapsheet or sample type is involved, the ‘Global Filters’ function can be used to define the list of maps for searching. To activate the Global Filter, double-click the Global Filter box (Steps 6a) to generate the Global Filter Dialogue Box.
b. Select the Database or Project to be interrogated. In this database package, the ‘Project’ has been defined, so by clicking the top double arrow (Step 6b) will transfer the ‘Project File’ from the top left box to the top right box (i.e. the database used in the search).
c. Choose the type(s) of data (Mapsheet or Prospects and Company) as parameters for search (Step 6c). Having defined the type of data, a complete list of information for the data type will appear in the lower left box.
d. Highlight the specific data e.g. mapsheet of interest and use the single arrow (>) to transfer that particular information into the right-hand field as the parameters used in the search (Step 6d). Repeat the procedure to include other mapsheet and/or Prospect and Company information.
The >> arrow selects all data within the dataset to be interrogated, and is a useful function to display the spatial distributions of data points within a region.
The < and << arrows deselect information previously included in a search. The single arrow (<) deselects individual data whereas the << arrow deselects the entire data previously elected for searches.
The Global filters will remain active and the defined sets of parameters can be used in other data type searches e.g. Soil Samples, Drill holes etc. To remove the Global Filters function, uncheck the Global Filter box (highlighted in red when active).
The total number of stream sediment samples in the mapsheet
Forward and backward buttons to scroll through the data.
Tagging and untagging of samples for reporting
Mapsheet No. 9345
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Global Filter
7. Using Company or Prospect Names for the search
Similarly, searches can be based on Company names or Prospect information. The complete lists of Company and Prospects names and their accompanying Codes for the Exploration Geochemical/Drill hole Database are tabulated in the library tables.
Enter the Company or Prospect Code (Step 7) into their respective fields on the Site Information table, and click the ‘Search’ button. Explorer 3 will list all samples collected by the specific company or Prospect within the region.
Similarly, the ‘Global Filters’ function can be used to define the list of Companies or Prospects, if more than one company/prospect of interest is involved.
STEP 6a Double-click the Global Filter box to activate the dialogue box.
STEP 6b For a defined Exploration Geochemical/Drillhole dataset, the project has been defined and click the double arrow to include the data within the database for search.
STEP 6d List e.g. the mapsheet(s) for data interrogation by highlighting the sheet number, followed by the single arrow. The right field is the list of mapsheets for data search.
STEP 6c Select the Data Type
MOVE
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Example of search using Prospect or Company information
7.3 Designing a database search using Assay results
Instead of using fixed parameters such as mapsheet, Company or Prospects, available assay results can also be used in searches, particularly to establish areas of geochemical anomalies. In the dialogue box, use the pull-down menu associated with Assay to determine the Field or element of interest e.g. Au. In the Value field associated with the elemental field, first establish the geochemical limits used in the search e.g. >1000 ppb. Multiple elements can be used to define a geochemical search.
Having established the geochemical constraints, hit the Search key to activate a generalised search for the entire database for the combined limits set by geochemical assays i.e. Au and Cu, as in this case.
7.4 Other information
The Exploration Geochemical and Drill hole database may contain relevant information related to a data point, company background or tenure. Such information is linked to the Data tables by the Modules or Libraries tables, and is included in the report(s) of such data. Data contained in the Modules and Libraries tables can be searched using known parameters such as mapsheet, prospects or company reports listed in the library tables. Data complied by different compliers are identifiable from the prefix in the TS_Release codes. QDRM refers to Terra Search Pty Ltd, MM refers to Map to Mine Pty Ltd and GS refers to the Geological Survey of Queensland.
Database Search Using Assay Results
STEP 7 Enter either Prospect Code or Company Name using the pull-down table. Press the Search button to activate the search.
