Jadar Lithium Announces Exploration Results and Definition of Drill-Ready Target at Rekovac Lithium – Borate Project in Serbia
(firmenpresse) - Highlights
- Assay results from soil and rock sampling program return elevated Lithium, Boron, and associated elements from Rekovac project
- Soil values show up to 342 ppm of boron and up to 149 ppm of lithium
- Results suggest the basin is prospective for deposits related to the emanation of lithium - boron enriched fluids and their precipitation
- XRD analyses confirmed the presence of dolomite and analcime both indicative of the permissive sedimentary environment
- Regional gravity and magnetic data provided results indicating basin geometry, structure, and magnetic anomalies that may be prospective for Lithium and Boron mineralisation
Luke Martino, Non-Executive Chairman of the Board, said We are very encouraged by the prospectivity of Jadar Lithiums portfolio of projects in Serbia. The greenfield exploration work which the Company undertook is paying off, with very encouraging data on the Rekovac project as well. In conunction with the exciting results which have been generated on the Vranje-South project, the Rekovac project presents a second area which the Company will be progressing to drilling stage in the near term. With the brownfield exploration work on the Companys Weinbene project advancing, as well as, Rekovac and Vranje-South, both of which present the opportunity for a tier one discovery, Jadar Lithium presents a very compelling growth story.
Jadar Lithium Limited (ASX: JDR) (Jadar or the Company) is pleased to provide an update on soil and rock chip sampling; acquisition and interpretation of regional gravity and magnetic data on the Rekovac project in Serbia.
The objective of the field mapping and soil sampling program was to outline areas with anomalous Li and B values and associated elements as well as to determine the most prospective area for follow up detail rock chips sampling.
In conjunction with the field activities, the Company acquired regional gravity and magnetic survey data from a local contractor who re-interpreted the data with the objective to outline underlying basin geometry and define the presence of Calc-Alkaline volcanism that may be the source of mineral-bearing fluids.
Soil and Rock Sampling Program
The Company undertook two soil sampling programs on the Rekovac project and collected a total of 291 samples. The assays returned with elevated Lithium and Boron values with up to 342 ppm of boron and up to 149 ppm of lithium. The elevated values highlight a prospective area in the central and the southern part of the project area.
As a result of encouraging soil sampling results, the Company conducted follow up detail rock chip sampling with a focus on the identified anomalies. The rock chip sampling focused on exposed lower and middle Miocene sedimentary formations (which are known to host large Lithium Boron deposits in Serbia, such as Rio Tintos jadar deposit), in an attempt to identifiy the presence of potentially permissive environment or evidence of sources of the elevated Li and B values.
In total, 26 rock samples were collected and dispatched for geochemical analyses. The analysis returned with elevated Lithium and Boron values with up to 280 ppm of boron and up to 100 ppm of lithium.
The assay data also showed elevated Mg levels within the target area, suggesting the dolomitic nature of the sediments. This is significant as it is an indicator for the prospective nature of the sedimentary sucession for hosting Li and B.
https://www.irw-press.at/prcom/images/messages/2019/48505/2019-08-07 JDR_ASX_Ann_Rekovac Results_FINAL3_PRCOM.001.jpeg
Figure 1 - Rekovac project geology map with soil and rock sampling positions and boron values
https://www.irw-press.at/prcom/images/messages/2019/48505/2019-08-07 JDR_ASX_Ann_Rekovac Results_FINAL3_PRCOM.002.jpeg
Figure 2 - Rekovac project geology map with soil and rock sampling positions and lithium values
During the sampling program, the Company also identified the presence of scattered spherical nodules and pseudomorphs, which are most likely replacing evaporite minerals within the fine pelitic sediments. XRD analyses of selected samples, indicated the presence of two evaporate minerals; Dolomite and Analcime, both of which are considered to be indicators of a saline-alkaline environment.
This is another indicator for the prospective nature of the basin.
https://www.irw-press.at/prcom/images/messages/2019/48505/2019-08-07 JDR_ASX_Ann_Rekovac Results_FINAL3_PRCOM.003.jpeg
https://www.irw-press.at/prcom/images/messages/2019/48505/2019-08-07 JDR_ASX_Ann_Rekovac Results_FINAL3_PRCOM.004.jpeg
Figure 3 - White scattered evaporite nodular minerals within fine pelitic sediments
Gravity Survey
In parallel with the outcrop sampling program, the Company acquired regional gravity survey data from the local contractor Vecom GEO doo. The data was acquired to aid in defining basin geometry and deep-seated fault zones within the project area, which may have acted as a potential conduit for mineralising fluids. The data was analysed in conjunction with the surface sampling data and used to assist in defining target zones which will be the focus of the Companys scout drilling program. Gravity surveys are considered a useful exploration tool to visualise the basin geometry and relative thickness of the sedimentary sections, by defining basin highs and lows. The gravity survey was historically executed as on a grid with nominal station spacing of approximated average of 1000m, throughout the Rekovac project area.
The Rekovac basin has an elongated shape demonstrating a north-south trend which extends parallel to the regional tectonic Paleozoic and Mesozoic extensional structures. Based upon the linear configuration, the sharp parallel gradients on both the north and the south sides and the deep gravity low (blue colour), suggest that parallel faulting of the basement rocks formed the basin.
Sedimentation within the Rekovac basin is composed of extensive lacustrine sediments. As the basement contains a well-defined gravity closure from at least - 1.0 to - 13.0 mGal, it suggests an early period of lacustrine sedimentary deposition when the basin was isolated from drainage.
https://www.irw-press.at/prcom/images/messages/2019/48505/2019-08-07 JDR_ASX_Ann_Rekovac Results_FINAL3_PRCOM.005.png
Figure 4 - Bouguer gravity image contoured at 0.5 mGal
Regional Magnetic Survey
The historical ground magnetic survey data was acquired to aid in defining the presence of blind (covered by younger sediments) Calc - Alkaline volcanic formations that may be related to a volcanic activity. The spring waters, which are a result of this volcanic activity, may act to disperse ecomomically important elements into lacustrine environments. The historical magnetic survey was executed on a grid with an approximate station spacing of 2000m.
https://www.irw-press.at/prcom/images/messages/2019/48505/2019-08-07 JDR_ASX_Ann_Rekovac Results_FINAL3_PRCOM.006.png
Figure 5 - Map of magnetic anomalies with 10 nT contour interval. The elevated values in the southern part of the license indicate a possible blind volcanic
Rekovac Project Geology
The early Miocene brackish formations have been exposed in the southern and central part of license area and consisting of siltstone and claystone. Eastern part of the license area is over clastic formations composed of conglomerates and breccias. The lower Miocene formation likely extend north where it is covered under younger freshwater sediments composed of siltstone, sandstone, and coarse clastic sequences. When considering these inferences withinin the geologic context of the regional Miocene sedimentary environment, where basins, at various times, likely spilled northward onto the Pannonian plain, it is inferred that the basin content may represent overflow via a quiet water marine estuary. A hydrologic connection can readily be envisioned between the basins northern end and the Pannonian plain via the Rekovac, Kragujevac and Lapovo drainages. A sea link here may have caused more clastic deposition in the north part of the project area, and the southern might have seen more passive backwater flooding. If this assumption is correct, the Rekovac basin would have been periodically isolated from the Pannonian sea by East-South-East trending fault activity and desiccated to form a narrow lake pan.
World Class Belt - The Vardar Zone
The so-called Vardar zone hosts pelitic sediments accumulated in several semi-interconnected basins along a geological trend.(Figure 6). The Vardar Zone stretches from northern Iran to Bosnia and Herzegovina, where it appears to disappear at the edge of the Alpine formations. Basins along the long, narrow trend vary greatly in size, shape, and sedimentation. The Vardar zone was formed by the movement between two tectonic plate boundaries. These tectonic forces result in rhomboid-shaped - "pull apart" - basins between the more stable basin boundaries. The basins of interest are mapped as lacustrine and marine sediments.
Evaporate (Lithium - borate) deposits of the type being explored in Vardar zone are typically found in tectonically active zones associated with deep-seated faulting. The deposits occur in shallow water lacustrine and mudflat environments, usually accompanied by Calc - alkaline volcanic and tuffs.
