EV RESOURCES LTD - Regulatory Filings 2019

311-313 Hay Street Subiaco, Western Australia 6008 T:+61 (0) 8 6489 0600 F: +61 (0) 8 9388 3701 www.jadarlithium.com.au

ASX

JADAR LITHIUM QUICK STATS

Jadar Lithium Announces Exploration Results and Definition of Drill-Ready Target at Rekovac Lithium – Borate Project in Serbia August 7, 2019

ASX Code: JDR

Shares on Issue: 480.4 million Market Cap: $3.8 million Cash: $2m (at 30 June ‘19)

BOARD & MANAGEMENT

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

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 – ~28km[2] )

Luke Martino, Non-Executive Chairman of the Board, said “We are very encouraged by the prospectivity of Jadar Lithium’s 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 Company’s 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.

Eastern Alps Projects

(80% interest – ~37km[2] )

SERBIA

Cer

(100% interest - ~92.77km[2] )

Rekovac (100% interest - ~75.4km[2] )

Vranje-South (100% interest - ~90.44km[2] )

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 Tinto’s 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.

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Figure 1 – Rekovac project geology map with soil and rock sampling positions and boron values

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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.

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This is another indicator for the prospective nature of the basin.

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 Company’s 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.

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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.

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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 basin’s 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.

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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: [email protected]

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 forwardlooking 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 Company’s 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 forwardlooking statements to reflect events or circumstances after the date hereof, or to reflect the occurrence of or nonoccurrence of any events.

Table 1 – Soil sampling results

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	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
RESS0001	<5	13	87	425	1.9	0.3	0.4	0.9	57.6	20.2	5	40	5.16
RESS0002	<5	15	89	413	2.4	0.3	0.4	<0.8	56.8	22.5	5.7	40	5.16
RESS0003	5	8	61	349	1.6	0.3	0.1	0.8	74.5	9.8	3.3	20	4.73
RESS0004	5	6	49	297	2.2	0.3	1.8	0.9	44.7	23	3.3	40	4.11
RESS0005	<5	10	68	313	1.8	0.3	1	0.8	54.4	17.8	3.4	40	4.72
RESS0006	5	12	86	374	1.9	0.4	0.6	0.9	51.7	19.7	4.2	40	4.38
RESS0007	<5	9	81	274	1.9	0.3	2.7	0.8	49.2	17.4	3.5	30	4.14
RESS0008	5	12	88	319	1.6	0.3	0.2	1	75.4	14.7	4.1	20	5.28
RESS0009	<5	17	99	378	1.9	0.4	2	<0.8	48.9	24.1	6.2	50	4.76
RESS0010	<5	9	87	342	2.3	0.3	0.3	<0.8	80.7	14.8	4.2	30	6.62
RESS0011	5	8	88	374	2	0.4	0.1	1	73.2	12.4	3.9	30	5.23
RESS0013	5	12	83	347	2.1	0.4	0.3	1	68.7	20.8	4.8	30	6.45
RESS0014	<5	12	84	361	2.2	0.3	0.2	<0.8	59.1	19.8	5.2	40	5.08
RESS0015	5	26	68	362	1.8	0.4	0.3	0.8	64.2	17.3	4.9	30	5.43
RESS0016	5	13	80	399	1.7	0.3	0.7	<0.8	48.6	22	4.4	40	4.29
RESS0017	5	10	79	329	1.9	0.2	0.3	0.9	55.6	19.6	4.1	30	4.92
RESS0018	<5	13	84	340	1.9	0.4	1.7	0.8	52.9	22.1	5.3	40	5.21
RESS0019	7	17	79	329	2.1	0.5	0.2	1.1	57.5	25.5	5.8	40	4.44
RESS0020	7	13	88	366	1.7	0.4	0.5	1.1	60.4	20.9	4.2	40	5.16
RESS0021	5	14	79	399	1.8	0.3	0.3	0.8	73.6	14.4	4.4	30	5.71
RESS0022	<5	10	66	297	2	0.3	2.1	<0.8	46.9	22.1	3.2	30	3.9
RESS0023	<5	31	103	447	2.3	0.4	1.9	<0.8	59.5	27.2	8.6	50	4.78
RESS0024	<5	18	89	426	2.7	0.4	0.3	0.8	60	25.5	7.5	40	4.84
RESS0025	<5	6	78	333	1.9	0.3	5	0.9	51.3	18.3	5.5	40	5.09
RESS0026	5	12	76	299	1.3	0.2	3	<0.8	47.4	17.6	3.7	30	4.52
RESS0027	5	11	98	376	1.8	0.3	0.7	0.8	59.2	20	5	40	5.07
RESS0028	5	14	75	350	2	0.3	0.3	1	61	18.9	4.4	70	5.12
RESS0029	<5	47	70	362	1.7	0.4	0.8	1.1	52.7	19.3	4.1	40	5.17
RESS0030	5	13	86	355	1.9	0.3	0.5	1	57.4	23.4	4.9	160	5.15
RESS0031	<5	17	81	374	1.7	0.3	4	0.8	54.2	24.2	5.2	50	4.44
RESS0032	<5	11	80	362	1.9	0.3	1.8	0.8	48.5	20.2	4.4	50	4.04
RESS0033	<5	9	82	335	1.7	0.3	0.2	0.8	70.6	16.1	4	20	5.03
RESS0034	<5	11	78	377	2	0.4	0.2	<0.8	78.5	12.4	4.4	20	5.83
RESS0036	<5	15	102	372	2.6	0.4	1.5	<0.8	53.1	21.9	5	60	5.35
RESS0037	<5	21	97	370	2.5	0.4	0.3	<0.8	75.1	19.3	5.1	30	6.18
RESS0038	<5	25	127	476	2.7	0.6	2.6	<0.8	54	24.7	10.6	50	4.67
RESS0039	<5	20	98	404	2.3	0.4	0.3	<0.8	62.8	20.9	5.9	40	5.04
RESS0040	<5	79	94	406	2	0.5	0.4	<0.8	60.1	22.3	7.3	40	5.39
RESS0041	<5	28	104	380	2.4	0.4	0.4	<0.8	62.1	21.5	6.4	50	5.97
RESS0042	<5	45	116	421	2.5	0.4	5.3	<0.8	49.5	22.5	7.4	50	4.46
RESS0043	5	102	108	393	2.2	0.4	0.7	<0.8	52.6	24	7.1	40	5.25
RESS0044	5	24	118	385	2.1	0.4	3.8	<0.8	48.8	21.7	6	40	4.58
RESS0045	6	20	101	383	2.7	0.5	0.9	1.1	61.8	23.3	8.6	40	5.27
RESS0046	7	22	112	394	1.7	0.9	3	1.2	50.1	23.8	8.3	40	4.48
RESS0047	6	15	92	337	2.3	0.4	0.4	1.2	66.8	26.1	5.1	40	5.55
RESS0048	5	14	98	352	2.2	0.3	3.4	0.9	46.6	27.9	5.5	40	4.52
RESS0049	5	12	86	293	1.6	0.3	1.8	1	46.5	18.2	3.3	30	4.13
RESS0050	<5	14	107	401	2.3	0.4	4.2	<0.8	48.8	24.8	6.6	40	4.37
RESS0051	6	17	97	488	2.8	0.5	5.6	0.9	58.4	20	7.3	40	4.97
RESS0052	6	20	96	375	2.7	0.4	3.4	1.1	54	24.6	6.2	40	4.59
RESS0053	6	20	61	330	1.5	0.4	15.4	1	46	13.5	4.1	30	3.82
RESS0054	6	24	85	393	2.9	0.5	0.6	1	88.6	21.5	7.5	30	6.97

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	Er	Eu	Fe	Ga	Gd	Ge	Ho	In	K	La	Li	Lu	Mn
	ppm	ppm	%	ppm	ppm	ppm	ppm	ppm	%	ppm	ppm	ppm	ppm
RESS0001	3.1	1.1	3.54	14.8	4.76	1.8	1.12	<0.3	1.78	27.5	50	0.43	1370
RESS0002	3.03	1.11	4	17.5	4.79	1.8	1.07	<0.3	2.09	28.1	59	0.54	810
RESS0003	2.82	1.12	2.44	14	4.62	1.5	0.97	<0.3	1.63	35.1	41	0.44	420
RESS0004	2.15	0.85	3.4	14.7	3.53	1.9	0.86	<0.3	1.75	22	26	0.28	770
RESS0005	3.19	0.89	3.28	13.7	4.72	1.7	0.95	<0.3	1.68	25.4	37	0.41	780
RESS0006	2.55	1.13	3.7	15	4.06	1.7	0.89	<0.3	1.83	24.3	52	0.34	670
RESS0007	2.76	1.04	2.8	12	4.45	1.4	0.89	<0.3	1.44	23.5	39	0.41	660
RESS0008	3.34	1.22	2.84	13.4	5.6	1.6	1.14	<0.3	1.53	34.5	39	0.49	870
RESS0009	2.96	1.29	4.89	19	5.06	1.9	0.95	<0.3	2.16	24.9	62	0.4	1150
RESS0010	3.9	1.31	3.04	15	6.27	1.7	1.19	<0.3	1.58	36.5	42	0.51	550
RESS0011	3.26	0.98	2.62	15	5.16	1.5	1.13	<0.3	1.72	33.4	38	0.46	470
RESS0013	3.85	1.39	3.51	15	5.51	1.7	1.13	<0.3	1.65	31	49	0.44	1090
RESS0014	2.92	1.1	3.92	17	4.53	2	0.95	<0.3	1.71	27.6	54	0.41	710
RESS0015	3.36	1.32	4.01	16.7	5.87	1.8	1.11	<0.3	1.67	30.3	50	0.5	1210
RESS0016	2.8	1.06	4.02	15.7	4.17	1.6	0.89	<0.3	1.83	23	52	0.39	680
RESS0017	3.27	1.12	3.22	13.5	4.87	1.6	1	<0.3	1.53	25.6	45	0.45	760
RESS0018	2.94	1.11	4.04	16.9	4.98	1.7	1.08	<0.3	1.93	25.9	52	0.38	800
RESS0019	2.49	0.8	4.15	17.3	3.9	1.7	0.88	<0.3	1.9	26.1	55	0.32	460
RESS0020	3.25	1.1	3.6	16.3	4.48	1.7	1	<0.3	1.89	27.8	50	0.34	760
RESS0021	3.39	1.13	3.13	15.6	5.65	1.6	1.14	<0.3	1.69	34.3	44	0.43	580
RESS0022	2.71	0.91	3.53	14.3	4.23	1.5	0.81	<0.3	1.68	23	34	0.35	780
RESS0023	2.92	1.28	4.91	21.7	5.1	1.8	1.04	<0.3	2.6	28.8	74	0.43	840
RESS0024	2.84	0.93	4.03	18.6	5.08	1.8	1.02	<0.3	2.2	29.6	63	0.37	910
RESS0025	3.22	1.05	3.53	16	5.15	1.7	1.07	<0.3	1.75	27.6	46	0.46	580
RESS0026	2.66	0.8	2.85	12.1	3.79	1.4	0.89	<0.3	1.41	22	43	0.3	600
RESS0027	3.51	1.08	3.79	15.9	5.3	1.6	1.03	<0.3	1.94	28	52	0.42	690
RESS0028	3.31	1.3	3.81	16.2	5.12	1.6	1.1	<0.3	1.63	29	49	0.43	760
RESS0029	3.23	1.25	4.23	15.9	5.37	1.7	1.1	<0.3	1.7	26	52	0.44	1420
RESS0030	3.15	1.19	3.83	15.6	4.89	1.6	0.97	<0.3	1.8	28	49	0.34	1090
RESS0031	2.52	1	3.75	15.4	4.65	1.7	0.89	<0.3	1.76	26.3	51	0.38	670
RESS0032	2.39	1.04	3.39	14.2	4.09	1.9	0.85	<0.3	1.82	24.3	45	0.32	850
RESS0033	3.04	1.2	2.7	13.9	5.18	1.5	1.07	<0.3	1.63	32.9	40	0.42	540
RESS0034	3.36	1.25	2.78	14.8	5.91	1.4	1.15	<0.3	1.66	38.2	41	0.49	650
RESS0036	2.88	1.24	4.63	18.5	5.16	2	1.09	<0.3	1.62	27.7	66	0.44	1090
RESS0037	3.29	1.28	3.28	16.1	5.95	1.9	1.28	<0.3	1.37	37.3	47	0.6	860
RESS0038	2.88	1.02	4.5	20.7	4.78	1.9	0.99	<0.3	2.12	27.5	73	0.43	690
RESS0039	3.55	1.07	3.55	16.4	5.06	1.8	1.07	<0.3	1.69	30.6	50	0.43	740
RESS0040	3.17	1.26	3.97	15.7	4.89	1.5	0.97	<0.3	1.5	29.8	55	0.31	1090
RESS0041	3.52	1.27	3.79	17	5.01	1.8	1.16	<0.3	1.63	31.5	58	0.5	920
RESS0042	2.76	1.07	4.14	18.7	4.16	1.7	0.88	<0.3	1.88	24.9	76	0.32	680
RESS0043	3.09	1.26	4.26	18.2	4.94	1.9	1.03	<0.3	1.72	26.4	81	0.48	890
RESS0044	2.41	0.92	3.97	17.1	4	1.6	0.9	<0.3	1.69	24.1	77	0.37	690
RESS0045	3.13	1.35	4.14	17.5	5.44	1.8	1.06	<0.3	1.59	30.2	52	0.43	740
RESS0046	2.25	0.94	3.93	17.2	3.92	1.5	0.8	<0.3	1.86	24.3	48	0.35	810
RESS0047	2.68	1.16	3.98	16.6	4.78	1.9	1.02	<0.3	1.31	30.9	51	0.34	830
RESS0048	2.56	0.92	4.1	16	4.25	1.5	0.83	<0.3	1.62	23.7	57	0.32	700
RESS0049	2.54	1.15	3.07	12.9	3.63	1.3	0.84	<0.3	1.35	22.6	42	0.4	750
RESS0050	2.55	0.97	4.14	17.6	4.27	1.6	0.82	<0.3	1.82	24.3	63	0.34	850
RESS0051	2.71	1.16	3.99	18.5	5.06	1.8	1.06	<0.3	1.55	32.8	59	0.35	620
RESS0052	2.72	1.14	4.23	18	4.24	1.9	1.01	<0.3	1.77	26.1	61	0.4	660
RESS0053	2.04	0.91	2.37	10.9	3.82	1.3	0.76	<0.3	0.91	22.5	32	0.32	740
RESS0054	4.36	1.79	4.03	18.5	6.77	1.9	1.38	<0.3	1.36	42.6	45	0.59	1140