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8. REPORT AND EXPORT The instructions for Reporting and Exporting functions are documented in the Help Menu. The following sections are extracts of the Help Menu to provide quick overviews of some of these functions. There are several Reporting options for the various tables. The main report options are for reporting the data as ledgers. There are also reports available for the reporting of lithological data, drill hole summary reports and project and prospect summaries, which contain a summary of the data within the database for a particular prospect or group of prospects. The methodology of setting up the reports is similar for many of the reports and the choice of fields for reporting and the loading of existing report setups is identical to that of the exporting functions. 8.1 Reporting surface samples table
There are few options when printing surface geochemical samples. A ledger format is normally the most suitable format to present this information.
For Rock Chips the geologic information is often more detailed and important for the analysis of the data and there is not only a ledger style report but also a decoded geology report.
The data to be reported should be queried using the main surface sampling forms. Once a suitable dataset has been retrieved, the print button on the Toolbar or the reporting Button on the Power Bar should be pressed to bring up the relevant options.
8.1.1 Ledger reports
Step 1. Use the pull-down menu in the ‘Field’ column, establish the element to be used as discriminant for a database search.
Step 2. In the Value column associated with the Field, establish the limits used in the search
Step 3. Other elements e.g. Cu can be included to further refine the database interrogation..
4. Search
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The ledger report contains a fixed header that is printed at the top of each page that includes details of the prospect, sheet, data type and company collecting amongst other broad groupings. When any of these change from one sample to another, a new page is started. The fields printed in a ledger are user defined and can be chosen using the provided lists (Fields). If there are too many fields to be shown on a single page, the system will automatically move the extra fields to a second page. By ticking fixed in the last column the chosen fields will print out at the beginning of each page required for the sample. The unit’s column can be used to define the units you wish to report an element regardless of the units it is stored in. The program will automatically convert it.
Report Generator table using user-defined ledger
8.1.2. Decoded ledger
For rock chips a second option is available. This report takes the full coded geology from the sample and translates it into text. This is then reported along with all the location details and a select number of geochemical results. This report can only fit 2 to 3 rock chips per page and would not usually be used with large datasets.
8.2 Reporting drill hole table
There are several different reports available for the drill hole system. These include an intercept report, downhole ledger and drill program summary. There is also a drill hole report, which summarises the entire hole.
The dataset reported on is generally chosen by querying the data required on the drill hole form. By pressing print or the reporting button the various options for printing appear. These options vary slightly depending upon which tab you are on.
8.2.1 Ledger reports
Using the Ledger option, define the headers in the left box to be included in a report. Highlight the header and then use the arrow > to move the field into the right hand box.
User-defined headers to be used in a report.
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The ledger report contains a fixed header that is printed at the top of each page that includes details of the prospect, sheet, data type and company drilling amongst other broad groupings. At the top of each hole there is also a summary of the collar location, hole ID, survey details, etc. There is an option to start a new page for each hole or to continue on to the next hole directly below. The fields printed in a ledger are user defined and can be chosen using the provided lists (Fields). If there are too many fields to be shown on a single page the system will automatically move the extra fields to a second page. By ticking fixed in the last column the chosen fields will print out at the beginning of each page required for the sample.
8.2.2 Program summary
The drill program summary report takes a set of queried collars and produces a one line summary of each hole including coordinates, dip, azimuth, total depth, pre-collar depth etc. It then calculates the total metres drilled for a program and the total number of holes. The fields in this report are fixed and are designed to be a fast method of getting information for reports or project planning.
8.2.3 Drill intercept report
The drill intercept report is designed to take the higher assay results from a drill hole and work out the width and grade of a particular intercept. The report works on the tagged samples from the queried drill hole collars. For instance, this allows you to tag all the downhole gold values greater than 0.5 g/t and the program will automatically group together any adjacent, tagged samples to form an intercept. The average grade is then calculated over the intercept. Care should always be taken when using this report to ensure the calculated value is correct or using data that may be misleading. The assay value units chosen (e.g. ppm, ppb) for the elements would be the units displayed on the report regardless of the units they are stored in the database. These are recalculated based on the units stored in the assay job details - if there is not a valid detail for an assay job then the program assumes the units are the same as those chosen.