In the Balkan region, borate and lithium mineral deposits and occurrences have been recognised in recent years. These occurrences have been barely tested, while lithium mineralisation was found associated with borates even more recently during drilling in the Jadar basin of Serbia. Beside the jadar deposit which is the world´s largest lithium - borate deposit, borates have been found in Pobrdje and Piskanja within the Jarandol deposit. Some of the world´s largest borate deposits were discovered as well within the Vardar zone. Kirka borax deposit in Turkey is the world´s largest deposit and it´s located central part of Vardar trend.
https://www.irw-press.at/prcom/images/messages/2019/48505/2019-08-07 JDR_ASX_Ann_Rekovac Results_FINAL3_PRCOM.007.jpeg
Figure 6 - Position of the Vardar Zone
Planned activities
The Company continues to evaluate the Vranje South basin with the objective of defining drilling locations to test the anomalies generated to date.
ENDS
Further Enquiries
Luke Martino
Non-Executive Chairman
Tel: +61 8 6489 0600
E: luke(at)jadarlithium.com.au -
JADAR LITHIUM
QUICK STATS
ASX Code: JDR
Shares on Issue: 480.4 million
Market Cap: $3.8 million
Cash: $2m (at 30 June 19)
BOARD & MANAGEMENT
Non- Executive Chairman
Mr Luke Martino
Non-Executive Directors
Mr Steven Dellidis
Mr Nicholas Sage
Mr Stefan Müller
Company Secretary
Ms Louisa Martino
ASSET PORTFOLIO
AUSTRIA
Weinebene
(80% interest - ~28km2)
Eastern Alps Projects
(80% interest - ~37km2)
SERBIA
Cer
(100% interest - ~92.77km2)
Rekovac
(100% interest - ~75.4km2)
Vranje-South
(100% interest - ~90.44km2)
Competent Person Statement
The information in this release that relates to Exploration Results is based on information prepared by Dr Thomas Unterweissacher, EurGeol, MAusIMM. Dr Unterweissacher is a licensed Professional Geoscientist registered with European Federation of Geologists and The Australasian Institute of Mining and Metallurgy based in Hochfilzen, Austria. European Federation of Geologists and The Australasian Institute of Mining and Metallurgy are a Joint Ore Reserves Committee (JORC) Code Recognised Professional Organisation (RPO). An RPO is an accredited organisation to which the Competent Person (CP) under JORC Code Reporting Standards must belong in order to report Exploration Results, Mineral Resources, or Ore Reserves through the ASX. Dr Unterweissacher has sufficient experience which is relevant to the style of mineralisation and type of deposit under consideration and to the activity which they are undertaking to qualify as a CP as defined in the 2012 Edition of the JORC Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves. Dr Unterweissacher consents to the inclusion in the release of the matters based on their information in the form and context in which it appears. Dr Unterweissacher is a consultant to the Company and holds shares in Jadar Lithium Limited.
Disclaimer
Forward-looking statements are statements that are not historical facts. Words such as expect(s), feel(s), believe(s), will, may, anticipate(s), potential(s)and similar expressions are intended to identify forward-looking statements. These statements include, but are not limited to statements regarding future production, resources or reserves and exploration results. All of such statements are subject to certain risks and uncertainties, many of which are difficult to predict and generally beyond the control of the Company, that could cause actual results to differ materially from those expressed in, or implied or projected by, the forward-looking information and statements. These risks and uncertainties include, but are not limited to: (i) those relating to the interpretation of drill results, the geology, grade and continuity of mineral deposits and conclusions of economic evaluations, (ii) risks relating to possible variations in reserves, grade, planned mining dilution and ore loss, or recovery rates and changes in project parameters as plans continue to be refined, (iii) the potential for delays in exploration or development activities or the completion of feasibility studies, (iv) risks related to commodity price and foreign exchange rate fluctuations, (v) risks related to failure to obtain adequate financing on a timely basis and on acceptable terms or delays in obtaining governmental approvals or in the completion of development or construction activities, and (vi) other risks and uncertainties related to the Companys prospects, properties and business strategy. Our audience is cautioned not to place undue reliance on these forward-looking statements that speak only as of the date hereof, and we do not undertake any obligation to revise and disseminate forward-looking statements to reflect events or circumstances after the date hereof, or to reflect the occurrence of or non-occurrence of any events.
Table 1 - Soil sampling results
SamplME ME ME ME ME ME ME ME ME ME ME ME ME
e_ID - - - - - - - - - - - - -
MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8
9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L
Ag As B Ba Be Bi Ca Cd Ce Co Cs Cu Dy
ppm ppm ppm ppm ppm ppm % ppm ppm ppm ppm ppm ppm
RESS0<5 13 87 425 1.9 0.3 0.4 0.9 57.620.25 40 5.16
001
RESS0<5 15 89 413 2.4 0.3 0.4 <0.856.822.55.7 40 5.16
002
RESS05 8 61 349 1.6 0.3 0.1 0.8 74.59.8 3.3 20 4.73
003