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	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
RESS0001	<2	13.3	24	140	28.6	6.49	98.2	<0.01	1.3	<3	5.52	<3	60
RESS0002	<2	13.9	24.7	140	21.7	6.45	109.5	<0.01	1	<3	4.74	5	70
RESS0003	<2	17.1	27.8	70	20.3	8.19	77.3	<0.01	1.1	<3	5.23	<3	60
RESS0004	<2	8.8	17.9	100	21.8	4.82	82.2	<0.01	1.1	<3	3.34	<3	100
RESS0005	<2	11.5	23.3	110	22.7	5.92	79	<0.01	0.7	3	4.59	<3	80
RESS0006	<2	13	23.3	130	23.8	5.79	89.3	<0.01	1	4	4.64	6	70
RESS0007	<2	12.3	21.7	140	14.5	5.56	68.9	<0.01	1.1	<3	4.93	<3	70
RESS0008	<2	17.4	31	80	25.6	8.14	82.8	<0.01	1.4	3	6.14	<3	60
RESS0009	<2	10.9	23.6	190	17.8	5.76	115.5	<0.01	1.5	<3	4.33	<3	80
RESS0010	<2	16.9	34.5	70	16.2	9.31	88.3	<0.01	0.9	3	6.94	<3	70
RESS0011	<2	15.3	30	70	16.7	8.13	90.9	<0.01	1	<3	6.22	<3	50
RESS0013	<2	15.4	27.6	140	23.2	7.76	95	<0.01	1.2	<3	5.95	<3	60
RESS0014	<2	14	26.2	160	21	6.92	101	<0.01	1.3	<3	4.6	<3	50
RESS0015	<2	13.1	27.1	150	21.2	7.27	98	<0.01	1.4	3	5.85	5	60
RESS0016	<2	11.8	20.6	190	15.3	5.57	90.1	<0.01	1.1	3	4.53	<3	60
RESS0017	<2	13.9	23.4	150	22.2	6.25	82.1	<0.01	1.1	<3	4.8	<3	50
RESS0018	<2	11.5	24.6	190	23.7	6.3	104	<0.01	1.2	<3	4.94	<3	60
RESS0019	<2	13.5	23.9	220	25.9	6.18	103	<0.01	1.5	<3	3.97	<3	40
RESS0020	<2	13.9	24.2	130	19.7	6.64	94.5	<0.01	1.2	<3	5.42	<3	70
RESS0021	<2	17.4	31.2	100	23.4	8.47	93.6	<0.01	1	<3	6.38	<3	70
RESS0022	<2	9.9	21.2	100	19.7	5.33	75.4	<0.01	1	<3	4.38	<3	100
RESS0023	<2	12.5	26	180	24.4	6.84	135.5	<0.01	1.7	<3	6.1	<3	100
RESS0024	<2	14.6	24	140	30.4	6.72	122.5	<0.01	1.6	<3	5.68	<3	60
RESS0025	<2	12	25	160	20.1	6.38	91.4	<0.01	0.9	6	4.84	<3	100
RESS0026	<2	10.5	20.1	130	14	5.4	71.1	<0.01	0.7	<3	4.22	<3	80
RESS0027	<2	14.4	25	130	19.6	6.88	97	<0.01	0.9	<3	5.48	<3	70
RESS0028	<2	13.6	26.6	150	21	7.13	89.2	<0.01	1.3	3	5.38	3	50
RESS0029	2	11	24.5	160	27.4	6.53	84.2	<0.01	1.2	<3	5.7	<3	50
RESS0030	<2	13.8	25.5	170	25.8	6.82	95.2	<0.01	1.1	<3	4.54	<3	50
RESS0031	<2	11.5	24.7	200	18.6	6.3	90.5	<0.01	1.5	<3	4.58	<3	90
RESS0032	<2	11.5	21.3	160	23.6	5.59	87.6	<0.01	0.9	<3	4.31	<3	70
RESS0033	<2	18.1	29.7	80	23.8	8.07	86.2	<0.01	1	<3	5.27	<3	70
RESS0034	<2	18.7	31.5	70	21.7	8.88	91.5	<0.01	1	<3	6.48	5	80
RESS0036	<2	12.9	24.9	150	26.4	6.41	98.9	<0.01	1.2	6	6.06	7	70
RESS0037	<2	17.1	32.6	90	29.3	8.59	91	<0.01	1.6	6	6.55	8	80
RESS0038	<2	12.3	25.5	190	28.9	6.49	118	<0.01	2.1	5	4.97	9	150
RESS0039	<2	14.5	27	120	27	7.41	100	<0.01	1.5	7	4.8	8	80
RESS0040	<2	12.5	24.4	180	38.5	6.63	89.9	<0.01	2.7	4	4.52	7	90
RESS0041	<2	14.7	26.7	120	25.2	7.2	102.5	<0.01	1.7	5	5.15	12	90
RESS0042	<2	11.8	21.8	160	18.5	5.67	113	<0.01	1.1	10	4.92	9	150
RESS0043	<2	12.1	24	200	25.4	6.19	105.5	<0.01	2	6	5.5	12	70
RESS0044	<2	11.9	22	190	15.3	5.85	100.5	<0.01	1.8	9	4.53	9	140
RESS0045	<2	14.1	26.3	140	25.5	7.38	105	<0.01	1.9	7	5.01	10	90
RESS0046	<2	11.6	22.1	180	77.2	6.12	109.5	<0.01	3.2	9	4.21	10	120
RESS0047	<2	14.8	30	190	26.6	7.66	87.9	<0.01	1.5	3	6.2	10	70
RESS0048	<2	11.9	21.3	280	16	5.54	91.3	<0.01	0.7	9	4.75	16	110
RESS0049	<2	11.6	19.95	130	22.5	5.4	74.2	<0.01	0.9	5	4.15	17	90
RESS0050	<2	11.7	20.9	210	19.9	5.6	106	<0.01	1.4	3	4.97	17	110
RESS0051	<2	16.6	28.7	150	20.3	7.43	96.7	<0.01	0.9	3	6.23	16	110
RESS0052	<2	12.5	24	180	21.9	6.33	106.5	<0.01	1.2	5	4.45	23	90
RESS0053	<2	10.9	19.85	60	18.9	5.21	65.9	<0.01	1.2	3	4.31	16	550
RESS0054	<2	19.8	38.6	70	40.6	10.5	100.5	<0.01	1.5	7	7.7	12	100

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	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
RESS0001	0.87	0.67	<0.5	8.7	0.46	0.43	0.49	2.1	105	1.8	30.3	2.88	90
RESS0002	0.9	0.7	<0.5	9	0.471	0.47	0.43	2.2	122	1.9	28.4	2.74	90
RESS0003	1.13	0.65	<0.5	10.3	0.595	0.46	0.41	2.9	88	2.3	27.4	2.78	60
RESS0004	0.58	0.52	0.5	11	0.349	0.3	0.4	2.4	109	1	22	2.59	70
RESS0005	0.72	0.66	<0.5	8.2	0.465	0.31	0.42	2.1	109	1.6	27.3	3.06	70
RESS0006	0.9	0.59	<0.5	8.3	0.465	0.32	0.38	2.2	113	1.9	24.8	2.44	90
RESS0007	0.72	0.62	<0.5	7.5	0.423	0.29	0.39	2	85	1.9	27.3	2.37	70
RESS0008	1.16	0.83	<0.5	10.8	0.581	0.41	0.46	2.7	93	2.5	31.5	3.16	70
RESS0009	0.71	0.67	<0.5	8.7	0.393	0.45	0.44	1.9	135	1.8	28.7	2.74	100
RESS0010	1.23	0.91	<0.5	11.5	0.556	0.46	0.6	2.8	100	2.3	36.1	3.5	60
RESS0011	1.07	0.8	<0.5	10.9	0.549	0.42	0.52	2.8	93	1.9	32.1	3.41	50
RESS0013	0.97	0.86	<0.5	10.1	0.505	0.46	0.48	2.5	108	2	32.3	3.24	80
RESS0014	0.88	0.68	<0.5	9.8	0.492	0.47	0.43	2.2	119	2	26.8	2.74	90
RESS0015	0.82	0.81	<0.5	9	0.451	0.46	0.45	2.1	117	1.9	32.2	2.91	80
RESS0016	0.71	0.57	<0.5	8	0.429	0.39	0.42	2	118	1.7	26.3	2.38	80
RESS0017	0.81	0.73	<0.5	8.6	0.464	0.35	0.42	2.1	102	1.9	29.8	2.91	70
RESS0018	0.71	0.77	<0.5	8.7	0.421	0.43	0.45	1.7	119	1.8	28.3	2.79	90
RESS0019	1.09	0.53	<0.5	9.2	0.472	0.47	0.39	2.1	124	1.9	26.1	2.37	90
RESS0020	0.86	0.69	<0.5	9.5	0.489	0.36	0.38	2.5	113	2	29.1	3.05	80
RESS0021	1.07	0.84	<0.5	10.9	0.574	0.52	0.47	2.9	106	2.3	33.5	3.34	70
RESS0022	0.73	0.52	<0.5	8.1	0.452	0.34	0.36	2.1	120	1.3	23.1	2.5	70
RESS0023	0.81	0.72	<0.5	9.9	0.461	0.6	0.42	2.1	150	1.9	26.5	2.81	100
RESS0024	0.92	0.68	<0.5	9.7	0.5	0.47	0.39	2.2	131	3.1	27.9	2.61	90
RESS0025	0.74	0.71	<0.5	9.1	0.393	0.34	0.46	1.9	111	1.7	30.8	2.72	90
RESS0026	0.68	0.61	<0.5	7.6	0.377	0.32	0.37	1.9	86	2	23.8	2.44	70
RESS0027	0.9	0.77	<0.5	9.4	0.487	0.42	0.47	2.5	120	2	30.2	3.04	90
RESS0028	0.91	0.75	<0.5	9.1	0.472	0.41	0.45	2.2	114	1.9	31.5	3.27	120
RESS0029	0.83	0.77	<0.5	8	0.384	0.4	0.44	2.2	117	1.8	31.7	2.91	90
RESS0030	0.96	0.77	<0.5	8.9	0.454	0.45	0.41	2.2	114	1.9	28.5	2.96	90
RESS0031	0.8	0.7	<0.5	8.7	0.427	0.45	0.37	1.9	112	1.7	24.3	2.3	80
RESS0032	0.69	0.61	<0.5	7.8	0.42	0.34	0.39	1.8	97	1.7	22.4	2.53	170
RESS0033	1.08	0.73	<0.5	10.4	0.592	0.45	0.46	2.7	93	2.3	30.1	2.98	60
RESS0034	1.24	0.91	<0.5	11.7	0.604	0.46	0.58	2.6	98	2.5	34.8	3.38	70
RESS0036	0.92	0.87	0.7	9.2	0.419	0.51	0.45	1.9	130	1.7	30.6	2.87	90
RESS0037	1.24	1	<0.5	10.9	0.521	0.49	0.52	2.9	106	2.4	35.1	3.4	70
RESS0038	0.8	0.74	0.5	9.6	0.422	0.58	0.39	2.3	135	2.3	28.5	2.72	100
RESS0039	1.04	0.83	0.9	9.9	0.463	0.54	0.43	2.6	113	2.3	30	3.17	80
RESS0040	0.76	0.78	<0.5	9.1	0.429	0.62	0.43	2.6	110	2.6	27.5	2.76	100
RESS0041	1.03	0.92	<0.5	9.8	0.448	0.45	0.53	2.4	119	2.3	32.7	3.26	80
RESS0042	0.73	0.74	<0.5	8.6	0.368	0.43	0.33	2.1	128	1.7	24.1	2.43	90
RESS0043	0.8	0.82	0.7	9	0.423	0.46	0.41	2	124	1.6	29.9	2.83	90
RESS0044	0.8	0.77	<0.5	8.5	0.352	0.42	0.4	1.9	117	1.7	25.1	2.62	90
RESS0045	0.84	0.92	<0.5	10.6	0.393	0.5	0.42	2.4	124	2.1	29.7	2.82	90
RESS0046	0.78	0.65	<0.5	8.9	0.361	0.78	0.3	2.3	115	2.2	24.5	2.22	120
RESS0047	0.99	0.8	0.6	10.1	0.426	0.43	0.43	2.4	119	2	29.4	2.47	80
RESS0048	0.91	0.62	0.6	7.9	0.364	0.38	0.38	1.8	117	1.5	22.9	2.37	100
RESS0049	2.1	0.61	<0.5	7.1	0.359	0.37	0.36	1.8	90	1.6	22.9	2.56	70
RESS0050	0.85	0.7	0.6	8.5	0.384	0.41	0.38	2	125	2	23.6	2.67	100
RESS0051	1.08	0.75	0.8	10.6	0.368	0.6	0.36	2.3	120	2	28.9	2.79	80
RESS0052	0.94	0.74	0.8	9.1	0.394	0.53	0.36	2.1	128	1.9	28.5	2.85	90
RESS0053	0.72	0.58	0.6	7.2	0.294	0.38	0.29	5.6	85	1.6	21.8	2.22	60
RESS0054	1.3	1.09	0.6	14.1	0.538	0.57	0.51	3.2	127	2.7	38.8	3.95	80