8.2.4 Drill hole summary
The Drill hole summary report attempts to collate all the critical information collected on a drill hole and display as a one or two page report. The information retrieved includes the collar information; survey details, water table and details on the base of oxidation, reasons for drilling the hole, summary geology, significant intercepts and a summary of the results of the hole. This is designed to give a concise description of the hole for reporting or management purposes. It requires detailed data entry for a hole, which will allow full retrieval of information on a hole without having to search through several reports or files. For this purpose, one can choose either ‘Descriptive geology’ table or the ‘Coded Geology’. If you choose ‘Descriptive geology’ then you must choose which fields to display. The assay section reports only on the tagged samples for a hole and you can have the choice of either a sample ledger or a drill hole intercept style output.
8.3. Reporting data analysis The data within the explorer system is grouped into prospects and projects. The
prospects can be queried in the prospect library under the Exploration Program Module menu item. Any field in the table can be used to query a required group of prospects. Once queried there are two reporting options available:
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8.3.1 Data Inventory
This report gives a list of all data present in the database for each of the prospects queried. Each prospect is given a header summarising the prospect details and then a list of the various data tables and the numbers of each data type within the prospect. There is an option not to report on data tables which have no data in them, the default is to show all tables and annotate those empty tables as having No Samples.
8.3.2 Prospect Summary
This option gives a summary list of the queried prospects along with their prospect names, followed by a summary count of all the data contained within the whole group. Once again you can choose whether or not to display the data tables with no data or not.
8.4 Exporting data
There are several ways of exporting data from the Explorer system. The data sets being exported can be chosen using the basic querying functions for any of the main data tables. The export button on the Main Tool Bar is pressed to give a list of exports available. Data can be export directly into either ASCII or HTML format. These are saved based on the fields chosen in the list view configuration. The available formats for export are:
• Micromine • Access • Replication • ASCII • Rich Text Format
If there are no query forms open, options for broader exports are available using the Export Query Screen. This form must be used for the Replication Export Options. 8.4.1 Export Query Screen
The screen below is the query screen for querying large amounts of data, based on any combination of the criteria below.
The choice of “All” limits the exports to an Access database export or a Replication database export. The choices of the other tables allow all export options.
You can define the subset of data required using a whole project or any combination of Company, Prospect or Sheet Number. By placing an asterisk “*” in the field the export will search for any matching entry. You can also use the normal querying functions such as logical operators within these fields
Having set the criteria you can move to the next stage by pressing ‘continue’. You can also abort an export at any time using the cancel button
The Queensland Exploration Geochemistry and Drill hole Database
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Export Query Screen
8.4.2 Picking Fields for Exporting
The method of choosing the fields for exporting, and the order exported, is the same as choosing the fields for reporting. A list of available fields for export can be chosen by clicking on the field name and then the > button. This will move the field to the bottom of the list. By pressing the >> button all fields in the list are selected. Similarly remove fields from the export field list by selecting the field and pressing the < button. It is possible to remove all fields by pressing <<.
To move a field up or down in the order highlight the field you want to move and then press the Up or Down buttons to change the order.
You can save an export setup by choosing the “save” button on the bottom left of the screen once you have defined the fields and order you want. You can name the setup using any name you wish, with or without blank spaces, with up to 50 characters. It is best to give the setup a name suggestive of the data type and elements exported such as “Mt Isa Stream_Base Metals”.
An Export Query Screen listing the type of data to be exported from the pull-down menu: e.g. Soil Samples, Stream sediments, Rock Chips, Drillhole, “All”, etc.
The Queensland Exploration Geochemistry and Drill hole Database
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Picking Fields for Exporting
8.4.3 Other Export Formats
• Export to Database • Minemap Export • QC Data (Duplicate) • WA DME Format
Selecting report or export styles
Select the field for exporting by using the > or >> keys.
Selecting report or export styles