RESS05 6 49 297 2.2 0.3 1.8 0.9 44.723 3.3 40 4.11
004
RESS0<5 10 68 313 1.8 0.3 1 0.8 54.417.83.4 40 4.72
005
RESS05 12 86 374 1.9 0.4 0.6 0.9 51.719.74.2 40 4.38
006
RESS0<5 9 81 274 1.9 0.3 2.7 0.8 49.217.43.5 30 4.14
007
RESS05 12 88 319 1.6 0.3 0.2 1 75.414.74.1 20 5.28
008
RESS0<5 17 99 378 1.9 0.4 2 <0.848.924.16.2 50 4.76
009
RESS0<5 9 87 342 2.3 0.3 0.3 <0.880.714.84.2 30 6.62
010
RESS05 8 88 374 2 0.4 0.1 1 73.212.43.9 30 5.23
011
RESS05 12 83 347 2.1 0.4 0.3 1 68.720.84.8 30 6.45
013
RESS0<5 12 84 361 2.2 0.3 0.2 <0.859.119.85.2 40 5.08
014
RESS05 26 68 362 1.8 0.4 0.3 0.8 64.217.34.9 30 5.43
015
RESS05 13 80 399 1.7 0.3 0.7 <0.848.622 4.4 40 4.29
016
RESS05 10 79 329 1.9 0.2 0.3 0.9 55.619.64.1 30 4.92
017
RESS0<5 13 84 340 1.9 0.4 1.7 0.8 52.922.15.3 40 5.21
018
RESS07 17 79 329 2.1 0.5 0.2 1.1 57.525.55.8 40 4.44
019
RESS07 13 88 366 1.7 0.4 0.5 1.1 60.420.94.2 40 5.16
020
RESS05 14 79 399 1.8 0.3 0.3 0.8 73.614.44.4 30 5.71
021
RESS0<5 10 66 297 2 0.3 2.1 <0.846.922.13.2 30 3.9
022
RESS0<5 31 103 447 2.3 0.4 1.9 <0.859.527.28.6 50 4.78
023
RESS0<5 18 89 426 2.7 0.4 0.3 0.8 60 25.57.5 40 4.84
024
RESS0<5 6 78 333 1.9 0.3 5 0.9 51.318.35.5 40 5.09
025
RESS05 12 76 299 1.3 0.2 3 <0.847.417.63.7 30 4.52
026
RESS05 11 98 376 1.8 0.3 0.7 0.8 59.220 5 40 5.07
027
RESS05 14 75 350 2 0.3 0.3 1 61 18.94.4 70 5.12
028
RESS0<5 47 70 362 1.7 0.4 0.8 1.1 52.719.34.1 40 5.17
029
RESS05 13 86 355 1.9 0.3 0.5 1 57.423.44.9 160 5.15
030
RESS0<5 17 81 374 1.7 0.3 4 0.8 54.224.25.2 50 4.44
031
RESS0<5 11 80 362 1.9 0.3 1.8 0.8 48.520.24.4 50 4.04
032
RESS0<5 9 82 335 1.7 0.3 0.2 0.8 70.616.14 20 5.03
033
RESS0<5 11 78 377 2 0.4 0.2 <0.878.512.44.4 20 5.83
034
RESS0<5 15 102 372 2.6 0.4 1.5 <0.853.121.95 60 5.35
036
RESS0<5 21 97 370 2.5 0.4 0.3 <0.875.119.35.1 30 6.18
037
RESS0<5 25 127 476 2.7 0.6 2.6 <0.854 24.710.650 4.67
038
RESS0<5 20 98 404 2.3 0.4 0.3 <0.862.820.95.9 40 5.04
039
RESS0<5 79 94 406 2 0.5 0.4 <0.860.122.37.3 40 5.39
040
RESS0<5 28 104 380 2.4 0.4 0.4 <0.862.121.56.4 50 5.97
041
RESS0<5 45 116 421 2.5 0.4 5.3 <0.849.522.57.4 50 4.46
042
RESS05 102 108 393 2.2 0.4 0.7 <0.852.624 7.1 40 5.25
043
RESS05 24 118 385 2.1 0.4 3.8 <0.848.821.76 40 4.58
044
RESS06 20 101 383 2.7 0.5 0.9 1.1 61.823.38.6 40 5.27
045
RESS07 22 112 394 1.7 0.9 3 1.2 50.123.88.3 40 4.48
046
RESS06 15 92 337 2.3 0.4 0.4 1.2 66.826.15.1 40 5.55
047
RESS05 14 98 352 2.2 0.3 3.4 0.9 46.627.95.5 40 4.52
048
RESS05 12 86 293 1.6 0.3 1.8 1 46.518.23.3 30 4.13
049
RESS0<5 14 107 401 2.3 0.4 4.2 <0.848.824.86.6 40 4.37
050
RESS06 17 97 488 2.8 0.5 5.6 0.9 58.420 7.3 40 4.97
051
RESS06 20 96 375 2.7 0.4 3.4 1.1 54 24.66.2 40 4.59
052
RESS06 20 61 330 1.5 0.4 15.41 46 13.54.1 30 3.82
053
RESS06 24 85 393 2.9 0.5 0.6 1 88.621.57.5 30 6.97
054
SamplME ME ME ME ME ME ME ME ME ME ME ME ME
e_ID - - - - - - - - - - - - -
MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8
9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L
Er Eu Fe Ga Gd Ge Ho In K La Li Lu Mn
ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm
RESS03.1 1.1 3.5414.84.761.8 1.12<0.31.7827.550 0.431370
001
RESS03.031.114 17.54.791.8 1.07<0.32.0928.159 0.54810
002
RESS02.821.122.4414 4.621.5 0.97<0.31.6335.141 0.44420
003
RESS02.150.853.4 14.73.531.9 0.86<0.31.7522 26 0.28770
004
RESS03.190.893.2813.74.721.7 0.95<0.31.6825.437 0.41780
005
RESS02.551.133.7 15 4.061.7 0.89<0.31.8324.352 0.34670
006
RESS02.761.042.8 12 4.451.4 0.89<0.31.4423.539 0.41660
007
RESS03.341.222.8413.45.6 1.6 1.14<0.31.5334.539 0.49870
008
RESS02.961.294.8919 5.061.9 0.95<0.32.1624.962 0.4 1150
009
RESS03.9 1.313.0415 6.271.7 1.19<0.31.5836.542 0.51550
010
RESS03.260.982.6215 5.161.5 1.13<0.31.7233.438 0.46470
011
RESS03.851.393.5115 5.511.7 1.13<0.31.6531 49 0.441090
013
RESS02.921.1 3.9217 4.532 0.95<0.31.7127.654 0.41710
014
RESS03.361.324.0116.75.871.8 1.11<0.31.6730.350 0.5 1210
015
RESS02.8 1.064.0215.74.171.6 0.89<0.31.8323 52 0.39680
016
RESS03.271.123.2213.54.871.6 1 <0.31.5325.645 0.45760
017
RESS02.941.114.0416.94.981.7 1.08<0.31.9325.952 0.38800
018
RESS02.490.8 4.1517.33.9 1.7 0.88<0.31.9 26.155 0.32460
019
RESS03.251.1 3.6 16.34.481.7 1 <0.31.8927.850 0.34760
020
RESS03.391.133.1315.65.651.6 1.14<0.31.6934.344 0.43580
021
RESS02.710.913.5314.34.231.5 0.81<0.31.6823 34 0.35780
022
RESS02.921.284.9121.75.1 1.8 1.04<0.32.6 28.874 0.43840
023
RESS02.840.934.0318.65.081.8 1.02<0.32.2 29.663 0.37910
024
RESS03.221.053.5316 5.151.7 1.07<0.31.7527.646 0.46580
025
RESS02.660.8 2.8512.13.791.4 0.89<0.31.4122 43 0.3 600
026
RESS03.511.083.7915.95.3 1.6 1.03<0.31.9428 52 0.42690
027
RESS03.311.3 3.8116.25.121.6 1.1 <0.31.6329 49 0.43760
028
RESS03.231.254.2315.95.371.7 1.1 <0.31.7 26 52 0.441420
029
RESS03.151.193.8315.64.891.6 0.97<0.31.8 28 49 0.341090
030
RESS02.521 3.7515.44.651.7 0.89<0.31.7626.351 0.38670
031
RESS02.391.043.3914.24.091.9 0.85<0.31.8224.345 0.32850
032
RESS03.041.2 2.7 13.95.181.5 1.07<0.31.6332.940 0.42540
033
RESS03.361.252.7814.85.911.4 1.15<0.31.6638.241 0.49650
034
RESS02.881.244.6318.55.162 1.09<0.31.6227.766 0.441090
036
RESS03.291.283.2816.15.951.9 1.28<0.31.3737.347 0.6 860
037
RESS02.881.024.5 20.74.781.9 0.99<0.32.1227.573 0.43690
038
RESS03.551.073.5516.45.061.8 1.07<0.31.6930.650 0.43740
039
RESS03.171.263.9715.74.891.5 0.97<0.31.5 29.855 0.311090
040
RESS03.521.273.7917 5.011.8 1.16<0.31.6331.558 0.5 920
041