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	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
RESS0055	6	16	85	305	1.9	0.4	0.5	1	54.6	17.7	4.7	30	4.53
RESS0056	<5	20	117	385	2	0.4	1.7	<0.8	56.8	21.9	7.4	130	5.13
RESS0057	<5	17	100	387	1.8	0.5	1.5	<0.8	58.7	24.5	6.4	40	4.92
RESS0058	<5	35	119	382	2.3	0.7	0.4	<0.8	58	21.7	7	30	4.91
RESS0060	7	23	98	411	2.4	0.5	0.4	1	76.1	21	6.7	30	6.4
RESS0061	7	17	110	418	2.6	0.5	0.6	1.1	65.5	20.9	5.6	80	5.65
RESS0062	5	46	145	460	2.5	0.5	0.8	0.9	58.2	26.7	11.5	90	5.22
RESS0063	5	29	114	430	2.4	0.5	2.2	0.9	62.1	23.6	9.6	30	5.11
RESS0064	5	36	92	391	3.1	0.4	0.4	0.8	68.4	31.4	8.3	50	5.7
RESS0065	<5	22	96	363	2.2	0.3	0.1	<0.8	68.1	18.6	5.6	20	5.18
RESS0066	5	46	118	415	2.4	0.6	0.3	0.8	63	23.5	12.3	40	5.51
RESS0067	<5	25	117	366	2.3	0.5	0.3	<0.8	79.9	21.8	4.7	20	6.36
RESS0068	<5	48	128	459	2.9	1	0.5	<0.8	72.1	26.6	12.4	50	6.02
RESS0069	<5	40	105	426	3	0.6	0.4	<0.8	105	34.2	9.7	40	6.96
RESS0070	<5	32	142	461	2.3	0.5	4.5	<0.8	56.2	25.8	9.7	70	4.7
RESS0071	<5	33	104	434	2.7	0.6	0.2	<0.8	83.3	27.2	11.5	50	6.68
RESS0073	6	54	208	525	2.9	1	1.1	1	64.9	34.8	23.7	70	5.33
RESS0074	<5	17	94	420	2.1	0.4	0.4	<0.8	102	19.8	5.2	20	7.72
RESS0075	<5	57	196	504	3.4	1	0.7	<0.8	58.7	28	16.3	110	4.96
RESS0076	<5	16	96	343	2.1	0.2	0.4	<0.8	78.5	16.5	4.4	20	5.56
RESS0077	<5	27	106	442	2.5	0.6	1.1	0.8	62.9	22.4	9	60	5.08
RESS0078	<5	27	103	428	2	0.5	0.7	<0.8	66.9	20.1	9.3	40	5.47
RESS0079	<5	23	94	370	2.2	0.4	0.4	<0.8	64.9	25	7.1	40	4.97
RESS0080	<5	23	92	522	1.9	0.4	6.2	<0.8	53	12.7	7.9	30	3.96
RESS0081	<5	35	95	377	2.2	26	6.9	0.8	50.8	16.4	6.4	30	4.34
RESS0082	<5	24	64	430	2.4	0.6	0.8	<0.8	63.3	19.2	9.9	110	5.1
RESS0083	<5	20	76	357	2	0.5	0.7	<0.8	70.7	19.4	6.5	70	5.34
RESS0084	<5	14	61	472	1.9	0.3	1.5	<0.8	50.7	14.3	6.7	30	4.52
RESS0085	<5	22	151	336	1.9	0.7	2.8	<0.8	45.5	23.6	10.1	70	3.89
RESS0086	<5	53	140	450	2.7	0.7	0.5	<0.8	70.9	26.9	15.4	80	6.49
RESS0087	<5	42	156	456	2.7	0.6	0.4	0.8	82.7	33	12.3	50	6.57
RESS0088	<5	21	105	423	2.3	0.4	0.4	<0.8	86.3	14.9	6	30	6.81
RESS0089	<5	49	149	469	2.4	0.7	0.6	<0.8	62.5	31.1	15.1	110	5.3
RESS0090	<5	29	99	430	2.3	0.5	0.6	<0.8	75.1	23.9	11.3	50	5.8
RESS0091	<5	17	104	392	1.6	0.4	0.2	<0.8	95.6	21.5	5.1	20	6.68
RESS0092	<5	20	106	364	2.7	0.4	10.5	<0.8	46.1	17.8	12	50	4.13
RESS0093	<5	19	101	399	2.2	0.4	0.4	<0.8	90.1	15.3	6.6	20	7.21
RESS0094	<5	24	112	399	2.3	0.7	0.3	<0.8	67.8	22.6	8.6	50	5.63
RESS0095	<5	29	97	433	2.7	0.5	0.4	<0.8	84.8	22.3	7.6	30	6.56
RESS0097	<5	22	104	386	2.2	0.5	0.4	<0.8	77.1	18.1	8.1	30	6.92
RESS0098	<5	12	81	280	1.4	0.3	0.9	<0.8	47.2	19.6	3.8	30	4.5
RESS0099	<5	10	71	290	1.4	0.2	2.7	<0.8	40.5	16.4	3.2	120	3.27
RESS0100	<5	15	62	374	2.2	0.4	1.2	<0.8	72.2	15.6	4.9	30	5.88
RESS0101	<5	15	55	427	2.3	0.4	1.1	<0.8	53.7	13.7	7.6	30	4.22
RESS0102	<5	18	53	466	2.7	0.5	0.8	<0.8	65.6	16.8	6.2	30	5.37
RESS0103	<5	18	86	395	2.7	0.5	0.4	<0.8	93	19.9	6	20	6.94
RESS0104	<5	14	54	430	2.1	0.4	0.6	<0.8	50.9	14.2	7	30	4.35
RESS0105	<5	18	83	428	2.1	0.4	0.6	<0.8	90.2	20.2	4.9	30	6.43
RESS0106	<5	15	70	379	1.8	0.3	1.9	0.9	52.1	22.9	4.9	50	4.74
RESS0107	<5	49	182	450	2.9	0.8	0.5	<0.8	77	28.5	12.9	50	5.97
RESS0108	<5	55	234	549	2.9	0.7	0.9	0.8	67.8	33.3	17.6	70	5.38

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	Er	Eu	Fe	Ga	Gd	Ge	Ho	In	K	La	Li	Lu	Mn
	ppm	ppm	%	ppm	ppm	ppm	ppm	ppm	%	ppm	ppm	ppm	ppm
RESS0055	2.88	0.91	3.2	15.2	4.38	1.6	1	<0.3	1.29	25.5	51	0.42	590
RESS0056	3.06	1.13	4.21	18.7	4.76	1.7	1.01	<0.3	1.78	28.5	68	0.36	820
RESS0057	3.04	1.1	4.1	17.8	4.69	1.4	0.96	<0.3	1.79	29.2	58	0.38	890
RESS0058	2.82	1.3	3.79	17.4	4.59	1.8	0.97	<0.3	1.72	28.3	47	0.44	670
RESS0060	3.41	1.64	3.79	17.7	5.83	1.9	1.2	<0.3	1.65	37	50	0.5	890
RESS0061	3.33	1.26	4.1	18	5.42	1.9	1.13	<0.3	1.76	32.4	54	0.51	910
RESS0062	2.86	1.21	4.77	20.6	4.92	2	1.06	<0.3	2.27	28.2	109	0.39	920
RESS0063	2.98	1.15	3.67	18.1	4.75	1.8	0.94	<0.3	1.94	30.2	81	0.38	830
RESS0064	3.44	1.28	4.45	18.2	5.59	1.9	1.08	<0.3	1.37	32.5	59	0.4	940
RESS0065	3.18	1.07	3.26	16.9	4.95	1.7	1.13	<0.3	1.47	33.1	51	0.41	530
RESS0066	2.95	0.99	4.44	20.5	4.98	2.1	1.04	<0.3	1.74	30	62	0.45	550
RESS0067	3.87	1.26	2.89	15.2	6.06	1.8	1.3	<0.3	1.41	38.4	47	0.52	1160
RESS0068	3.64	1.42	4.64	19.9	5.81	2.2	1.25	<0.3	1.85	36.2	101	0.47	1050
RESS0069	4.42	1.8	4.47	19.9	7.85	2	1.4	<0.3	1.61	46.5	71	0.5	970
RESS0070	2.56	0.86	3.77	15	4.35	1.7	0.85	<0.3	1.7	28.6	79	0.34	1370
RESS0071	3.9	1.43	4.63	20.8	6.99	1.7	1.35	<0.3	1.77	42.1	74	0.59	890
RESS0073	3.03	1.31	5.78	22.9	6.03	2	1.06	<0.3	2.53	34.5	145	0.49	1140
RESS0074	4.26	1.83	2.99	15.4	7.47	1.8	1.55	<0.3	1.43	50.7	39	0.59	1300
RESS0075	3.12	1.11	5.6	23.2	5.1	1.9	0.97	<0.3	2.36	31.2	120	0.4	850
RESS0076	3.63	1.26	2.66	13.8	6.17	1.6	1.15	<0.3	1.24	37.4	36	0.48	950
RESS0077	2.61	1.16	4.25	17.2	5.17	1.7	1	<0.3	2.03	30.9	59	0.51	1010
RESS0078	3.18	1.3	4.03	17.9	5.14	1.9	1.14	<0.3	1.62	33.7	57	0.45	950
RESS0079	3	1.04	3.84	17.1	4.95	1.8	1	<0.3	1.53	33.4	53	0.47	1040
RESS0080	2.66	0.97	2.84	14.5	3.92	1.8	0.9	<0.3	1.26	27.2	34	0.38	900
RESS0081	2.08	1.01	3.25	14.3	4.18	1.6	0.85	<0.3	1.2	27.2	44	0.34	880
RESS0082	3.23	1.17	4.21	19.7	5.46	1.8	1.06	<0.3	1.51	32	45	0.43	840
RESS0083	3.58	1.29	3.6	15.9	5.87	1.6	1.18	<0.3	1.3	35.8	43	0.46	890
RESS0084	2.52	1.18	2.97	15.6	4.3	1.4	0.99	<0.3	1.64	25.3	33	0.37	830
RESS0085	2.45	0.85	3.88	14.6	4.03	1.3	0.81	<0.3	1.56	22.8	60	0.28	750
RESS0086	3.54	1.36	5.35	22.7	6.48	1.6	1.37	<0.3	2.05	37.1	95	0.35	880
RESS0087	3.81	1.61	4.79	20.5	6.25	1.5	1.23	<0.3	2.04	39.9	84	0.47	1450
RESS0088	3.99	1.55	3.15	16	7.32	1.7	1.45	<0.3	1.56	44.8	48	0.61	920
RESS0089	3.24	1.47	5.33	22.2	5.9	1.7	1.14	<0.3	2.07	34.3	99	0.39	1000
RESS0090	3.25	1.34	4.36	19.3	5.63	1.8	1.07	<0.3	1.7	38.6	76	0.45	860
RESS0091	3.84	1.48	2.82	14.6	6.79	1.6	1.45	<0.3	1.2	46	37	0.57	710
RESS0092	2.38	1.03	3.14	16	4.35	1.1	0.75	<0.3	1.59	24.2	54	0.36	540
RESS0093	4.21	1.4	3.05	15.4	6.9	1.5	1.27	<0.3	1.45	44.6	47	0.6	980
RESS0094	3.51	1.03	3.78	17.4	5.79	1.4	1.1	<0.3	1.69	34.6	60	0.54	890
RESS0095	3.8	1.51	3.84	17.9	6.35	1.5	1.37	<0.3	1.67	42.5	55	0.59	1090
RESS0097	3.98	1.35	3.58	16.7	6.58	1.5	1.36	<0.3	1.54	39.6	59	0.6	890
RESS0098	2.25	0.87	3.1	11.6	3.85	1.3	0.8	<0.3	1.28	23.9	40	0.36	640
RESS0099	2.12	0.81	2.96	12	3.52	1.2	0.71	<0.3	1.25	21.4	35	0.3	630
RESS0100	3.68	1.36	3.33	14.8	5.85	1.5	1.15	<0.3	1.33	38.2	32	0.47	870
RESS0101	2.51	1.03	2.87	14.6	4.56	1.4	0.77	<0.3	1.68	26.7	31	0.36	670
RESS0102	3.28	1.12	3.16	15.3	5.18	1.6	1.04	<0.3	1.53	30.1	34	0.38	930
RESS0103	3.95	1.6	3.5	16.4	7.34	2	1.46	<0.3	1.31	43.2	42	0.56	860
RESS0104	2.59	0.99	3.52	18.6	4.3	1.8	0.87	<0.3	1.5	25.1	41	0.36	470
RESS0105	4.15	1.59	3.05	14.6	6.68	1.9	1.43	<0.3	1.24	42.9	36	0.52	1400
RESS0106	2.74	1.26	4.16	15.4	4.75	1.6	0.93	<0.3	1.49	25.5	39	0.39	950
RESS0107	3.57	1.55	4.23	17.9	6.13	2	1.29	<0.3	2.01	36	95	0.45	1100
RESS0108	3.07	1.28	4.62	20.5	5.31	1.8	1.06	<0.3	2.66	32.5	126	0.44	1280

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	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
RESS0055	<2	13.7	22.8	110	26.3	6.39	87.7	<0.01	0.9	4	4.86	4	50
RESS0056	<2	12.7	25.8	170	24.8	6.68	106	<0.01	1.5	3	4.8	4	90
RESS0057	<2	12.9	26.8	150	22	6.85	101	<0.01	1.2	6	4.92	4	100
RESS0058	<2	12.5	23.7	150	70	6.63	105.5	<0.01	3.4	3	5.07	4	90
RESS0060	<2	16.3	33.4	130	32	9.07	107	<0.01	1.9	5	6.82	12	80
RESS0061	<2	14.3	29.5	150	24.5	7.77	111	<0.01	1.1	5	5.72	4	70
RESS0062	<2	13	24.8	510	26.8	6.51	129	<0.01	2.4	7	5.54	5	80
RESS0063	<2	14.2	26.3	140	26.7	6.95	116	<0.01	2.4	6	5.42	4	80
RESS0064	<2	13.5	29.5	150	35.2	7.85	102.5	<0.01	2.2	6	5.97	4	70
RESS0065	<2	16.1	29.1	100	28	7.52	91.8	<0.01	1.4	9	5.62	10	70
RESS0066	<2	13.7	25.9	160	53.4	7.34	115	<0.01	3	4	5.71	5	70
RESS0067	<2	18.2	32.4	80	36.2	9.19	90.3	<0.01	1.6	4	6.18	5	90
RESS0068	<2	15.2	32.2	160	33.6	8.66	118	<0.01	3.4	<3	6.93	6	70
RESS0069	<2	18.6	40.6	120	43.9	11.15	118	<0.01	2.6	<3	8.81	7	80
RESS0070	<2	11.5	25.7	160	69.7	7.01	93.2	<0.01	2.2	6	5	5	230
RESS0071	<2	17.7	36	110	36.1	9.77	119.5	<0.01	1.5	<3	7.81	5	70
RESS0073	2	14.1	31.8	230	46.5	7.99	159.5	<0.01	3	7	5.91	5	110
RESS0074	<2	22.5	45.7	60	30	11.9	90.5	0.01	1.6	8	9.22	4	100
RESS0075	<2	13.4	27.1	220	41	7.31	138.5	<0.01	2.7	<3	5.58	5	100
RESS0076	<2	18.9	33.2	60	25.5	9.55	77.9	<0.01	1.7	3	6.74	4	90
RESS0077	<2	13.4	26.5	130	37.8	7.35	109.5	<0.01	2.1	3	5.39	7	90
RESS0078	<2	15.2	29.3	100	34.5	8	110	<0.01	2.1	6	5.87	4	80
RESS0079	<2	15.1	28.4	130	34.7	7.73	96.4	<0.01	1.7	<3	5.42	4	60
RESS0080	<2	12.3	22.7	80	28.4	5.95	88.5	<0.01	1	3	4.89	4	160
RESS0081	<2	148	24.3	100	24.8	6.07	87.4	<0.01	2.3	5	4.43	11	170
RESS0082	<2	14.5	27.9	60	36.1	7.34	112	<0.01	1.7	4	5.83	4	100
RESS0083	<2	16.2	33.7	90	29.8	8.21	91.4	<0.01	1.6	<3	6.34	4	70
RESS0084	<2	11.4	22.1	50	26	5.83	98.4	<0.01	0.9	<3	4.78	4	150
RESS0085	2	9.6	20.9	160	38.7	5.45	87	<0.01	1.8	<3	4.51	4	150
RESS0086	<2	14.8	33.4	190	38.5	9.13	126	<0.01	2.5	<3	6.63	4	60
RESS0087	<2	17.5	34.1	140	45.7	9.42	127.5	<0.01	2.7	5	6.04	9	80
RESS0088	<2	21	38.5	70	30.3	10.05	99.1	<0.01	1.4	4	7.58	4	90
RESS0089	<2	13.7	28.5	200	39	7.54	131.5	<0.01	2.7	<3	5.97	5	70
RESS0090	<2	16.8	32.8	120	37.1	8.92	109.5	<0.01	1.9	5	5.75	4	70
RESS0091	<2	21.5	38.5	70	32.5	10.85	77	<0.01	1.6	<3	7.05	4	80
RESS0092	<2	11.8	22.5	140	18.5	5.89	89.8	<0.01	1.8	4	4.68	12	130
RESS0093	<2	20	39.1	70	28.7	10.75	96.9	<0.01	1.3	<3	7.81	5	90
RESS0094	<2	16.3	29.8	130	34.8	8.16	107	<0.01	2	4	5.83	5	70
RESS0095	<2	19.7	35.8	100	35.6	10.1	112	<0.01	2	3	7.11	5	80
RESS0097	<2	18.3	35.2	90	28.8	9.07	100.5	<0.01	2.3	4	7.49	5	80
RESS0098	<2	11	21	140	17.8	5.82	68	<0.01	1	<3	4.59	4	60
RESS0099	<2	9.7	19.1	120	37.5	4.87	65.1	<0.01	4.1	<3	3.83	4	80
RESS0100	<2	16.1	33.1	60	29.5	8.94	83.2	<0.01	1.6	<3	6.57	5	100
RESS0101	<2	11.2	23.2	40	28.3	6.48	89.6	<0.01	1.2	5	4.88	5	130
RESS0102	<2	13	27.7	50	37.7	7.32	94.4	<0.01	1.3	4	5.33	7	120
RESS0103	<2	20.2	39.8	50	35.7	10.6	88.8	<0.01	1.4	<3	7.38	4	90
RESS0104	<2	12.7	21.7	40	28.3	5.86	97	<0.01	1.1	5	4.75	5	100
RESS0105	<2	18.8	37	50	39.6	10.1	88	<0.01	1.5	4	7.47	4	110
RESS0106	<2	11.9	25.3	120	36.5	6.16	84.6	<0.01	1.3	4	4.9	4	120
RESS0107	<2	15.7	30	150	47.9	8.78	119	<0.01	2.3	7	6.16	5	100
RESS0108	<2	14.3	27.7	190	49.4	7.65	143.5	<0.01	2.7	<3	4.98	10	90