RESS02.761.074.1418.74.161.7 0.88<0.31.8824.976 0.32680
042
RESS03.091.264.2618.24.941.9 1.03<0.31.7226.481 0.48890
043
RESS02.410.923.9717.14 1.6 0.9 <0.31.6924.177 0.37690
044
RESS03.131.354.1417.55.441.8 1.06<0.31.5930.252 0.43740
045
RESS02.250.943.9317.23.921.5 0.8 <0.31.8624.348 0.35810
046
RESS02.681.163.9816.64.781.9 1.02<0.31.3130.951 0.34830
047
RESS02.560.924.1 16 4.251.5 0.83<0.31.6223.757 0.32700
048
RESS02.541.153.0712.93.631.3 0.84<0.31.3522.642 0.4 750
049
RESS02.550.974.1417.64.271.6 0.82<0.31.8224.363 0.34850
050
RESS02.711.163.9918.55.061.8 1.06<0.31.5532.859 0.35620
051
RESS02.721.144.2318 4.241.9 1.01<0.31.7726.161 0.4 660
052
RESS02.040.912.3710.93.821.3 0.76<0.30.9122.532 0.32740
053
RESS04.361.794.0318.56.771.9 1.38<0.31.3642.645 0.591140
054
SamplME ME ME ME ME ME ME ME ME ME ME ME ME
e_ID - - - - - - - - - - - - -
MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8
9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L
Mo Nb Nd Ni Pb Pr Rb Re Sb Se Sm Sn Sr
ppm ppm ppm ppm ppm ppm ppm ppm ppm ppm ppm ppm ppm
RESS0<2 13.324 140 28.66.4998.2<0.01.3 <3 5.52<3 60
001 1
RESS0<2 13.924.7140 21.76.45109.<0.01 <3 4.745 70
002 5 1
RESS0<2 17.127.870 20.38.1977.3<0.01.1 <3 5.23<3 60
003 1
RESS0<2 8.8 17.9100 21.84.8282.2<0.01.1 <3 3.34<3 100
004 1
RESS0<2 11.523.3110 22.75.9279 <0.00.7 3 4.59<3 80
005 1
RESS0<2 13 23.3130 23.85.7989.3<0.01 4 4.646 70
006 1
RESS0<2 12.321.7140 14.55.5668.9<0.01.1 <3 4.93<3 70
007 1
RESS0<2 17.431 80 25.68.1482.8<0.01.4 3 6.14<3 60
008 1
RESS0<2 10.923.6190 17.85.76115.<0.01.5 <3 4.33<3 80
009 5 1
RESS0<2 16.934.570 16.29.3188.3<0.00.9 3 6.94<3 70
010 1
RESS0<2 15.330 70 16.78.1390.9<0.01 <3 6.22<3 50
011 1
RESS0<2 15.427.6140 23.27.7695 <0.01.2 <3 5.95<3 60
013 1
RESS0<2 14 26.2160 21 6.92101 <0.01.3 <3 4.6 <3 50
014 1
RESS0<2 13.127.1150 21.27.2798 <0.01.4 3 5.855 60
015 1
RESS0<2 11.820.6190 15.35.5790.1<0.01.1 3 4.53<3 60
016 1
RESS0<2 13.923.4150 22.26.2582.1<0.01.1 <3 4.8 <3 50
017 1
RESS0<2 11.524.6190 23.76.3 104 <0.01.2 <3 4.94<3 60
018 1
RESS0<2 13.523.9220 25.96.18103 <0.01.5 <3 3.97<3 40
019 1
RESS0<2 13.924.2130 19.76.6494.5<0.01.2 <3 5.42<3 70
020 1
RESS0<2 17.431.2100 23.48.4793.6<0.01 <3 6.38<3 70
021 1
RESS0<2 9.9 21.2100 19.75.3375.4<0.01 <3 4.38<3 100
022 1
RESS0<2 12.526 180 24.46.84135.<0.01.7 <3 6.1 <3 100
023 5 1
RESS0<2 14.624 140 30.46.72122.<0.01.6 <3 5.68<3 60
024 5 1
RESS0<2 12 25 160 20.16.3891.4<0.00.9 6 4.84<3 100
025 1
RESS0<2 10.520.1130 14 5.4 71.1<0.00.7 <3 4.22<3 80
026 1
RESS0<2 14.425 130 19.66.8897 <0.00.9 <3 5.48<3 70
027 1
RESS0<2 13.626.6150 21 7.1389.2<0.01.3 3 5.383 50
028 1
RESS02 11 24.5160 27.46.5384.2<0.01.2 <3 5.7 <3 50
029 1
RESS0<2 13.825.5170 25.86.8295.2<0.01.1 <3 4.54<3 50
030 1
RESS0<2 11.524.7200 18.66.3 90.5<0.01.5 <3 4.58<3 90
031 1
RESS0<2 11.521.3160 23.65.5987.6<0.00.9 <3 4.31<3 70
032 1
RESS0<2 18.129.780 23.88.0786.2<0.01 <3 5.27<3 70
033 1
RESS0<2 18.731.570 21.78.8891.5<0.01 <3 6.485 80
034 1
RESS0<2 12.924.9150 26.46.4198.9<0.01.2 6 6.067 70
036 1
RESS0<2 17.132.690 29.38.5991 <0.01.6 6 6.558 80
037 1
RESS0<2 12.325.5190 28.96.49118 <0.02.1 5 4.979 150
038 1
RESS0<2 14.527 120 27 7.41100 <0.01.5 7 4.8 8 80
039 1
RESS0<2 12.524.4180 38.56.6389.9<0.02.7 4 4.527 90
040 1
RESS0<2 14.726.7120 25.27.2 102.<0.01.7 5 5.1512 90
041 5 1
RESS0<2 11.821.8160 18.55.67113 <0.01.1 10 4.929 150
042 1
RESS0<2 12.124 200 25.46.19105.<0.02 6 5.5 12 70
043 5 1
RESS0<2 11.922 190 15.35.85100.<0.01.8 9 4.539 140
044 5 1
RESS0<2 14.126.3140 25.57.38105 <0.01.9 7 5.0110 90
045 1
RESS0<2 11.622.1180 77.26.12109.<0.03.2 9 4.2110 120
046 5 1
RESS0<2 14.830 190 26.67.6687.9<0.01.5 3 6.2 10 70
047 1
RESS0<2 11.921.3280 16 5.5491.3<0.00.7 9 4.7516 110
048 1
RESS0<2 11.619.9130 22.55.4 74.2<0.00.9 5 4.1517 90
049 5 1
RESS0<2 11.720.9210 19.95.6 106 <0.01.4 3 4.9717 110
050 1
RESS0<2 16.628.7150 20.37.4396.7<0.00.9 3 6.2316 110
051 1
RESS0<2 12.524 180 21.96.33106.<0.01.2 5 4.4523 90
052 5 1
RESS0<2 10.919.860 18.95.2165.9<0.01.2 3 4.3116 550
053 5 1
RESS0<2 19.838.670 40.610.5100.<0.01.5 7 7.7 12 100
054 5 1
SamplME ME ME ME ME ME ME ME ME ME ME ME ME
e_ID - - - - - - - - - - - - -
MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8
9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L
Ta Tb Te Th Ti Tl Tm U V W Y Yb Zn
ppm ppm ppm ppm % ppm ppm ppm ppm ppm ppm ppm ppm
RESS00.870.67<0.58.7 0.460.430.492.1 105 1.8 30.32.8890
001
RESS00.9 0.7 <0.59 0.470.470.432.2 122 1.9 28.42.7490
002 1
RESS01.130.65<0.510.30.590.460.412.9 88 2.3 27.42.7860
003 5
RESS00.580.520.5 11 0.340.3 0.4 2.4 109 1 22 2.5970
004 9
RESS00.720.66<0.58.2 0.460.310.422.1 109 1.6 27.33.0670
005 5
RESS00.9 0.59<0.58.3 0.460.320.382.2 113 1.9 24.82.4490
006 5
RESS00.720.62<0.57.5 0.420.290.392 85 1.9 27.32.3770
007 3
RESS01.160.83<0.510.80.580.410.462.7 93 2.5 31.53.1670
008 1
RESS00.710.67<0.58.7 0.390.450.441.9 135 1.8 28.72.74100
009 3
RESS01.230.91<0.511.50.550.460.6 2.8 100 2.3 36.13.5 60
010 6
RESS01.070.8 <0.510.90.540.420.522.8 93 1.9 32.13.4150
011 9
RESS00.970.86<0.510.10.500.460.482.5 108 2 32.33.2480
013 5
RESS00.880.68<0.59.8 0.490.470.432.2 119 2 26.82.7490
014 2
RESS00.820.81<0.59 0.450.460.452.1 117 1.9 32.22.9180
015 1
RESS00.710.57<0.58 0.420.390.422 118 1.7 26.32.3880
016 9
RESS00.810.73<0.58.6 0.460.350.422.1 102 1.9 29.82.9170
017 4
RESS00.710.77<0.58.7 0.420.430.451.7 119 1.8 28.32.7990
018 1
RESS01.090.53<0.59.2 0.470.470.392.1 124 1.9 26.12.3790
019 2
RESS00.860.69<0.59.5 0.480.360.382.5 113 2 29.13.0580
020 9
RESS01.070.84<0.510.90.570.520.472.9 106 2.3 33.53.3470
021 4
RESS00.730.52<0.58.1 0.450.340.362.1 120 1.3 23.12.5 70
022 2
RESS00.810.72<0.59.9 0.460.6 0.422.1 150 1.9 26.52.81100
023 1
RESS00.920.68<0.59.7 0.5 0.470.392.2 131 3.1 27.92.6190
024
RESS00.740.71<0.59.1 0.390.340.461.9 111 1.7 30.82.7290
025 3
RESS00.680.61<0.57.6 0.370.320.371.9 86 2 23.82.4470
026 7
RESS00.9 0.77<0.59.4 0.480.420.472.5 120 2 30.23.0490
027 7
RESS00.910.75<0.59.1 0.470.410.452.2 114 1.9 31.53.27120
028 2
RESS00.830.77<0.58 0.380.4 0.442.2 117 1.8 31.72.9190
029 4
RESS00.960.77<0.58.9 0.450.450.412.2 114 1.9 28.52.9690
030 4
RESS00.8 0.7 <0.58.7 0.420.450.371.9 112 1.7 24.32.3 80
031 7
RESS00.690.61<0.57.8 0.420.340.391.8 97 1.7 22.42.53170
032
RESS01.080.73<0.510.40.590.450.462.7 93 2.3 30.12.9860
033 2
RESS01.240.91<0.511.70.600.460.582.6 98 2.5 34.83.3870
034 4
RESS00.920.870.7 9.2 0.410.510.451.9 130 1.7 30.62.8790
036 9
RESS01.241 <0.510.90.520.490.522.9 106 2.4 35.13.4 70
037 1
RESS00.8 0.740.5 9.6 0.420.580.392.3 135 2.3 28.52.72100
038 2
RESS01.040.830.9 9.9 0.460.540.432.6 113 2.3 30 3.1780
039 3
RESS00.760.78<0.59.1 0.420.620.432.6 110 2.6 27.52.76100
040 9
RESS01.030.92<0.59.8 0.440.450.532.4 119 2.3 32.73.2680
041 8
RESS00.730.74<0.58.6 0.360.430.332.1 128 1.7 24.12.4390
042 8
RESS00.8 0.820.7 9 0.420.460.412 124 1.6 29.92.8390
043 3
RESS00.8 0.77<0.58.5 0.350.420.4 1.9 117 1.7 25.12.6290
044 2
RESS00.840.92<0.510.60.390.5 0.422.4 124 2.1 29.72.8290
045 3
RESS00.780.65<0.58.9 0.360.780.3 2.3 115 2.2 24.52.22120
046 1
RESS00.990.8 0.6 10.10.420.430.432.4 119 2 29.42.4780
047 6
RESS00.910.620.6 7.9 0.360.380.381.8 117 1.5 22.92.37100
048 4
RESS02.1 0.61<0.57.1 0.350.370.361.8 90 1.6 22.92.5670
049 9
RESS00.850.7 0.6 8.5 0.380.410.382 125 2 23.62.67100
050 4
RESS01.080.750.8 10.60.360.6 0.362.3 120 2 28.92.7980
051 8
RESS00.940.740.8 9.1 0.390.530.362.1 128 1.9 28.52.8590
052 4
RESS00.720.580.6 7.2 0.290.380.295.6 85 1.6 21.82.2260
053 4
RESS01.3 1.090.6 14.10.530.570.513.2 127 2.7 38.83.9580
054 8
SamplME ME ME ME ME ME ME ME ME ME ME ME ME
e_ID - - - - - - - - - - - - -
MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8
9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L
Ag As B Ba Be Bi Ca Cd Ce Co Cs Cu Dy
ppm ppm ppm ppm ppm ppm % ppm ppm ppm ppm ppm ppm
RESS06 16 85 305 1.9 0.4 0.5 1 54.617.74.7 30 4.53
055
RESS0<5 20 117 385 2 0.4 1.7 <0.856.821.97.4 130 5.13
056
RESS0<5 17 100 387 1.8 0.5 1.5 <0.858.724.56.4 40 4.92
057
RESS0<5 35 119 382 2.3 0.7 0.4 <0.858 21.77 30 4.91
058
RESS07 23 98 411 2.4 0.5 0.4 1 76.121 6.7 30 6.4
060
RESS07 17 110 418 2.6 0.5 0.6 1.1 65.520.95.6 80 5.65
061
RESS05 46 145 460 2.5 0.5 0.8 0.9 58.226.711.590 5.22
062
RESS05 29 114 430 2.4 0.5 2.2 0.9 62.123.69.6 30 5.11
063
RESS05 36 92 391 3.1 0.4 0.4 0.8 68.431.48.3 50 5.7
064
RESS0<5 22 96 363 2.2 0.3 0.1 <0.868.118.65.6 20 5.18
065
RESS05 46 118 415 2.4 0.6 0.3 0.8 63 23.512.340 5.51
066
RESS0<5 25 117 366 2.3 0.5 0.3 <0.879.921.84.7 20 6.36
067
RESS0<5 48 128 459 2.9 1 0.5 <0.872.126.612.450 6.02
068
RESS0<5 40 105 426 3 0.6 0.4 <0.8105 34.29.7 40 6.96
069
RESS0<5 32 142 461 2.3 0.5 4.5 <0.856.225.89.7 70 4.7
070
RESS0<5 33 104 434 2.7 0.6 0.2 <0.883.327.211.550 6.68
071
RESS06 54 208 525 2.9 1 1.1 1 64.934.823.770 5.33
073
RESS0<5 17 94 420 2.1 0.4 0.4 <0.8102 19.85.2 20 7.72
074
RESS0<5 57 196 504 3.4 1 0.7 <0.858.728 16.3110 4.96
075
RESS0<5 16 96 343 2.1 0.2 0.4 <0.878.516.54.4 20 5.56
076
RESS0<5 27 106 442 2.5 0.6 1.1 0.8 62.922.49 60 5.08
077
RESS0<5 27 103 428 2 0.5 0.7 <0.866.920.19.3 40 5.47
078
RESS0<5 23 94 370 2.2 0.4 0.4 <0.864.925 7.1 40 4.97
079
RESS0<5 23 92 522 1.9 0.4 6.2 <0.853 12.77.9 30 3.96
080
RESS0<5 35 95 377 2.2 26 6.9 0.8 50.816.46.4 30 4.34
081
RESS0<5 24 64 430 2.4 0.6 0.8 <0.863.319.29.9 110 5.1
082
RESS0<5 20 76 357 2 0.5 0.7 <0.870.719.46.5 70 5.34
083
RESS0<5 14 61 472 1.9 0.3 1.5 <0.850.714.36.7 30 4.52
084
RESS0<5 22 151 336 1.9 0.7 2.8 <0.845.523.610.170 3.89
085
RESS0<5 53 140 450 2.7 0.7 0.5 <0.870.926.915.480 6.49
086
RESS0<5 42 156 456 2.7 0.6 0.4 0.8 82.733 12.350 6.57
087
RESS0<5 21 105 423 2.3 0.4 0.4 <0.886.314.96 30 6.81
088
RESS0<5 49 149 469 2.4 0.7 0.6 <0.862.531.115.1110 5.3
089
RESS0<5 29 99 430 2.3 0.5 0.6 <0.875.123.911.350 5.8
090
RESS0<5 17 104 392 1.6 0.4 0.2 <0.895.621.55.1 20 6.68
091
RESS0<5 20 106 364 2.7 0.4 10.5<0.846.117.812 50 4.13
092
RESS0<5 19 101 399 2.2 0.4 0.4 <0.890.115.36.6 20 7.21
093
RESS0<5 24 112 399 2.3 0.7 0.3 <0.867.822.68.6 50 5.63
094
RESS0<5 29 97 433 2.7 0.5 0.4 <0.884.822.37.6 30 6.56
095
RESS0<5 22 104 386 2.2 0.5 0.4 <0.877.118.18.1 30 6.92
097
RESS0<5 12 81 280 1.4 0.3 0.9 <0.847.219.63.8 30 4.5
098
RESS0<5 10 71 290 1.4 0.2 2.7 <0.840.516.43.2 120 3.27
099
RESS0<5 15 62 374 2.2 0.4 1.2 <0.872.215.64.9 30 5.88
100
RESS0<5 15 55 427 2.3 0.4 1.1 <0.853.713.77.6 30 4.22
101
RESS0<5 18 53 466 2.7 0.5 0.8 <0.865.616.86.2 30 5.37
102
RESS0<5 18 86 395 2.7 0.5 0.4 <0.893 19.96 20 6.94
103
RESS0<5 14 54 430 2.1 0.4 0.6 <0.850.914.27 30 4.35
104
RESS0<5 18 83 428 2.1 0.4 0.6 <0.890.220.24.9 30 6.43
105
RESS0<5 15 70 379 1.8 0.3 1.9 0.9 52.122.94.9 50 4.74
106
RESS0<5 49 182 450 2.9 0.8 0.5 <0.877 28.512.950 5.97
107