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	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
RESS0055	0.86	0.78	1	8.8	0.408	0.43	0.37	1.9	104	2.1	26.2	2.77	60
RESS0056	0.84	0.72	<0.5	9.4	0.415	0.53	0.42	2.2	127	2	27.9	2.78	100
RESS0057	0.87	0.7	0.6	9.5	0.436	0.52	0.4	2.2	131	1.7	28.4	2.74	90
RESS0058	0.82	0.85	<0.5	9.9	0.416	0.79	0.4	2.5	114	2.3	27.9	2.68	110
RESS0060	1.16	0.9	0.5	11.2	0.468	0.54	0.53	2.6	119	2.3	34.5	3.42	90
RESS0061	0.95	0.91	<0.5	10.5	0.412	0.67	0.45	2.1	122	1.9	32.1	2.87	90
RESS0062	1.76	0.76	0.5	10.1	0.423	0.53	0.46	2.2	144	1.7	29.8	2.91	100
RESS0063	0.96	0.73	0.6	9.6	0.433	0.55	0.42	2.3	123	2.1	28.4	2.62	80
RESS0064	1.78	0.89	0.5	10.5	0.391	0.62	0.45	2	126	2.1	30.4	3.23	80
RESS0065	1.02	0.81	0.6	10.4	0.489	0.53	0.45	2.5	109	2.5	29.8	3.17	70
RESS0066	0.87	0.76	<0.5	10.8	0.447	0.67	0.43	2.5	131	2.2	30.5	3.18	100
RESS0067	1.33	0.93	<0.5	12	0.572	0.54	0.6	3.4	101	2.5	35.4	3.62	70
RESS0068	0.95	1.02	<0.5	11.3	0.448	0.65	0.52	2.3	142	2.4	34.8	3.36	110
RESS0069	1.11	1.24	<0.5	14.1	0.525	0.81	0.58	2.6	133	2.6	39.5	3.67	90
RESS0070	0.77	0.73	<0.5	9.2	0.367	0.41	0.42	2.1	105	1.6	26.9	2.58	110
RESS0071	1.06	1.19	<0.5	12.9	0.514	0.73	0.53	2.6	137	2.4	35.6	3.81	100
RESS0073	1.26	0.89	0.5	11.4	0.414	0.75	0.48	2.3	169	2	32.5	2.85	120
RESS0074	1.44	1.17	<0.5	14.6	0.595	0.57	0.64	3.5	98	2.7	42.9	4.38	70
RESS0075	1.27	0.82	<0.5	11.3	0.412	0.71	0.4	2.2	171	1.8	28.6	3.35	130
RESS0076	1.25	0.9	<0.5	11.7	0.537	0.47	0.53	2.8	93	2.5	34.9	3.61	60
RESS0077	0.84	0.84	<0.5	9.9	0.407	0.64	0.45	2	125	2	29.2	2.95	130
RESS0078	0.9	0.98	<0.5	10.7	0.453	0.61	0.46	2.1	120	2.3	30.7	3.04	90
RESS0079	0.93	0.89	<0.5	10.5	0.462	0.52	0.47	2.2	115	2.2	31.2	3.12	80
RESS0080	1.18	0.72	<0.5	9.8	0.327	0.61	0.39	1.8	76	1.7	24.2	2.41	60
RESS0081	352	0.63	<0.5	10.2	0.327	0.43	0.44	6.7	98	3.3	25.2	2.45	70
RESS0082	0.92	0.87	<0.5	11	0.451	0.71	0.43	2.2	132	2.7	29.4	3.14	90
RESS0083	0.95	1	<0.5	10.7	0.45	0.55	0.46	2.3	106	2.3	33	2.97	90
RESS0084	0.75	0.74	<0.5	8.1	0.381	0.53	0.41	1.9	97	2.4	27.8	2.43	70
RESS0085	0.55	0.64	<0.5	8	0.32	0.42	0.31	2	108	1.6	21.3	2.08	120
RESS0086	0.95	1.02	<0.5	11.1	0.454	0.75	0.54	2.2	155	2.1	36	3.55	120
RESS0087	0.97	1.05	<0.5	12.5	0.506	0.72	0.59	2.6	146	2.6	36.3	3.57	110
RESS0088	1.7	1.14	<0.5	13.2	0.583	0.52	0.64	3.2	107	2.3	40.5	4.1	80
RESS0089	0.95	0.81	<0.5	11.1	0.425	0.71	0.51	2	157	2.1	31.8	3.4	110
RESS0090	0.98	0.95	<0.5	12	0.476	0.63	0.44	2.4	129	2.4	32.6	3.47	110
RESS0091	1.53	1.05	<0.5	13.3	0.616	0.55	0.61	3.2	94	2.6	40.1	3.97	70
RESS0092	16.45	0.7	<0.5	7.9	0.314	0.71	0.34	1.7	99	1.9	24.1	2.29	70
RESS0093	1.22	1.2	<0.5	13	0.566	0.6	0.66	3.1	103	2.6	41.5	4.28	70
RESS0094	0.97	0.94	<0.5	11	0.489	0.62	0.49	2.5	114	2.3	35	3.9	80
RESS0095	1.25	1.05	<0.5	13.1	0.557	0.61	0.54	2.9	123	2.5	36.8	3.95	90
RESS0097	1.67	0.94	<0.5	11.9	0.553	0.53	0.55	2.8	111	2.4	37.3	3.63	80
RESS0098	0.67	0.68	0.5	7.4	0.383	0.35	0.36	1.9	89	1.5	23.2	2.34	80
RESS0099	0.57	0.58	<0.5	7.4	0.358	0.34	0.26	1.5	87	1.5	20.7	2	90
RESS0100	0.99	0.93	<0.5	12	0.5	0.53	0.53	2.5	107	2.2	33.7	3.59	70
RESS0101	0.72	0.71	<0.5	8.9	0.386	0.53	0.38	1.8	88	2	23.9	2.31	70
RESS0102	0.97	0.8	<0.5	11	0.433	0.61	0.47	2.2	109	2.3	28.5	2.65	60
RESS0103	1.52	1.13	<0.5	14.1	0.589	0.56	0.6	3.3	117	2.8	41	4	70
RESS0104	0.98	0.68	<0.5	9	0.407	0.62	0.28	1.9	109	2.9	24.1	2.29	70
RESS0105	1.31	1.11	<0.5	13.6	0.574	0.54	0.53	3.2	106	2.7	38.8	3.98	70
RESS0106	0.78	0.7	<0.5	8.2	0.419	0.38	0.45	2	122	1.8	26.9	2.95	130
RESS0107	1.22	0.99	<0.5	11.5	0.484	0.57	0.52	2.8	131	2.2	35.4	3.78	100
RESS0108	0.95	0.87	<0.5	10.7	0.455	0.7	0.42	2.5	140	2.1	30.2	3.19	130

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	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
RESS0109	<5	24	108	433	2.5	0.5	0.4	<0.8	95.8	18.5	6.5	30	8.2
RESS0110	<5	45	136	403	2.1	0.6	3.1	<0.8	56.7	23.7	13.8	70	5.03
RESS0111	<5	72	111	461	2.6	0.6	0.4	<0.8	57.3	22.9	10.2	60	5.42
RESS0112	5	25	96	400	2.8	0.5	0.5	0.9	75	22.9	9.2	80	6.1
RESS0113	<5	58	142	372	2.2	0.6	0.9	<0.8	47.7	19.3	12	40	4.29
RESS0114	<5	53	112	414	2.2	0.5	0.9	0.8	60.1	25.8	14.4	60	5.04
RESS0115	<5	39	88	443	3	0.5	0.4	<0.8	74.1	26.9	11	80	6.04
RESS0116	<5	34	118	455	2.2	0.5	0.4	<0.8	70.7	25.8	10.3	50	5.98
RESS0117	<5	50	141	488	2.8	0.5	0.3	0.8	60	28.3	12.6	40	5.55
RESS0118	<5	24	110	438	2.2	0.4	0.4	<0.8	93.2	18	6	30	7.43
RESS0120	7	12	97	425	2.2	0.4	0.6	1.2	64.1	22.2	6	40	5.41
RESS0121	<5	19	84	405	2	0.4	6.3	<0.8	57.1	14.3	7.6	30	4.95
RESS0122	<5	24	45	422	2.2	0.3	4.3	<0.8	50.7	12.9	9.7	140	3.82
RESS0123	<5	17	53	448	2.5	0.4	0.5	0.8	61.8	18.3	7.3	30	4.86
RESS0124	<5	15	77	424	2.7	0.5	0.6	1	78.5	19.7	6	30	6.48
RESS0125	<5	17	56	418	2.2	0.4	1.3	<0.8	58.1	14.7	5.8	30	5.02
RESS0127	<5	12	36	455	2.6	0.4	0.8	<0.8	53.4	15	4.2	50	4.73
RESS0128	<5	18	53	478	2.4	0.3	0.7	<0.8	60.2	12.6	5.7	30	5.02
RESS0129	<5	17	63	433	2.4	0.4	0.5	<0.8	71.1	13.2	5.1	30	5.83
RESS0130	<5	17	67	400	2.3	0.4	0.7	<0.8	65	11	5.4	30	5.43
RESS0131	<5	15	49	439	2.2	0.4	0.9	<0.8	65.9	14.4	4.7	30	5.45
RESS0132	<5	20	71	441	2.1	0.4	0.7	<0.8	71.2	12.1	6	30	6.13
RESS0133	<5	24	111	371	2.3	0.4	2.1	<0.8	63.1	16	7.3	50	5.07
RESS0134	<5	15	99	408	2.1	0.4	0.5	<0.8	60.2	21.8	5.8	40	5.25
RESS0135	<5	41	109	447	2.4	0.6	0.4	<0.8	77	28.6	11.1	40	6.54
RESS0136	<5	21	85	453	2.3	0.5	0.5	<0.8	92.3	18.1	6.9	30	6.89
RESS0137	<5	35	92	411	2.7	0.5	0.4	0.8	64.4	22.8	11.2	30	5.64
RESS0138	<5	21	85	416	2.6	0.5	0.4	<0.8	82.2	14	7.7	20	6.48
RESS0139	<5	37	94	412	2.6	0.6	0.8	<0.8	62.7	25.2	12.4	60	5.08
RESS0140	<5	24	86	360	1.8	0.5	0.5	<0.8	70	18.8	6.8	110	5.39
RESS0141	<5	28	79	390	2.3	0.4	0.4	<0.8	81.2	25.6	7.2	120	6.89
RESS0142	<5	22	90	440	2.3	0.5	0.3	<0.8	83.6	19.1	8.6	30	6.57
RESS0143	<5	46	139	409	2.1	1	0.7	<0.8	50.9	26	12.7	70	4.85
RESS0144	<5	25	99	454	2.3	0.5	0.4	<0.8	82.8	17.9	8	30	6.65
RESS0145	<5	62	203	460	2.6	0.8	0.4	0.8	63	26.9	17.8	60	5.19
RESS0146	<5	9	81	381	1.8	0.5	1.3	0.9	54.4	22.3	5.7	40	4.53
RESS0147	<5	19	86	373	1.9	0.4	0.9	<0.8	53.6	20.4	5.6	40	4.8
RESS0148	<5	26	97	410	2.4	0.5	0.6	<0.8	72	20.3	8.8	50	5.56
RESS0149	<5	20	76	421	2.7	0.5	1	<0.8	76.3	17	7.8	30	6.23
RESS0150	5	17	49	389	2	0.5	0.7	0.9	54.4	14.8	7.5	160	4.72
RESS0151	<5	10	58	453	2.3	0.4	0.6	<0.8	75	10.4	4.8	20	6.34
RESS0153	<5	15	44	380	2.8	0.5	1.3	0.9	53.5	15.2	7.5	80	4.49
RESS0154	6	11	30	447	2.1	0.5	0.7	1	52.6	15	6.7	40	4.27
RESS0155	<5	16	39	439	1.9	0.4	0.6	<0.8	60.3	14	5.6	30	4.54
RESS0156	<5	17	45	440	2	0.5	0.6	<0.8	58.4	17.5	6.3	30	5.23
RESS0157	<5	16	46	428	1.7	0.4	0.7	<0.8	58.2	16.3	6.5	40	4.23
RESS0158	<5	19	63	439	2.3	0.5	0.9	<0.8	60.6	18.5	8.4	30	4.65
RESS0159	<5	14	61	436	2.6	0.4	0.8	<0.8	64.9	16.8	6.7	30	5.66
RESS0160	<5	17	72	395	1.9	0.4	0.7	<0.8	55.7	16.1	5.7	30	4.47
RESS0161	<5	81	186	477	2.8	0.9	1	0.8	69.6	33	17.1	60	5.8
RESS0162	<5	52	121	421	2.9	0.7	0.3	1	72	26.2	13	40	5.71
RESS0163	<5	43	95	480	2.6	0.6	0.5	<0.8	77.8	25.1	10	40	6.39
RESS0164	<5	40	115	456	2.6	0.5	1.4	<0.8	69.3	24.1	12.9	60	6.2
RESS0165	<5	61	139	483	2.6	1.1	2.2	<0.8	53.2	30	20.8	60	4.97