RESS0<5 55 234 549 2.9 0.7 0.9 0.8 67.833.317.670 5.38
108
SamplME ME ME ME ME ME ME ME ME ME ME ME ME
e_ID - - - - - - - - - - - - -
MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8
9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L
Er Eu Fe Ga Gd Ge Ho In K La Li Lu Mn
ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm
RESS02.880.913.2 15.24.381.6 1 <0.31.2925.551 0.42590
055
RESS03.061.134.2118.74.761.7 1.01<0.31.7828.568 0.36820
056
RESS03.041.1 4.1 17.84.691.4 0.96<0.31.7929.258 0.38890
057
RESS02.821.3 3.7917.44.591.8 0.97<0.31.7228.347 0.44670
058
RESS03.411.643.7917.75.831.9 1.2 <0.31.6537 50 0.5 890
060
RESS03.331.264.1 18 5.421.9 1.13<0.31.7632.454 0.51910
061
RESS02.861.214.7720.64.922 1.06<0.32.2728.2109 0.39920
062
RESS02.981.153.6718.14.751.8 0.94<0.31.9430.281 0.38830
063
RESS03.441.284.4518.25.591.9 1.08<0.31.3732.559 0.4 940
064
RESS03.181.073.2616.94.951.7 1.13<0.31.4733.151 0.41530
065
RESS02.950.994.4420.54.982.1 1.04<0.31.7430 62 0.45550
066
RESS03.871.262.8915.26.061.8 1.3 <0.31.4138.447 0.521160
067
RESS03.641.424.6419.95.812.2 1.25<0.31.8536.2101 0.471050
068
RESS04.421.8 4.4719.97.852 1.4 <0.31.6146.571 0.5 970
069
RESS02.560.863.7715 4.351.7 0.85<0.31.7 28.679 0.341370
070
RESS03.9 1.434.6320.86.991.7 1.35<0.31.7742.174 0.59890
071
RESS03.031.315.7822.96.032 1.06<0.32.5334.5145 0.491140
073
RESS04.261.832.9915.47.471.8 1.55<0.31.4350.739 0.591300
074
RESS03.121.115.6 23.25.1 1.9 0.97<0.32.3631.2120 0.4 850
075
RESS03.631.262.6613.86.171.6 1.15<0.31.2437.436 0.48950
076
RESS02.611.164.2517.25.171.7 1 <0.32.0330.959 0.511010
077
RESS03.181.3 4.0317.95.141.9 1.14<0.31.6233.757 0.45950
078
RESS03 1.043.8417.14.951.8 1 <0.31.5333.453 0.471040
079
RESS02.660.972.8414.53.921.8 0.9 <0.31.2627.234 0.38900
080
RESS02.081.013.2514.34.181.6 0.85<0.31.2 27.244 0.34880
081
RESS03.231.174.2119.75.461.8 1.06<0.31.5132 45 0.43840
082
RESS03.581.293.6 15.95.871.6 1.18<0.31.3 35.843 0.46890
083
RESS02.521.182.9715.64.3 1.4 0.99<0.31.6425.333 0.37830
084
RESS02.450.853.8814.64.031.3 0.81<0.31.5622.860 0.28750
085
RESS03.541.365.3522.76.481.6 1.37<0.32.0537.195 0.35880
086
RESS03.811.614.7920.56.251.5 1.23<0.32.0439.984 0.471450
087
RESS03.991.553.1516 7.321.7 1.45<0.31.5644.848 0.61920
088
RESS03.241.475.3322.25.9 1.7 1.14<0.32.0734.399 0.391000
089
RESS03.251.344.3619.35.631.8 1.07<0.31.7 38.676 0.45860
090
RESS03.841.482.8214.66.791.6 1.45<0.31.2 46 37 0.57710
091
RESS02.381.033.1416 4.351.1 0.75<0.31.5924.254 0.36540
092
RESS04.211.4 3.0515.46.9 1.5 1.27<0.31.4544.647 0.6 980
093
RESS03.511.033.7817.45.791.4 1.1 <0.31.6934.660 0.54890
094
RESS03.8 1.513.8417.96.351.5 1.37<0.31.6742.555 0.591090
095
RESS03.981.353.5816.76.581.5 1.36<0.31.5439.659 0.6 890
097
RESS02.250.873.1 11.63.851.3 0.8 <0.31.2823.940 0.36640
098
RESS02.120.812.9612 3.521.2 0.71<0.31.2521.435 0.3 630
099
RESS03.681.363.3314.85.851.5 1.15<0.31.3338.232 0.47870
100
RESS02.511.032.8714.64.561.4 0.77<0.31.6826.731 0.36670
101
RESS03.281.123.1615.35.181.6 1.04<0.31.5330.134 0.38930
102
RESS03.951.6 3.5 16.47.342 1.46<0.31.3143.242 0.56860
103
RESS02.590.993.5218.64.3 1.8 0.87<0.31.5 25.141 0.36470
104
RESS04.151.593.0514.66.681.9 1.43<0.31.2442.936 0.521400
105
RESS02.741.264.1615.44.751.6 0.93<0.31.4925.539 0.39950
106
RESS03.571.554.2317.96.132 1.29<0.32.0136 95 0.451100
107
RESS03.071.284.6220.55.311.8 1.06<0.32.6632.5126 0.441280
108
SamplME ME ME ME ME ME ME ME ME ME ME ME ME
e_ID - - - - - - - - - - - - -
MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8
9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L
Mo Nb Nd Ni Pb Pr Rb Re Sb Se Sm Sn Sr
ppm ppm ppm ppm ppm ppm ppm ppm ppm ppm ppm ppm ppm
RESS0<2 13.722.8110 26.36.3987.7<0.00.9 4 4.864 50
055 1
RESS0<2 12.725.8170 24.86.68106 <0.01.5 3 4.8 4 90
056 1
RESS0<2 12.926.8150 22 6.85101 <0.01.2 6 4.924 100
057 1
RESS0<2 12.523.7150 70 6.63105.<0.03.4 3 5.074 90
058 5 1
RESS0<2 16.333.4130 32 9.07107 <0.01.9 5 6.8212 80
060 1
RESS0<2 14.329.5150 24.57.77111 <0.01.1 5 5.724 70
061 1
RESS0<2 13 24.8510 26.86.51129 <0.02.4 7 5.545 80
062 1
RESS0<2 14.226.3140 26.76.95116 <0.02.4 6 5.424 80
063 1
RESS0<2 13.529.5150 35.27.85102.<0.02.2 6 5.974 70
064 5 1
RESS0<2 16.129.1100 28 7.5291.8<0.01.4 9 5.6210 70
065 1
RESS0<2 13.725.9160 53.47.34115 <0.03 4 5.715 70
066 1
RESS0<2 18.232.480 36.29.1990.3<0.01.6 4 6.185 90
067 1
RESS0<2 15.232.2160 33.68.66118 <0.03.4 <3 6.936 70
068 1
RESS0<2 18.640.6120 43.911.1118 <0.02.6 <3 8.817 80
069 5 1
RESS0<2 11.525.7160 69.77.0193.2<0.02.2 6 5 5 230
070 1
RESS0<2 17.736 110 36.19.77119.<0.01.5 <3 7.815 70
071 5 1
RESS02 14.131.8230 46.57.99159.<0.03 7 5.915 110
073 5 1
RESS0<2 22.545.760 30 11.990.50.011.6 8 9.224 100
074
RESS0<2 13.427.1220 41 7.31138.<0.02.7 <3 5.585 100
075 5 1
RESS0<2 18.933.260 25.59.5577.9<0.01.7 3 6.744 90
076 1
RESS0<2 13.426.5130 37.87.35109.<0.02.1 3 5.397 90
077 5 1
RESS0<2 15.229.3100 34.58 110 <0.02.1 6 5.874 80
078 1
RESS0<2 15.128.4130 34.77.7396.4<0.01.7 <3 5.424 60
079 1
RESS0<2 12.322.780 28.45.9588.5<0.01 3 4.894 160
080 1
RESS0<2 148 24.3100 24.86.0787.4<0.02.3 5 4.4311 170
081 1
RESS0<2 14.527.960 36.17.34112 <0.01.7 4 5.834 100
082 1
RESS0<2 16.233.790 29.88.2191.4<0.01.6 <3 6.344 70
083 1
RESS0<2 11.422.150 26 5.8398.4<0.00.9 <3 4.784 150
084 1
RESS02 9.6 20.9160 38.75.4587 <0.01.8 <3 4.514 150
085 1
RESS0<2 14.833.4190 38.59.13126 <0.02.5 <3 6.634 60