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	Er	Eu	Fe	Ga	Gd	Ge	Ho	In	K	La	Li	Lu	Mn
	ppm	ppm	%	ppm	ppm	ppm	ppm	ppm	%	ppm	ppm	ppm	ppm
RESS0109	4.31	1.73	3.26	16	7.28	2.2	1.53	<0.3	1.55	47.4	51	0.59	980
RESS0110	2.78	1.38	4.31	17.5	5.04	1.8	0.98	<0.3	1.92	28.7	87	0.42	790
RESS0111	3.03	1.07	5.04	20.1	5.18	2.3	1.01	<0.3	1.97	29.3	87	0.45	670
RESS0112	3.44	1.31	4	18.1	6.18	2.1	1.32	<0.3	1.65	36.3	56	0.46	870
RESS0113	2.69	1.02	3.9	15.9	4.14	1.9	0.91	<0.3	1.77	23.6	72	0.41	750
RESS0114	3.16	1.27	4.15	18.8	4.94	1.9	1.09	<0.3	1.9	29.8	84	0.47	980
RESS0115	3.55	1.29	4.82	21.1	6.11	2.3	1.15	<0.3	1.6	37.8	65	0.5	960
RESS0116	3.49	1.39	4.23	18.5	5.69	2.2	1.22	<0.3	1.86	34.4	77	0.48	950
RESS0117	3.02	1.06	4.78	22.2	5.18	2.1	1.06	<0.3	2.35	30.3	96	0.43	920
RESS0118	4.27	1.71	3.32	16.4	6.53	2	1.45	<0.3	1.48	45.8	50	0.64	1030
RESS0120	3.53	1.21	3.73	17.1	5.33	2	1.1	<0.3	1.82	30.3	51	0.46	860
RESS0121	3.17	1.12	3.14	14.4	4.88	1.6	0.99	<0.3	1.39	29.5	38	0.35	640
RESS0122	2.15	0.91	3.29	16.1	4.42	1.9	0.87	<0.3	1.56	26.6	38	0.33	510
RESS0123	3	1.12	3.62	17.9	4.93	1.7	1.13	<0.3	1.52	30.9	40	0.44	1060
RESS0124	3.83	1.25	3.39	15.5	5.69	1.7	1.27	<0.3	1.44	37.7	37	0.5	1050
RESS0125	3.08	1.21	3.11	15.2	5.11	1.6	1.11	<0.3	1.44	30.1	34	0.33	870
RESS0127	2.48	1.1	2.96	15.8	4.4	1.7	0.88	<0.3	1.63	25.7	25	0.39	570
RESS0128	3.45	1.32	3.12	16.7	4.96	1.6	1.08	<0.3	1.71	29.4	34	0.38	780
RESS0129	3.72	1.2	3.23	15.7	5.57	1.7	1.15	<0.3	1.45	37.5	36	0.46	830
RESS0130	3.23	1.18	3.05	15.1	5.27	1.8	1.12	<0.3	1.33	33.1	37	0.47	580
RESS0131	3.79	1.21	2.74	13.9	5.04	1.6	1.29	<0.3	1.53	30.9	28	0.51	900
RESS0132	3.57	1.47	3.13	16.1	6.02	1.8	1.3	<0.3	1.41	36.9	36	0.52	750
RESS0133	3.54	1.22	3.26	15.4	5.55	2.1	1.13	<0.3	1.4	32.3	42	0.45	690
RESS0134	3.34	1.14	3.91	17.4	5.18	1.8	1.13	<0.3	1.67	29.7	50	0.46	970
RESS0135	3.45	1.29	4.41	19.5	5.63	1.8	1.22	<0.3	1.69	39.8	78	0.52	1090
RESS0136	3.99	1.54	3.34	16.7	7.43	1.7	1.46	<0.3	1.63	45.4	55	0.59	1130
RESS0137	3.32	1.19	4.11	18.6	5.87	1.9	1.16	<0.3	1.77	32.5	79	0.47	880
RESS0138	3.76	1.35	3.2	15.8	7.59	2	1.46	<0.3	1.69	40.9	51	0.56	730
RESS0139	2.75	1.24	4.13	18.2	5.48	2.1	1.13	<0.3	1.8	33.3	69	0.43	950
RESS0140	2.87	1.19	3.61	16.8	6.19	2	1.18	<0.3	1.49	36.6	54	0.56	780
RESS0141	3.53	1.44	4.01	17.7	7	2.2	1.38	<0.3	1.31	40.2	56	0.54	1070
RESS0142	3.49	1.49	3.73	18.7	7	2	1.38	<0.3	1.87	42.1	61	0.58	890
RESS0143	2.66	1.24	4.12	17	5.04	1.5	0.95	<0.3	2.12	27.7	88	0.45	900
RESS0144	3.86	1.39	3.59	17.2	6.6	2	1.39	<0.3	1.93	41.8	68	0.63	920
RESS0145	2.82	1.16	5	22.2	5.51	1.8	0.99	<0.3	2.56	31.6	138	0.43	880
RESS0146	3	1.13	3.84	16.5	4.69	1.9	1.06	<0.3	1.78	27.1	53	0.44	700
RESS0147	2.77	0.99	4.03	17.1	5.2	1.9	0.94	<0.3	1.74	26.7	58	0.36	1080
RESS0148	3.49	1.28	4.11	19.4	6.56	2.5	1.23	<0.3	1.57	36.6	56	0.42	860
RESS0149	3.36	1.29	3.72	16.6	6.24	2	1.27	<0.3	1.47	37.8	43	0.46	910
RESS0150	2.52	1.05	3.39	16.9	4.78	1.7	0.9	<0.3	1.56	27.4	40	0.29	560
RESS0151	3.3	1.38	2.81	15	6.62	1.6	1.23	<0.3	1.74	37.9	36	0.49	820
RESS0153	2.47	1.1	3.83	17.4	4.92	1.6	0.92	<0.3	1.74	27.1	43	0.37	770
RESS0154	2.47	1.01	3.29	16.8	4.72	2	0.88	<0.3	1.76	24.4	36	0.43	710
RESS0155	2.51	1.11	3.08	16.5	5.15	1.7	0.92	<0.3	1.55	30	33	0.34	570
RESS0156	2.8	1.07	3.45	17.6	4.98	1.9	1	<0.3	1.62	28.6	38	0.4	810
RESS0157	2.42	1.05	3.24	15.2	4.69	1.7	0.91	<0.3	1.58	29	36	0.3	700
RESS0158	2.62	1.03	3.37	16	5.16	1.7	0.97	<0.3	1.68	30.1	45	0.39	940
RESS0159	3.19	1.27	3.2	16.8	6.24	2	1.16	<0.3	1.62	33.6	40	0.44	820
RESS0160	2.87	1.1	3.02	13.9	4.97	1.2	0.94	<0.3	1.73	27.7	38	0.42	840
RESS0161	2.98	1.18	4.91	20.8	5.66	2	1.16	<0.3	2.44	34.3	109	0.48	1170
RESS0162	3.03	1.26	4.2	20.8	5.67	1.8	1.16	<0.3	1.97	33.5	98	0.45	790
RESS0163	3.73	1.43	4.08	18	6.88	2	1.39	<0.3	1.84	41.2	65	0.56	1170
RESS0164	3.31	1.41	4.61	21.3	6.05	2.3	1.26	<0.3	1.91	36.5	86	0.49	860
RESS0165	2.4	1.03	4.92	20.7	5.07	1.9	0.93	<0.3	2.19	29	103	0.45	960

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	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
RESS0109	<2	21.6	39.3	80	36.6	10.75	110	<0.01	1.7	<3	8.25	8	100
RESS0110	<2	12.8	26.9	190	35.6	7.06	113	<0.01	3.5	<3	5.55	5	90
RESS0111	<2	12.4	27.1	190	28.5	7.06	118.5	<0.01	2.9	5	5.18	5	60
RESS0112	<2	17.4	32	120	37.2	8.93	104.5	<0.01	2.4	<3	6.69	5	80
RESS0113	<2	11.3	21.6	190	29.4	5.77	96.4	<0.01	6.3	3	4.61	4	90
RESS0114	<2	13.5	25.7	170	31	7.03	109	<0.01	2.4	<3	5.23	4	90
RESS0115	<2	15.5	32.8	130	43.9	8.64	116.5	<0.01	3.1	4	6.37	9	60
RESS0116	<2	15.5	31.7	150	36.5	7.9	117.5	<0.01	2.5	5	6.88	4	70
RESS0117	<2	14.5	24.8	200	37.9	6.88	142	<0.01	2.7	3	5.49	11	80
RESS0118	<2	20.9	40.7	90	33.2	11.05	97.4	<0.01	2	4	7.15	8	90
RESS0120	<2	15	27.4	140	25.2	7.73	103.5	<0.01	1.2	4	6.06	14	70
RESS0121	<2	12.4	26.6	60	20.1	6.96	85.4	<0.01	1.3	<3	5.22	4	170
RESS0122	<2	10.7	24	40	28.2	6.2	96.9	<0.01	1.3	<3	4.74	3	180
RESS0123	<2	14.7	25.5	50	35.5	7.12	102	<0.01	1.4	<3	5.13	11	100
RESS0124	<2	17.3	31.9	60	35.1	8.95	94	<0.01	1.9	5	6.69	4	110
RESS0125	<2	12.6	25.3	50	27.4	7.13	91.8	<0.01	0.9	3	5.76	3	110
RESS0127	<2	12.1	24.5	40	26.8	6.49	86.2	<0.01	1.1	<3	4.57	10	170
RESS0128	<2	13.7	24.3	40	30.5	6.68	101.5	<0.01	1	<3	5.12	4	130
RESS0129	<2	17	31.8	50	36	8.27	97.4	<0.01	1.5	6	6.29	5	100
RESS0130	<2	15.6	30.1	40	35.5	7.98	94.2	<0.01	1.5	7	5.77	9	120
RESS0131	<2	13.2	28.2	40	29.4	7.55	88.3	<0.01	1.3	5	5.86	3	140
RESS0132	<2	16.8	31.7	50	30.3	8.91	100	<0.01	1.2	3	6.22	3	120
RESS0133	<2	16.1	29.5	70	29.3	7.71	89.2	<0.01	1.6	4	5.72	<3	120
RESS0134	<2	14	27	130	26.8	6.85	106	<0.01	1.2	7	5.23	10	70
RESS0135	<2	18	33.4	130	51.1	8.89	117.5	<0.01	2.5	<3	6.49	5	80
RESS0136	<2	20.5	42.8	80	33.9	10.7	103	<0.01	1.7	<3	8.64	7	90
RESS0137	<2	15.3	30.2	120	36.7	7.57	112.5	<0.01	2.4	<3	5.8	6	70
RESS0138	<2	19.4	39.7	90	28.5	9.73	105	0.01	2.1	4	6.7	5	80
RESS0139	<2	14.7	30.3	150	41.3	7.26	110.5	<0.01	2.8	<3	5.91	11	50
RESS0140	<2	17.4	35.2	100	32.6	8.12	93	<0.01	2.5	<3	5.79	11	70
RESS0141	<2	18.6	38.7	90	37.8	8.99	94.5	0.01	2	<3	6.62	9	70
RESS0142	<2	19.9	37.9	100	30.9	9.59	114.5	<0.01	2.3	<3	7.12	11	80
RESS0143	<2	12	25	190	46.2	6.18	115.5	<0.01	4.5	<3	4.82	9	60
RESS0144	<2	20.2	37.7	80	33.7	9.26	118.5	<0.01	1.5	<3	6.89	6	80
RESS0145	2	14.1	29.7	190	45.3	7.35	137.5	<0.01	2.7	<3	5.66	11	80
RESS0146	<2	13.9	24.1	130	21.3	6.26	98.9	<0.01	1	<3	4.93	6	80
RESS0147	<2	13	24.7	130	22.6	6.29	94.2	<0.01	1.4	<3	4.41	6	70
RESS0148	<2	17.5	33.7	80	33.2	8.16	112.5	0.01	1.6	<3	6.13	11	80
RESS0149	<2	17.3	37.6	60	32.5	8.39	100.5	<0.01	1.4	3	5.85	9	110
RESS0150	<2	14	24.8	40	32.6	6.19	90.5	<0.01	1.4	<3	4.52	5	90
RESS0151	<2	18.2	35.8	40	25.2	8.77	96.5	<0.01	1	3	6.31	10	110
RESS0153	<2	11.5	26.2	40	29	6.46	105.5	<0.01	1.5	<3	5.4	5	100
RESS0154	<2	11.7	23.1	30	33	5.81	96.7	<0.01	1.4	<3	4.55	13	120
RESS0155	<2	13.4	28.7	40	26.8	6.9	91.5	<0.01	1.3	4	5.54	10	100
RESS0156	<2	13.8	27.6	40	31.9	6.43	97.7	<0.01	1.5	<3	5.58	9	100
RESS0157	<2	13.1	27.8	40	31.2	6.5	86.6	<0.01	1.4	3	5.12	6	90
RESS0158	<2	14.2	28.2	60	35.4	6.58	95.8	0.02	1.5	<3	4.94	5	110
RESS0159	<2	14.3	31.9	50	24.3	7.44	91.5	0.01	1.1	<3	6.27	5	110
RESS0160	<2	14.8	27.2	90	25.1	5.81	88.8	0.01	1.4	<3	3.83	6	80
RESS0161	<2	15.4	31.7	190	54.7	7.71	136.5	0.01	4	3	5.25	9	90
RESS0162	<2	16.2	31.3	140	57.9	8.07	124.5	<0.01	2.3	<3	5.1	7	60
RESS0163	<2	19.2	35.1	110	40.6	8.5	117	<0.01	2.3	3	6.7	6	90
RESS0164	<2	18.1	35.1	140	35.8	7.84	117	<0.01	2.2	<3	5.31	6	100

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	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
RESS0109	1.43	1.24	<0.5	14.4	0.634	0.58	0.71	3.8	115	3	43.4	4.16	80
RESS0110	0.77	0.83	<0.5	9.7	0.392	0.6	0.4	2.1	124	1.9	28.9	2.73	130
RESS0111	0.81	0.8	<0.5	9.9	0.413	0.55	0.43	2.1	143	1.9	29.3	2.8	100
RESS0112	1.13	1.01	0.6	11.5	0.504	0.62	0.5	2.6	120	2.3	34.3	3.56	120
RESS0113	0.76	0.72	<0.5	9	0.384	0.52	0.34	2.2	110	1.9	25.5	2.54	110
RESS0114	0.93	0.88	<0.5	10	0.442	0.56	0.47	2.3	127	2	29.2	2.96	120
RESS0115	1.04	0.99	<0.5	11.7	0.473	0.71	0.56	2.4	141	2.5	35	3.23	120
RESS0116	1.2	0.95	<0.5	10.8	0.467	0.59	0.52	2.5	130	2.2	34	3.49	100
RESS0117	0.96	0.82	<0.5	10.2	0.463	0.74	0.42	2.6	149	2.3	30.3	2.95	120
RESS0118	1.4	1.21	<0.5	13.5	0.616	0.49	0.63	3.4	113	2.7	42.1	3.73	80
RESS0120	1.03	0.87	<0.5	9.8	0.475	0.41	0.44	2.6	119	2	30.6	3.21	90
RESS0121	0.85	0.83	<0.5	9.6	0.384	0.43	0.38	2	99	2.2	26.8	2.59	70
RESS0122	0.73	0.72	<0.5	9.2	0.35	0.59	0.31	1.9	104	2.4	22.8	1.88	90
RESS0123	1	0.83	<0.5	10.2	0.483	0.6	0.44	2.5	123	2.9	29.8	2.93	80
RESS0124	1.16	0.96	<0.5	12.1	0.51	0.55	0.54	2.8	115	2.4	37.9	3.78	80
RESS0125	0.78	0.79	<0.5	9.2	0.392	0.56	0.37	2	103	2.3	28.4	2.78	80
RESS0127	0.86	0.74	<0.5	8.6	0.412	0.5	0.41	2.4	104	1.9	26	2.83	70
RESS0128	0.85	0.87	<0.5	10	0.448	0.51	0.42	2.4	109	2.3	28.2	2.66	70
RESS0129	1.17	0.98	<0.5	11.6	0.503	0.55	0.46	2.8	111	2.6	34.8	3.36	80
RESS0130	1.05	0.93	<0.5	10.7	0.48	0.47	0.48	3.4	107	2.3	31	3.11	70
RESS0131	0.84	0.91	<0.5	10.9	0.435	0.41	0.48	2.7	93	2.1	35	3.67	50
RESS0132	1.11	1	<0.5	11.8	0.511	0.51	0.52	2.9	105	2.4	36.4	3.46	60
RESS0133	1.04	0.91	<0.5	10	0.455	0.55	0.5	2.2	100	1.8	33.3	3.21	70
RESS0134	0.9	0.92	<0.5	9.5	0.446	0.44	0.49	2.4	127	2.1	31.4	3	100
RESS0135	1.08	0.94	<0.5	12.2	0.543	0.59	0.47	2.9	138	2.7	35.4	3.44	90
RESS0136	1.36	1.27	<0.5	12.7	0.621	0.66	0.59	3.6	106	2.6	40.1	3.94	80
RESS0137	1.02	0.98	<0.5	9.6	0.489	0.66	0.49	2.4	121	2	31.6	3.48	90
RESS0138	1.23	1.13	<0.5	11.1	0.616	0.56	0.61	3	105	2.7	39.7	4.06	80
RESS0139	0.96	0.94	<0.5	9.4	0.494	0.69	0.4	2.2	120	2.4	30.7	2.58	100
RESS0140	1.26	0.86	<0.5	10.1	0.561	0.59	0.49	2.7	109	2.2	34.9	3.24	90
RESS0141	1.27	1.12	<0.5	11	0.538	0.62	0.6	2.8	121	2.4	37.7	3.76	80
RESS0142	1.28	1.1	<0.5	11.6	0.618	0.71	0.63	3	118	2.8	37.4	3.83	90
RESS0143	0.79	0.67	<0.5	8	0.398	0.69	0.42	2	111	2	26.8	2.41	110
RESS0144	1.22	1.12	<0.5	11.7	0.606	0.72	0.59	3.2	119	2.6	38.7	3.9	80
RESS0145	1.03	0.94	<0.5	9.2	0.445	0.74	0.43	2.4	146	4.8	27.3	2.76	120
RESS0146	0.88	0.8	<0.5	8.5	0.444	0.45	0.41	2.1	116	1.9	28.6	2.93	90
RESS0147	0.77	0.88	<0.5	8	0.431	0.47	0.44	2.1	111	1.8	27.7	2.59	90
RESS0148	1.16	1.05	<0.5	10.4	0.508	0.74	0.47	2.5	119	2.4	32.9	3.38	90
RESS0149	1.06	0.98	<0.5	10.8	0.509	0.54	0.49	2.6	116	2.4	35.5	3.47	80
RESS0150	0.82	0.72	<0.5	8.4	0.421	0.64	0.43	2	108	2.4	24.1	2.54	90
RESS0151	1.13	0.94	<0.5	10.7	0.559	0.58	0.57	2.8	94	2.4	34.5	3.59	70
RESS0153	0.76	0.79	<0.5	8.9	0.408	0.65	0.44	2	126	2.9	26.5	2.58	80
RESS0154	0.69	0.75	<0.5	8.5	0.383	0.62	0.36	2	110	2.5	24.8	2.29	60
RESS0155	0.84	0.67	<0.5	9.2	0.452	0.51	0.43	2.2	92	2.2	25.3	2.69	60
RESS0156	0.76	0.79	<0.5	9.3	0.448	0.63	0.37	2.2	110	2.6	25.8	2.64	60
RESS0157	0.79	0.77	<0.5	8.8	0.439	0.57	0.37	2	102	2.4	24.6	2.5	80
RESS0158	0.98	0.84	<0.5	9.2	0.448	0.67	0.43	2.2	106	2.4	27.7	2.63	90
RESS0159	0.91	0.97	<0.5	9.2	0.47	0.49	0.48	2.3	100	2.4	32.8	3.32	80
RESS0160	0.92	0.73	<0.5	7.9	0.453	0.48	0.42	2.3	98	2	26.7	2.61	90
RESS0161	0.94	0.87	<0.5	10.1	0.457	0.7	0.41	2.3	144	2	31.8	3.28	110
RESS0162	1.08	0.86	<0.5	10.2	0.513	0.67	0.44	2.5	127	2.2	30	3.29	100
RESS0163	1.24	1.09	<0.5	11.1	0.581	0.69	0.58	2.9	129	2.8	36.5	3.81	110
RESS0164	1.25	0.97	<0.5	10.6	0.53	0.69	0.51	2.6	131	2.1	31.2	3.43	100
RESS0165	0.75	0.75	<0.5	9.1	0.381	0.94	0.35	2.3	147	2	26.6	2.69	130
RESS0165	<2	11.3	25.8	240	57.8	6.27	136.5	<0.01	4.6	<3	4.84	6	150

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	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
RESS0166	<5	20	68	422	2.2	0.6	0.8	<0.8	68.2	21.3	9.4	40	5.79
RESS0167	<5	16	58	417	2.2	0.3	2.4	<0.8	56.5	15.2	7.2	50	4.81
RESS0168	<5	21	74	399	2.2	0.4	0.5	<0.8	89.2	15.8	5.7	30	6.87
RESS0169	<5	21	65	412	2.8	0.5	0.5	0.8	83.1	17.6	6.5	30	6.64
RESS0170	<5	28	141	458	2.4	0.7	0.7	0.9	57.7	19.2	14.7	50	5.07
RESS0171	<5	19	96	407	2.5	0.5	0.5	<0.8	61.8	18	7.7	40	5.48
RESS0172	<5	14	76	391	2.6	0.4	0.4	<0.8	77.3	18.9	5.9	30	6.1
RESS0173	<5	16	67	433	2.4	0.5	0.5	<0.8	73.9	13.5	6.5	20	5.92
RESS0174	5	11	25	488	2.4	0.5	0.8	<0.8	47.6	13.7	4.7	110	3.73
RESS0175	<5	14	41	460	2.8	0.3	0.6	<0.8	60.2	14.1	6.6	20	4.63
RESS0176	<5	15	66	408	1.9	0.4	0.5	<0.8	77.7	10.7	4.7	20	6.23
RESS0177	<5	13	42	442	1.9	0.4	0.7	<0.8	52.9	14.1	6.1	20	4.57
RESS0179	<5	27	80	440	2.4	0.5	0.6	<0.8	74.9	20.6	10.5	40	6.03
RESS0180	<5	15	85	375	1.9	0.5	0.4	<0.8	62.4	14.6	5.5	30	5.96
RESS0181	<5	33	93	440	2.3	0.6	0.6	<0.8	58.5	17.5	11.2	40	5.35
RESS0182	<5	22	83	279	1.5	0.4	15.3	<0.8	36.9	11	11.1	40	2.86
RESS0183	9	13	61	400	2.1	0.4	0.5	0.8	59.7	16.1	5.8	20	4.91
RESS0184	<5	20	48	423	2.4	0.4	0.6	<0.8	56.3	15.9	8	30	4.4
RESS0185	<5	19	59	392	2.6	0.5	0.9	<0.8	57.5	16.9	9.3	40	5.2
RESS0186	<5	18	67	367	2.4	0.4	0.5	<0.8	65.8	17.8	8.4	30	5.06
RESS0187	5	21	48	460	2.4	0.5	1.1	1	60	16.7	8.9	140	5.64
RESS0188	<5	15	55	396	2.3	0.5	0.5	<0.8	66.6	13.6	7.8	30	6.04
RESS0190	<5	14	46	428	1.9	0.4	0.6	<0.8	53.6	16.1	6.5	30	4.13
RESS0191	<5	16	49	379	1.8	0.4	0.8	<0.8	49.2	13.3	7.2	30	4.17
RESS0192	<5	44	149	436	2.4	0.7	0.9	<0.8	53.9	23.8	17	50	4.45
RESS0193	<5	13	89	430	1.9	0.3	0.5	<0.8	54.3	21.4	6.4	40	5.15
RESS0194	<5	20	86	425	1.9	0.5	0.5	<0.8	69.7	16.6	7.8	30	5.71
RESS0195	5	19	61	413	2.2	0.5	2.1	<0.8	52.4	15.1	9	40	4.41
RESS0196	<5	10	32	419	1.9	0.3	1.2	<0.8	50	10.7	4.7	20	4.27
RESS0197	<5	15	53	415	2.2	0.4	0.4	<0.8	58.6	14.9	7	20	4.38
RESS0198	<5	13	69	404	1.7	0.3	0.5	<0.8	75	10.2	5.3	20	5.83
RESS0199	<5	16	68	368	1.7	0.4	0.5	<0.8	75.2	8.9	4.8	20	6.93
RESS0200	<5	14	45	457	2.1	0.4	0.7	<0.8	50.4	12.1	7	30	4.94
RESS0201	<5	45	146	438	2.6	0.8	0.8	<0.8	53.1	22.9	19.2	50	3.91
RESS0202	<5	14	51	426	2.1	0.4	0.6	<0.8	60.3	14.5	6.2	20	4.71
RESS0203	7	18	58	426	2.3	0.5	0.6	1.1	78.5	16.4	6.3	30	6.07
RESS0204	<5	14	36	468	2.8	0.4	0.6	<0.8	51.7	15.3	6.6	30	4.24
RESS0205	5	18	71	431	2.4	0.5	0.4	<0.8	69.6	12.5	5.4	20	5.57
RESS0206	<5	16	54	486	2.3	0.4	0.5	<0.8	60.2	14.9	6.2	30	5.06
RESS0207	8	52	140	539	3	0.7	0.6	1.1	80.3	25	14.1	40	5.65
RESS0208	6	13	76	407	2.2	0.5	0.6	0.9	56.8	20.9	6.2	40	5.02
RESS0209	<5	21	69	423	2.6	0.4	0.5	0.8	73.3	13.1	5.3	20	6.06
RESS0210	6	15	51	421	2.8	0.5	0.6	0.9	65.7	17.1	6.4	30	5.39
RESS0211	5	18	58	371	2.6	0.4	0.5	<0.8	73.9	11.8	4.7	20	5.91
RESS0212	6	14	62	426	1.9	0.5	0.5	1	81.5	16	4.7	20	6.6
RESS0213	6	15	28	460	2.3	0.5	0.7	1	53.1	9.8	5.9	20	4.17
RESS0214	6	16	64	429	2.1	0.5	0.5	1	84.2	19.1	5.7	40	6.44
RESS0216	5	12	82	405	2.4	0.4	0.9	0.8	55.5	21.7	5.8	40	5.07
RESS0217	6	14	67	449	2.5	0.4	0.7	0.8	66.8	14.5	6.1	30	5.22
RESS0218	6	27	43	253	0.8	0.4	9.9	1.1	33.6	11.2	3	30	2.45
RESS0219	<5	17	59	435	2.9	0.5	0.6	<0.8	68.5	15.9	7.4	30	6.18
RESS0220	5	8	34	250	1.4	0.3	3.8	1	30.6	26.5	3.1	90	4.26
RESS0221	7	15	65	421	2.4	0.4	1	1	60.9	14.4	5.2	30	5.15
RESS0222	6	13	43	467	2.6	0.6	1.1	0.9	60.9	18.9	7.9	40	5.07