086 1
RESS0<2 17.534.1140 45.79.42127.<0.02.7 5 6.049 80
087 5 1
RESS0<2 21 38.570 30.310.099.1<0.01.4 4 7.584 90
088 5 1
RESS0<2 13.728.5200 39 7.54131.<0.02.7 <3 5.975 70
089 5 1
RESS0<2 16.832.8120 37.18.92109.<0.01.9 5 5.754 70
090 5 1
RESS0<2 21.538.570 32.510.877 <0.01.6 <3 7.054 80
091 5 1
RESS0<2 11.822.5140 18.55.8989.8<0.01.8 4 4.6812 130
092 1
RESS0<2 20 39.170 28.710.796.9<0.01.3 <3 7.815 90
093 5 1
RESS0<2 16.329.8130 34.88.16107 <0.02 4 5.835 70
094 1
RESS0<2 19.735.8100 35.610.1112 <0.02 3 7.115 80
095 1
RESS0<2 18.335.290 28.89.07100.<0.02.3 4 7.495 80
097 5 1
RESS0<2 11 21 140 17.85.8268 <0.01 <3 4.594 60
098 1
RESS0<2 9.7 19.1120 37.54.8765.1<0.04.1 <3 3.834 80
099 1
RESS0<2 16.133.160 29.58.9483.2<0.01.6 <3 6.575 100
100 1
RESS0<2 11.223.240 28.36.4889.6<0.01.2 5 4.885 130
101 1
RESS0<2 13 27.750 37.77.3294.4<0.01.3 4 5.337 120
102 1
RESS0<2 20.239.850 35.710.688.8<0.01.4 <3 7.384 90
103 1
RESS0<2 12.721.740 28.35.8697 <0.01.1 5 4.755 100
104 1
RESS0<2 18.837 50 39.610.188 <0.01.5 4 7.474 110
105 1
RESS0<2 11.925.3120 36.56.1684.6<0.01.3 4 4.9 4 120
106 1
RESS0<2 15.730 150 47.98.78119 <0.02.3 7 6.165 100
107 1
RESS0<2 14.327.7190 49.47.65143.<0.02.7 <3 4.9810 90
108 5 1
SamplME ME ME ME ME ME ME ME ME ME ME ME ME
e_ID - - - - - - - - - - - - -
MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8
9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L
Ta Tb Te Th Ti Tl Tm U V W Y Yb Zn
ppm ppm ppm ppm % ppm ppm ppm ppm ppm ppm ppm ppm
RESS00.860.781 8.8 0.400.430.371.9 104 2.1 26.22.7760
055 8
RESS00.840.72<0.59.4 0.410.530.422.2 127 2 27.92.78100
056 5
RESS00.870.7 0.6 9.5 0.430.520.4 2.2 131 1.7 28.42.7490
057 6
RESS00.820.85<0.59.9 0.410.790.4 2.5 114 2.3 27.92.68110
058 6
RESS01.160.9 0.5 11.20.460.540.532.6 119 2.3 34.53.4290
060 8
RESS00.950.91<0.510.50.410.670.452.1 122 1.9 32.12.8790
061 2
RESS01.760.760.5 10.10.420.530.462.2 144 1.7 29.82.91100
062 3
RESS00.960.730.6 9.6 0.430.550.422.3 123 2.1 28.42.6280
063 3
RESS01.780.890.5 10.50.390.620.452 126 2.1 30.43.2380
064 1
RESS01.020.810.6 10.40.480.530.452.5 109 2.5 29.83.1770
065 9
RESS00.870.76<0.510.80.440.670.432.5 131 2.2 30.53.18100
066 7
RESS01.330.93<0.512 0.570.540.6 3.4 101 2.5 35.43.6270
067 2
RESS00.951.02<0.511.30.440.650.522.3 142 2.4 34.83.36110
068 8
RESS01.111.24<0.514.10.520.810.582.6 133 2.6 39.53.6790
069 5
RESS00.770.73<0.59.2 0.360.410.422.1 105 1.6 26.92.58110
070 7
RESS01.061.19<0.512.90.510.730.532.6 137 2.4 35.63.81100
071 4
RESS01.260.890.5 11.40.410.750.482.3 169 2 32.52.85120
073 4
RESS01.441.17<0.514.60.590.570.643.5 98 2.7 42.94.3870
074 5
RESS01.270.82<0.511.30.410.710.4 2.2 171 1.8 28.63.35130
075 2
RESS01.250.9 <0.511.70.530.470.532.8 93 2.5 34.93.6160
076 7
RESS00.840.84<0.59.9 0.400.640.452 125 2 29.22.95130
077 7
RESS00.9 0.98<0.510.70.450.610.462.1 120 2.3 30.73.0490
078 3
RESS00.930.89<0.510.50.460.520.472.2 115 2.2 31.23.1280
079 2
RESS01.180.72<0.59.8 0.320.610.391.8 76 1.7 24.22.4160
080 7
RESS0352 0.63<0.510.20.320.430.446.7 98 3.3 25.22.4570
081 7
RESS00.920.87<0.511 0.450.710.432.2 132 2.7 29.43.1490
082 1
RESS00.951 <0.510.70.450.550.462.3 106 2.3 33 2.9790
083
RESS00.750.74<0.58.1 0.380.530.411.9 97 2.4 27.82.4370
084 1
RESS00.550.64<0.58 0.320.420.312 108 1.6 21.32.08120
085
RESS00.951.02<0.511.10.450.750.542.2 155 2.1 36 3.55120
086 4
RESS00.971.05<0.512.50.500.720.592.6 146 2.6 36.33.57110
087 6
RESS01.7 1.14<0.513.20.580.520.643.2 107 2.3 40.54.1 80
088 3
RESS00.950.81<0.511.10.420.710.512 157 2.1 31.83.4 110
089 5
RESS00.980.95<0.512 0.470.630.442.4 129 2.4 32.63.47110
090 6
RESS01.531.05<0.513.30.610.550.613.2 94 2.6 40.13.9770
091 6
RESS016.40.7 <0.57.9 0.310.710.341.7 99 1.9 24.12.2970
092 5 4
RESS01.221.2 <0.513 0.560.6 0.663.1 103 2.6 41.54.2870
093 6
RESS00.970.94<0.511 0.480.620.492.5 114 2.3 35 3.9 80
094 9
RESS01.251.05<0.513.10.550.610.542.9 123 2.5 36.83.9590
095 7
RESS01.670.94<0.511.90.550.530.552.8 111 2.4 37.33.6380
097 3
RESS00.670.680.5 7.4 0.380.350.361.9 89 1.5 23.22.3480
098 3
RESS00.570.58<0.57.4 0.350.340.261.5 87 1.5 20.72 90
099 8
RESS00.990.93<0.512 0.5 0.530.532.5 107 2.2 33.73.5970
100
RESS00.720.71<0.58.9 0.380.530.381.8 88 2 23.92.3170
101 6
RESS00.970.8 <0.511 0.430.610.472.2 109 2.3 28.52.6560
102 3
RESS01.521.13<0.514.10.580.560.6 3.3 117 2.8 41 4 70
103 9
RESS00.980.68<0.59 0.400.620.281.9 109 2.9 24.12.2970
104 7
RESS01.311.11<0.513.60.570.540.533.2 106 2.7 38.83.9870
105 4
RESS00.780.7 <0.58.2 0.410.380.452 122 1.8 26.92.95130
106 9
RESS01.220.99<0.511.50.480.570.522.8 131 2.2 35.43.78100
107 4
RESS00.950.87<0.510.70.450.7 0.422.5 140 2.1 30.23.19130
108 5
SamplME ME ME ME ME ME ME ME ME ME ME ME ME
e_ID - - - - - - - - - - - - -
MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8
9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L
Ag As B Ba Be Bi Ca Cd Ce Co Cs Cu Dy
ppm ppm ppm ppm ppm ppm % ppm ppm ppm ppm ppm ppm
RESS0<5 24 108 433 2.5 0.5 0.4 <0.895.818.56.5 30 8.2
109
RESS0<5 45 136 403 2.1 0.6 3.1 <0.856.723.713.870 5.03
110
RESS0<5 72 111 461 2.6 0.6 0.4 <0.857.322.910.260 5.42
111
RESS05 25 96 400 2.8 0.5 0.5 0.9 75 22.99.2 80 6.1
112
RESS0<5 58 142 372 2.2 0.6 0.9 <0.847.719.312 40 4.29
113
RESS0<5 53 112 414 2.2 0.5 0.9 0.8 60.125.814.460 5.04
114
RESS0<5 39 88 443 3 0.5 0.4 <0.874.126.911 80 6.04
115
RESS0<5 34 118 455 2.2 0.5 0.4 <0.870.725.810.350 5.98