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	Er	Eu	Fe	Ga	Gd	Ge	Ho	In	K	La	Li	Lu	Mn
	ppm	ppm	%	ppm	ppm	ppm	ppm	ppm	%	ppm	ppm	ppm	ppm
RESS0166	3.22	1.4	4.07	18.9	5.74	2	1.13	<0.3	1.53	34.9	45	0.44	1000
RESS0167	2.67	1.03	3.3	15.5	4.69	1.9	0.96	<0.3	1.59	28	38	0.35	840
RESS0168	4.11	1.55	3.32	16.2	7.19	1.6	1.38	<0.3	1.39	43.7	43	0.59	930
RESS0169	3.97	1.4	3.35	16	6.89	1.7	1.38	<0.3	1.34	42.2	47	0.57	1130
RESS0170	3.22	1.14	3.96	18.1	5.42	1.6	1.06	<0.3	2.23	31.8	93	0.41	750
RESS0171	3.12	1.06	3.98	18	5.1	1.6	1.16	<0.3	1.76	33.6	68	0.46	750
RESS0172	3.84	1.35	3.22	15.4	6.27	2	1.2	<0.3	1.4	43.7	43	0.42	1070
RESS0173	3.75	1.31	3.11	15.5	6.51	1.8	1.27	<0.3	1.57	40	41	0.53	870
RESS0174	2.11	0.86	2.4	14.7	3.97	1.5	0.74	<0.3	1.71	27.3	25	0.25	390
RESS0175	3.17	1.04	2.96	14.7	4.81	1.6	0.94	<0.3	1.65	32.1	35	0.44	1210
RESS0176	3.6	1.2	2.86	13.8	6.57	1.6	1.24	<0.3	1.39	43.4	35	0.56	800
RESS0177	2.61	0.85	2.82	15.2	4.3	1.5	0.8	<0.3	1.65	27.2	34	0.4	1110
RESS0179	3.43	1.3	3.8	15.8	6.54	1.8	1.25	<0.3	1.65	40.3	56	0.46	1080
RESS0180	3.24	1.07	3.07	14.9	5.64	1.6	1.14	<0.3	1.59	35	58	0.48	640
RESS0181	2.96	0.92	3.88	17.6	5.15	1.8	1.03	<0.3	1.82	32.6	68	0.4	760
RESS0182	1.84	0.71	2.57	11.9	3.33	1.8	0.62	<0.3	1.21	19.55	47	0.24	570
RESS0183	3.42	1.07	3.02	14.8	5.29	1.6	0.94	<0.3	1.5	33.3	36	0.45	1020
RESS0184	2.69	1.17	3.43	16.7	5.26	1.9	1.03	<0.3	1.57	31.2	41	0.4	800
RESS0185	2.81	1.12	3.92	17	5.41	1.6	1.01	<0.3	1.68	33.3	43	0.4	810
RESS0186	2.89	1.01	3.61	16.7	5.81	1.8	1.08	<0.3	1.48	36.3	42	0.39	770
RESS0187	3.09	1.08	3.9	18.7	5.4	1.9	1.06	<0.3	1.8	30.8	47	0.43	720
RESS0188	3.49	1.18	3.59	16.3	6.26	2.1	1.16	<0.3	1.58	35.5	43	0.51	710
RESS0190	2.56	0.95	3.12	15.4	4.33	1.8	0.85	<0.3	1.61	29	35	0.42	1020
RESS0191	2.7	0.96	3.17	14.7	4.78	1.5	0.85	<0.3	1.56	26.8	41	0.37	520
RESS0192	2.74	0.99	4.32	18.9	4.36	1.7	0.82	<0.3	2.25	32.1	117	0.45	920
RESS0193	2.85	1.28	3.83	16.9	4.83	1.9	1.04	<0.3	1.98	29	56	0.45	880
RESS0194	3.4	1.21	3.09	15.5	5.74	2	1.23	<0.3	1.73	37.1	51	0.55	930
RESS0195	2.45	0.98	3.42	17.2	4.59	1.5	0.8	<0.3	1.66	28	46	0.34	760
RESS0196	2.82	0.92	2.58	12.7	4.88	1.5	0.98	<0.3	1.7	28.1	25	0.43	680
RESS0197	2.9	0.92	3.05	16.2	4.51	1.7	0.89	<0.3	1.62	35.4	35	0.39	1060
RESS0198	3.64	1.23	2.71	14.2	6.31	1.6	1.17	<0.3	1.52	41.6	34	0.5	660
RESS0199	4.25	1.29	2.71	13.4	6.99	1.7	1.34	<0.3	1.43	42	33	0.61	650
RESS0200	2.84	0.95	2.79	14.9	4.65	1.8	1.02	<0.3	1.77	27.2	34	0.47	800
RESS0201	2.87	1.1	4.32	18.6	4.71	1.7	0.91	<0.3	2.41	29.5	106	0.31	900
RESS0202	2.68	1.04	2.93	15.1	4.59	1.4	0.94	<0.3	1.7	30.4	43	0.36	910
RESS0203	3.37	1.34	3.28	16.6	5.79	2.2	1.18	<0.3	1.5	40.6	48	0.47	900
RESS0204	2.52	0.97	3.43	17.3	4.1	1.8	0.82	<0.3	1.57	27.1	39	0.38	670
RESS0205	3.88	1.3	3.04	15.8	6.02	1.9	1.25	<0.3	1.51	39.5	42	0.56	830
RESS0206	3.19	0.99	3.26	17	5.52	1.9	1.07	<0.3	1.62	31.8	46	0.4	1020
RESS0207	3.47	1.48	4.39	20.8	5.93	2.2	1.27	<0.3	2.51	40	89	0.39	1110
RESS0208	3.51	1.02	3.69	16.7	5.35	1.7	1.07	<0.3	1.72	29.1	54	0.45	750
RESS0209	4.19	1.4	2.96	15.5	5.89	2	1.21	<0.3	1.53	38.5	42	0.51	830
RESS0210	3.11	1.35	3.43	17.1	5.88	1.7	1.08	<0.3	1.51	32.7	42	0.5	880
RESS0211	3.19	1.3	2.81	13.8	6.01	2.1	1.27	<0.3	1.13	38	33	0.5	810
RESS0212	4.19	1.38	2.89	14.3	6.12	1.8	1.34	<0.3	1.29	42.6	34	0.52	1150
RESS0213	2.33	1.12	2.91	16	4.19	1.4	0.65	<0.3	1.6	28.1	27	0.4	450
RESS0214	4.03	1.43	3.28	16.7	6.59	2	1.3	<0.3	1.36	40.9	40	0.54	1040
RESS0216	3.14	1.18	3.74	16.9	5.18	1.7	1.05	<0.3	1.74	29.9	50	0.43	780
RESS0217	3.6	1.25	3.19	17.4	5.53	2	1.03	<0.3	1.57	33.5	49	0.41	810
RESS0218	1.45	0.63	2.06	8.9	2.47	1	0.52	<0.3	0.98	16.9	22	0.17	670
RESS0219	3.23	1.29	4.04	19.8	5.92	1.8	1.14	<0.3	1.55	38.7	43	0.49	500
RESS0220	2.76	0.98	4.57	15.1	4.1	1.2	0.88	<0.3	0.95	15.45	19	0.35	1400
RESS0221	3.01	1.07	3.23	15.7	4.85	1.7	1.02	<0.3	1.64	31.3	40	0.43	750
RESS0222	2.76	1.09	3.54	17.5	4.85	1.6	0.98	<0.3	1.48	28.9	37	0.34	1130

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	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
RESS0166	<2	15.8	31.4	70	34.8	7.26	103	<0.01	1.6	<3	6.39	6	90
RESS0167	<2	12.7	26.9	50	30.9	6.54	90.1	<0.01	1.2	<3	5.1	3	120
RESS0168	<2	21.5	40.6	60	30.8	9.93	91.3	<0.01	1.4	<3	7.84	4	100
RESS0169	<2	19.4	37.4	60	36.9	10.1	90.3	<0.01	1.5	3	6.99	8	90
RESS0170	<2	14.1	26.4	130	37.1	7.69	129	<0.01	2	3	5.73	4	90
RESS0171	<2	15.4	28.6	110	28.8	7.76	107.5	<0.01	1.8	<3	5.87	4	80
RESS0172	<2	17.9	34.3	60	33.4	9.69	88.9	<0.01	1.4	6	7.33	5	80
RESS0173	<2	17.6	35.5	40	30.5	9.75	99.9	<0.01	1.3	4	6.82	4	90
RESS0174	<2	10.1	20.6	50	30.9	6.03	80.4	<0.01	1.3	5	3.79	4	150
RESS0175	<2	13	26.4	40	37	7.5	103	<0.01	1.8	<3	5.21	4	100
RESS0176	<2	18.3	37.5	50	27.7	10.4	87.6	<0.01	1.4	<3	6.78	5	90
RESS0177	<2	12.2	24.5	40	36	6.62	95.6	<0.01	1	<3	4.56	4	100
RESS0179	<2	17.5	34.2	90	38.1	9.35	108.5	<0.01	1.7	<3	7.04	6	80
RESS0180	<2	16.5	28.7	80	27.9	7.85	96.5	<0.01	1.5	3	5.65	4	70
RESS0181	<2	13.8	27.6	100	41.1	7.33	121	<0.01	1.9	4	5.49	5	90
RESS0182	<2	9.2	17.8	60	20.3	4.44	68.5	<0.01	1.4	4	3.18	4	210
RESS0183	<2	15.2	26.2	50	29.2	7.91	89.2	<0.01	1.2	5	4.9	10	90
RESS0184	<2	14.3	25.4	50	30.7	7.02	97.4	<0.01	1.3	<3	5.85	4	100
RESS0185	<2	14.3	29.6	60	27.7	7.65	105	<0.01	1.4	<3	6.07	9	80
RESS0186	<2	15.8	31	60	33.5	8.33	96.9	<0.01	1.5	<3	6	5	70
RESS0187	<2	15	28.5	50	29.8	7.61	107	<0.01	1.4	<3	5.84	9	100
RESS0188	<2	14.6	32	50	28.6	8.85	99.1	<0.01	1	3	6.4	5	90
RESS0190	<2	13.5	24.1	40	32.3	6.35	97	<0.01	1.5	<3	4.51	7	100
RESS0191	<2	11.4	23.4	40	26.6	6.57	85.3	<0.01	1.1	<3	4.74	4	90
RESS0192	<2	12.5	25.9	150	47.5	6.79	128.5	<0.01	2.3	<3	4.62	5	110
RESS0193	<2	14.3	25.9	140	24.2	6.91	110.5	<0.01	1	<3	4.33	5	60
RESS0194	<2	18	30.8	70	35.2	8.5	101.5	<0.01	1.7	<3	6.3	4	100
RESS0195	<2	12.5	25.6	60	27.3	6.64	102.5	<0.01	1.2	<3	4.33	5	140
RESS0196	<2	10.8	22.8	30	26	6.55	82.6	<0.01	1.2	<3	4.93	4	130
RESS0197	<2	15.4	27.1	50	30.2	7.44	106	<0.01	1.3	<3	4.92	4	80
RESS0198	<2	19.6	35.7	50	23.9	9.91	95.2	<0.01	1.2	<3	7.19	4	90
RESS0199	<2	19.7	35.8	50	26.1	10.1	89.9	<0.01	1.4	<3	6.39	5	90
RESS0200	<2	12.4	23.4	40	29.2	6.51	94	<0.01	1.4	<3	5.08	4	110
RESS0201	<2	11.9	25	160	43.5	6.76	128	<0.01	2.2	<3	4.61	6	70
RESS0202	<2	13.7	25.5	40	32.5	7.12	101	<0.01	1.5	<3	5.37	4	120
RESS0203	<2	18.4	36.3	60	32.9	9.66	96.3	<0.01	1.7	<3	7.48	7	100
RESS0204	<2	12.7	24.8	40	29.6	6.51	94.2	<0.01	1	<3	4.57	3	120
RESS0205	<2	19.8	32.1	50	27.4	8.87	103.5	<0.01	1.3	7	5.69	3	100
RESS0206	<2	15.2	28.5	50	31.4	7.68	104	<0.01	1.4	4	6.32	3	100
RESS0207	<2	18.7	36.9	130	44.3	9.95	144.5	<0.01	2.3	4	7.19	5	100
RESS0208	<2	15.1	25.2	130	22.1	7.05	97.6	<0.01	1.3	6	5.99	3	70
RESS0209	<2	17.6	34.2	50	29.8	9.35	96.6	<0.01	1.7	3	6.63	9	90
RESS0210	<2	15.6	30.5	50	34.5	7.89	97.2	<0.01	1.2	6	6.28	3	100
RESS0211	<2	17.6	32.6	50	31.6	9.31	80.6	<0.01	1.2	<3	6.91	3	80
RESS0212	<2	20.2	37.1	70	32.5	10.15	86.7	<0.01	1.6	4	7.7	10	100
RESS0213	<2	11.7	25.2	40	28.1	6.84	93.2	<0.01	1	<3	4.59	10	100
RESS0214	<2	19	38.9	70	32.1	10.05	98.1	<0.01	1.4	3	7.63	3	90
RESS0216	<2	15.2	25.2	140	21.3	6.73	98.4	<0.01	0.9	<3	5.17	4	70
RESS0217	<2	17.7	31.9	80	30.5	8.38	96.5	<0.01	1.1	3	6.05	4	110
RESS0218	<2	9.5	15.7	60	37.6	3.82	46.3	<0.01	3.8	<3	3.31	<3	110
RESS0219	<2	16.7	32.5	60	28.1	9.07	97.7	<0.01	1.4	<3	6.03	3	90
RESS0220	<2	8.3	16.2	70	28	4.13	48.2	<0.01	0.9	<3	3.47	9	130
RESS0221	<2	15.8	28.3	80	29.4	7.6	99.7	<0.01	1.3	4	4.58	4	100
RESS0222	<2	14.4	27	90	34.6	7.18	102	<0.01	1.2	<3	5.87	12	100