116
RESS0<5 50 141 488 2.8 0.5 0.3 0.8 60 28.312.640 5.55
117
RESS0<5 24 110 438 2.2 0.4 0.4 <0.893.218 6 30 7.43
118
RESS07 12 97 425 2.2 0.4 0.6 1.2 64.122.26 40 5.41
120
RESS0<5 19 84 405 2 0.4 6.3 <0.857.114.37.6 30 4.95
121
RESS0<5 24 45 422 2.2 0.3 4.3 <0.850.712.99.7 140 3.82
122
RESS0<5 17 53 448 2.5 0.4 0.5 0.8 61.818.37.3 30 4.86
123
RESS0<5 15 77 424 2.7 0.5 0.6 1 78.519.76 30 6.48
124
RESS0<5 17 56 418 2.2 0.4 1.3 <0.858.114.75.8 30 5.02
125
RESS0<5 12 36 455 2.6 0.4 0.8 <0.853.415 4.2 50 4.73
127
RESS0<5 18 53 478 2.4 0.3 0.7 <0.860.212.65.7 30 5.02
128
RESS0<5 17 63 433 2.4 0.4 0.5 <0.871.113.25.1 30 5.83
129
RESS0<5 17 67 400 2.3 0.4 0.7 <0.865 11 5.4 30 5.43
130
RESS0<5 15 49 439 2.2 0.4 0.9 <0.865.914.44.7 30 5.45
131
RESS0<5 20 71 441 2.1 0.4 0.7 <0.871.212.16 30 6.13
132
RESS0<5 24 111 371 2.3 0.4 2.1 <0.863.116 7.3 50 5.07
133
RESS0<5 15 99 408 2.1 0.4 0.5 <0.860.221.85.8 40 5.25
134
RESS0<5 41 109 447 2.4 0.6 0.4 <0.877 28.611.140 6.54
135
RESS0<5 21 85 453 2.3 0.5 0.5 <0.892.318.16.9 30 6.89
136
RESS0<5 35 92 411 2.7 0.5 0.4 0.8 64.422.811.230 5.64
137
RESS0<5 21 85 416 2.6 0.5 0.4 <0.882.214 7.7 20 6.48
138
RESS0<5 37 94 412 2.6 0.6 0.8 <0.862.725.212.460 5.08
139
RESS0<5 24 86 360 1.8 0.5 0.5 <0.870 18.86.8 110 5.39
140
RESS0<5 28 79 390 2.3 0.4 0.4 <0.881.225.67.2 120 6.89
141
RESS0<5 22 90 440 2.3 0.5 0.3 <0.883.619.18.6 30 6.57
142
RESS0<5 46 139 409 2.1 1 0.7 <0.850.926 12.770 4.85
143
RESS0<5 25 99 454 2.3 0.5 0.4 <0.882.817.98 30 6.65
144
RESS0<5 62 203 460 2.6 0.8 0.4 0.8 63 26.917.860 5.19
145
RESS0<5 9 81 381 1.8 0.5 1.3 0.9 54.422.35.7 40 4.53
146
RESS0<5 19 86 373 1.9 0.4 0.9 <0.853.620.45.6 40 4.8
147
RESS0<5 26 97 410 2.4 0.5 0.6 <0.872 20.38.8 50 5.56
148
RESS0<5 20 76 421 2.7 0.5 1 <0.876.317 7.8 30 6.23
149
RESS05 17 49 389 2 0.5 0.7 0.9 54.414.87.5 160 4.72
150
RESS0<5 10 58 453 2.3 0.4 0.6 <0.875 10.44.8 20 6.34
151
RESS0<5 15 44 380 2.8 0.5 1.3 0.9 53.515.27.5 80 4.49
153
RESS06 11 30 447 2.1 0.5 0.7 1 52.615 6.7 40 4.27
154
RESS0<5 16 39 439 1.9 0.4 0.6 <0.860.314 5.6 30 4.54
155
RESS0<5 17 45 440 2 0.5 0.6 <0.858.417.56.3 30 5.23
156
RESS0<5 16 46 428 1.7 0.4 0.7 <0.858.216.36.5 40 4.23
157
RESS0<5 19 63 439 2.3 0.5 0.9 <0.860.618.58.4 30 4.65
158
RESS0<5 14 61 436 2.6 0.4 0.8 <0.864.916.86.7 30 5.66
159
RESS0<5 17 72 395 1.9 0.4 0.7 <0.855.716.15.7 30 4.47
160
RESS0<5 81 186 477 2.8 0.9 1 0.8 69.633 17.160 5.8
161
RESS0<5 52 121 421 2.9 0.7 0.3 1 72 26.213 40 5.71
162
RESS0<5 43 95 480 2.6 0.6 0.5 <0.877.825.110 40 6.39
163
RESS0<5 40 115 456 2.6 0.5 1.4 <0.869.324.112.960 6.2
164
RESS0<5 61 139 483 2.6 1.1 2.2 <0.853.230 20.860 4.97
165
SamplME ME ME ME ME ME ME ME ME ME ME ME ME
e_ID - - - - - - - - - - - - -
MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8 MS8
9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L 9L
Er Eu Fe Ga Gd Ge Ho In K La Li Lu Mn
ppm ppm % ppm ppm ppm ppm ppm % ppm ppm ppm ppm
RESS04.311.733.2616 7.282.2 1.53<0.31.5547.451 0.59980
109
RESS02.781.384.3117.55.041.8 0.98<0.31.9228.787 0.42790
110
RESS03.031.075.0420.15.182.3 1.01<0.31.9729.387 0.45670
111
RESS03.441.314 18.16.182.1 1.32<0.31.6536.356 0.46870
112
RESS02.691.023.9 15.94.141.9 0.91<0.31.7723.672 0.41750
113
RESS03.161.274.1518.84.941.9 1.09<0.31.9 29.884 0.47980
114
RESS03.551.294.8221.16.112.3 1.15<0.31.6 37.865 0.5 960
115
RESS03.491.394.2318.55.692.2 1.22<0.31.8634.477 0.48950
116
RESS03.021.064.7822.25.182.1 1.06<0.32.3530.396 0.43920
117
RESS04.271.713.3216.46.532 1.45<0.31.4845.850 0.641030
118
RESS03.531.213.7317.15.332 1.1 <0.31.8230.351 0.46860
120
RESS03.171.123.1414.44.881.6 0.99<0.31.3929.538 0.35640
121
RESS02.150.913.2916.14.421.9 0.87<0.31.5626.638 0.33510
122
RESS03 1.123.6217.94.931.7 1.13<0.31.5230.940 0.441060
123
RESS03.831.253.3915.55.691.7 1.27<0.31.4437.737 0.5 1050
124
RESS03.081.213.1115.25.111.6 1.11<0.31.4430.134 0.33870
125
RESS02.481.1 2.9615.84.4 1.7 0.88<0.31.6325.725 0.39570
127
RESS03.451.323.1216.74.961.6 1.08<0.31.7129.434 0.38780
128
RESS03.721.2 3.2315.75.571.7 1.15<0.31.4537.536 0.46830
129
RESS03.231.183.0515.15.271.8 1.12<0.31.3333.137 0.47580
130
RESS03.791.212.7413.95.041.6 1.29<0.31.5330.928 0.51900
131
RESS03.571.473.1316.16.021.8 1.3 <0.31.4136.936 0.52750
132
RESS03.541.223.2615.45.552.1 1.13<0.31.4 32.342 0.45690
133
RESS03.341.143.9117.45.181.8 1.13<0.31.6729.750 0.46970
134
RESS03.451.294.4119.55.631.8 1.22<0.31.6939.878 0.521090
135
RESS03.991.543.3416.77.431.7 1.46<0.31.6345.455 0.591130
136
RESS03.321.194.1118.65.871.9 1.16<0.31.7732.579 0.47880
137
RESS03.761.353.2 15.87.592 1.46<0.31.6940.951 0.56730
138
RESS02.751.244.1318.25.482.1 1.13<0.31.8 33.369 0.43950
139
RESS02.871.193.6116.86.192 1.18<0.31.4936.654 0.56780
140
RESS03.531.444.0117.77 2.2 1.38<0.31.3140.256 0.541070
141
RESS03.491.493.7318.77 2 1.38<0.31.8742.161 0.58890
142
RESS02.661.244.1217 5.041.5 0.95<0.32.1227.788 0.45900
143
RESS03.861.393.5917.26.6 2 1.39<0.31.9341.868 0.63920
144
RESS02.821.165 22.25.
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Datum: 07.08.2019 - 02:00 Uhr
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News-ID 1551239
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"Jadar Lithium Announces Exploration Results and Definition of Drill-Ready Target at Rekovac Lithium – Borate Project in Serbia
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