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	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
RESS0166	1.01	0.82	<0.5	10.1	0.477	0.72	0.5	2.4	120	2.5	31.4	3.13	80
RESS0167	0.74	0.66	0.6	8.5	0.42	0.62	0.46	2	104	2.5	25.2	2.8	80
RESS0168	1.38	1.19	<0.5	12.2	0.624	0.62	0.63	3.3	112	3.3	40.8	3.79	70
RESS0169	1.29	1.08	<0.5	12.5	0.587	0.71	0.5	2.8	113	2.7	36.1	3.31	70
RESS0170	1.03	0.84	<0.5	9.8	0.469	0.76	0.42	2.1	125	2	27.8	2.91	110
RESS0171	1.07	0.88	0.6	10.1	0.495	0.57	0.48	2.4	124	2	29.9	3.03	80
RESS0172	1.2	0.96	0.6	11.7	0.567	0.61	0.55	2.6	104	2.5	34.4	3.19	80
RESS0173	1.2	0.92	<0.5	11.8	0.577	0.58	0.55	2.7	109	2.5	36.3	3.76	70
RESS0174	0.71	0.55	0.5	7.9	0.38	0.56	0.32	3.1	84	1.6	19.5	2.07	70
RESS0175	0.93	0.8	0.6	9.8	0.469	0.63	0.41	2.5	99	2	26.4	2.48	60
RESS0176	1.15	1.06	<0.5	13	0.592	0.55	0.51	3	98	2.4	33.6	3.44	70
RESS0177	0.77	0.63	<0.5	8.7	0.436	0.66	0.37	2.2	94	2.1	23.8	2.58	60
RESS0179	1.81	0.98	<0.5	11.5	0.525	0.73	0.5	2.4	123	2.3	31.5	3.38	90
RESS0180	0.99	0.92	<0.5	9.7	0.536	0.58	0.49	2.5	103	2.1	31.3	3.02	70
RESS0181	0.88	0.79	<0.5	9.8	0.469	0.66	0.38	2.2	118	2.2	26.8	2.55	90
RESS0182	0.67	0.46	<0.5	6.6	0.31	0.42	0.25	2.1	83	1.3	16.1	1.82	70
RESS0183	1.03	0.86	<0.5	9.7	0.513	0.5	0.42	2.5	103	2.3	29.7	3.09	70
RESS0184	0.98	0.77	0.5	9.3	0.465	0.54	0.42	1.9	112	2.3	26.2	2.66	70
RESS0185	0.89	0.77	0.6	10.5	0.468	0.74	0.43	2.2	126	2.5	28.3	2.7	80
RESS0186	1.04	0.88	<0.5	10.6	0.479	0.7	0.42	2.2	110	2.3	29.5	2.97	80
RESS0187	1.04	0.82	<0.5	10.6	0.472	0.69	0.43	2	121	2.4	28.1	2.9	110
RESS0188	0.96	0.89	<0.5	10.7	0.494	0.64	0.45	2.6	117	2.5	30	3.02	70
RESS0190	0.97	0.68	<0.5	8.7	0.458	0.64	0.35	2.1	106	2.3	24.7	2.58	70
RESS0191	0.71	0.72	<0.5	7.9	0.412	0.58	0.35	1.8	106	2.1	24.4	2.38	70
RESS0192	0.8	0.73	<0.5	9.6	0.43	0.69	0.41	2	131	1.8	23.3	2.2	130
RESS0193	0.87	0.77	<0.5	8.8	0.47	0.58	0.46	2.1	125	1.9	28.2	2.98	100
RESS0194	1.09	0.93	<0.5	10.3	0.549	0.6	0.57	2.5	105	2.5	31.5	3.16	80
RESS0195	0.9	0.66	<0.5	9.2	0.424	0.61	0.39	2.3	110	2.2	24.7	2.33	90
RESS0196	0.76	0.68	<0.5	8.4	0.439	0.48	0.41	2.1	89	1.9	26.3	2.84	60
RESS0197	0.96	0.64	<0.5	10.3	0.503	0.67	0.42	2.3	101	2.4	25	2.54	60
RESS0198	1.34	0.88	<0.5	11.8	0.605	0.57	0.54	2.8	94	2.3	35.7	3.44	60
RESS0199	1.28	1.05	0.5	12.1	0.627	0.53	0.64	3	98	2.4	37.8	3.86	60
RESS0200	0.75	0.67	<0.5	8.2	0.448	0.55	0.39	2.1	93	2.3	25.2	2.24	70
RESS0201	0.78	0.66	<0.5	9.4	0.422	0.69	0.4	2	132	2	24.8	2.53	100
RESS0202	0.89	0.67	<0.5	9.4	0.473	0.58	0.41	2.3	102	2.5	25.8	2.36	60
RESS0203	1.16	1.03	0.5	11.9	0.49	0.56	0.49	3	106	2.4	30.9	3.34	70
RESS0204	0.82	0.58	0.5	9.3	0.385	0.57	0.37	2	110	2.5	22.7	2.24	70
RESS0205	1.31	0.9	<0.5	10.8	0.541	0.61	0.5	2.8	104	2.6	32.5	3.13	70
RESS0206	0.98	0.78	0.5	9.4	0.444	0.62	0.42	2.6	110	2.4	29.3	3.18	70
RESS0207	1.19	0.92	0.6	12.8	0.512	0.67	0.5	3	140	2.2	29.3	3.47	110
RESS0208	1.06	0.77	0.7	9.3	0.461	0.49	0.49	2.4	112	2	27.9	2.93	80
RESS0209	1.21	0.98	0.5	11.1	0.515	0.63	0.48	2.9	101	2.4	32.5	3.94	60
RESS0210	1.09	0.86	<0.5	9.9	0.439	0.62	0.48	2.4	108	2.6	28.4	2.92	80
RESS0211	1.14	0.93	<0.5	11.1	0.502	0.49	0.58	2.6	100	2.2	33.1	3.48	60
RESS0212	1.35	1.09	<0.5	11.6	0.555	0.57	0.56	3.2	96	2.4	36.5	3.96	60
RESS0213	0.81	0.56	<0.5	9.1	0.379	0.56	0.33	2.2	93	1.9	20.7	2.11	60
RESS0214	1.33	1.06	<0.5	12.8	0.517	0.51	0.56	3.2	105	2.3	34.2	3.67	70
RESS0216	1	0.72	<0.5	9.1	0.432	0.5	0.44	2.3	118	2.1	26.3	3.16	90
RESS0217	1.15	0.85	<0.5	10.2	0.479	0.56	0.47	3	108	2	29	3.22	70
RESS0218	0.66	0.42	<0.5	5.1	0.275	0.49	0.22	1.6	67	2.8	12.5	1.28	100
RESS0219	1.09	0.93	<0.5	11.4	0.447	0.69	0.42	2.5	120	2.6	31.2	3.47	70
RESS0220	0.52	0.64	<0.5	4.2	0.379	0.26	0.38	1.3	150	1	22.2	2.39	190
RESS0221	1.04	0.76	<0.5	9.9	0.425	0.56	0.45	2.3	96	2.1	26.4	2.87	90
RESS0222	1.16	0.84	<0.5	9.9	0.402	0.67	0.4	2.2	110	2.3	25.9	2.77	70

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	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
RESS0223	<5	14	47	427	2.7	0.4	0.5	<0.8	64.2	17.8	5.4	20	5.56
RESS0224	5	9	36	476	2.4	0.5	0.7	0.9	67.9	16.9	6.1	30	5.25
RESS0225	<5	20	39	406	2.2	0.4	0.6	<0.8	54.2	17.7	8.3	50	4.46
RESS0227	5	11	50	506	2.1	0.4	0.6	0.9	78.4	17.4	5.4	20	6.82
RESS0228	<5	12	65	411	2	0.5	0.6	<0.8	59.6	18.1	5.1	30	5.42
RESS0229	<5	13	72	420	2.7	0.5	0.5	<0.8	53.9	17	6.1	40	4.69
RESS0230	<5	13	71	475	2.4	0.5	0.6	<0.8	61.9	17.7	5.8	30	5.13
RESS0231	<5	16	64	480	1.9	0.4	0.5	<0.8	63	16.3	6.2	30	5.19
RESS0232	<5	13	49	437	1.9	0.4	0.5	<0.8	70	16.5	4.9	30	5.05
RESS0233	<5	14	76	402	2.1	0.4	0.7	<0.8	57.7	19.3	5	40	5.18
S-1000	<5	9	28	305	2.1	0.2	7.2	<0.8	35.5	7.1	2.5	<20	3
S-1001	<5	25	135	468	1.7	0.4	0.9	0.8	60.3	21.7	10.7	40	5
S-1002	<5	20	85	449	2.1	0.3	0.5	1.1	75.2	18	6.6	30	5.71
S-1003	<5	7	101	299	1.1	0.2	1	0.8	54.1	18.2	3.3	30	3.99
S-1004	<5	25	73	438	2.5	0.3	0.6	1	61	24.9	7.9	40	5.1
S-1005	<5	17	83	430	1.4	0.3	0.2	<0.8	71.8	24.3	5.5	40	5.2
S-1006	<5	11	86	385	1.4	0.2	0.2	<0.8	69.4	19.6	3.8	30	4.8
S-1007	<5	14	52	386	0.8	<0.1	0.1	<0.8	61.7	18.1	2.9	20	3.98
S-1008	<5	7	56	374	1.9	0.3	1.1	<0.8	55	26	4.7	50	4.35
S-1009	<5	11	53	281	1.9	0.2	1.9	<0.8	42.6	22.9	3.2	30	3.95
S-1010	<5	13	67	337	1.4	0.3	1.2	<0.8	49.7	19.7	5.2	40	4.8
S-1011	<5	16	77	387	2	0.3	1.4	0.8	52.8	23	4.9	40	4.58
S-1012	5	14	40	460	2	0.2	0.9	<0.8	68	12.6	4.8	50	4.26
S-1013	8	13	61	436	2.7	0.4	0.9	0.9	66.7	13	8	30	4.61
S-1014	7	16	46	417	2	0.3	0.6	1.1	79.9	13.5	5	20	6.58
S-1015	<5	14	45	455	2	0.3	3.1	0.9	57.7	15.3	7.3	40	4.79
S-1016	6	14	79	399	2.3	0.4	0.8	0.9	72.9	14.5	6.8	30	5.75
S-1017	<5	37	163	459	2.6	0.5	2.4	<0.8	64.7	25	11.2	40	4.41
S-1018	<5	12	65	375	2.6	0.3	1.5	<0.8	49.9	19.4	4.5	40	4.67
S-1019	<5	13	74	395	1.9	0.2	0.9	0.8	61.3	20.9	5	40	5.56
S-1020	<5	34	87	417	3	0.5	3	1.1	62.2	23.2	10.6	50	5.09
S-1021	<5	28	145	515	2.7	0.4	0.4	1	97.7	29.3	11.3	30	7.65
S-1022	<5	37	106	446	2.4	0.4	0.5	1.1	80.2	25.1	8.8	70	6.29
S-1023	<5	16	93	465	1.6	0.6	1.1	1.1	57.6	21.7	6.2	60	4.55
S-1024	8	52	342	456	2.3	0.7	2.7	1	56.7	25.5	15.2	50	4.73
S-1025	11	19	53	427	1.8	0.4	3.3	1.4	52.5	14.6	6.9	60	4
S-1026	10	9	67	448	3.1	0.4	1.2	1.1	55.3	13.8	8.2	50	4.51
S-1029	<5	21	80	422	1.6	0.3	0.6	0.8	72.2	21.9	10.8	30	5.77
S-1030	8	20	67	463	2.3	0.4	2.4	0.9	62	16.8	7.4	40	5.57
S-1031	<5	4	35	481	1.3	0.2	1.3	<0.8	64	10.2	2.5	20	4.55
S-1032	8	15	65	424	2.1	0.3	1	1	73.2	13.3	4.5	30	5.96
S-1034	8	14	99	431	2.2	0.4	0.9	1	52.1	22.5	6	50	4.32
S-1035	<5	22	44	460	2.1	0.4	2.2	<0.8	57.3	18.1	7.9	40	4.94
S-1036	<5	13	49	410	3	0.4	2.5	<0.8	55.7	14.9	6.4	30	4.84
S-1037	<5	16	60	388	2.1	0.3	0.6	<0.8	70.8	16.2	5.2	20	5.71
S-1038	<5	20	48	439	2.5	0.4	0.8	1	59.1	20.3	8.5	40	4.87
S-1039	<5	27	86	441	2.7	0.4	1.6	0.8	69.7	20.7	10.5	40	4.99
S-1040	5	13	47	412	2.7	0.3	0.8	1.2	63.7	18	6.3	180	5.33
S-1041	6	13	83	391	2.2	0.5	0.8	<0.8	80.2	13.6	4.9	30	6.39
S-1042	5	20	42	420	2.4	0.3	1.5	0.9	60.4	16.1	7	100	5.26
S-1043	7	14	92	369	2	0.5	0.9	0.9	57.4	21.4	5.3	40	4.71
S-1044	<5	11	59	332	2.2	0.1	1.3	<0.8	51	18.2	3.9	30	3.86
S-1045	10	53	248	505	2.8	0.7	0.9	1.3	76.9	33.1	15.3	60	4.93
S-1046	5	18	77	371	2.1	0.5	0.6	0.8	92.6	15	4.9	20	6.6

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	Er	Eu	Fe	Ga	Gd	Ge	Ho	In	K	La	Li	Lu	Mn
	ppm	ppm	%	ppm	ppm	ppm	ppm	ppm	%	ppm	ppm	ppm	ppm
RESS0223	3.06	1.17	3.13	15.7	5.41	1.8	0.99	<0.3	1.24	34.5	34	0.4	1010
RESS0224	3.27	1.41	3.06	15.3	6.2	1.7	1.04	<0.3	1.28	33.4	29	0.35	1500
RESS0225	2.78	1.09	4.13	21	4.9	1.9	0.91	<0.3	1.47	29.9	42	0.35	740
RESS0227	4.14	1.46	3.44	17	6.61	1.8	1.33	<0.3	1.59	38.1	28	0.57	1640
RESS0228	2.97	1.17	3.34	15.9	4.82	1.5	1.02	<0.3	1.6	31.2	47	0.48	780
RESS0229	2.98	1.05	3.53	18.2	4.93	1.7	0.93	<0.3	1.62	30.9	47	0.4	620
RESS0230	3.34	1.21	3.58	18.8	6.06	1.8	1.04	<0.3	1.67	32.9	41	0.43	810
RESS0231	3.17	1.14	3.38	17.1	5.55	1.7	1.03	<0.3	1.69	34.1	44	0.43	780
RESS0232	3.16	1.1	2.86	15.2	5.54	1.7	0.99	<0.3	1.38	38.4	26	0.46	1020
RESS0233	2.89	0.93	3.49	15.9	4.73	1.8	1.01	<0.3	1.64	29.9	46	0.43	740
S-1000	1.29	0.8	1.77	9.5	2.88	1.1	0.6	<0.3	1.22	18.75	18	0.21	500
S-1001	3.33	1.07	4.07	17.9	5.54	2	0.96	<0.3	1.81	29.1	53	0.37	1040
S-1002	3.81	1.4	3.67	18	5.76	1.6	1.08	<0.3	1.87	34.3	48	0.47	910
S-1003	2.56	1.05	3.13	12.8	3.76	1.8	0.88	<0.3	1.35	24.6	40	0.44	630
S-1004	3.39	1.37	4.75	20.2	5.47	1.9	1.06	<0.3	1.96	28.7	65	0.44	750
S-1005	3.04	1.23	4.05	19.6	5.12	1.9	1.06	<0.3	1.83	32.3	53	0.46	600
S-1006	3.29	0.93	3.54	16.9	4.83	1.8	1.01	<0.3	1.66	31.5	42	0.47	900
S-1007	2.37	0.79	3.04	12.8	4.24	1.4	0.89	<0.3	1.36	27.5	40	0.38	550
S-1008	2.83	0.89	4.08	16.3	4.24	2.1	0.89	<0.3	1.87	26.3	45	0.27	930
S-1009	1.99	0.59	3.78	14.8	3.59	1.8	0.71	<0.3	1.48	22.3	33	0.28	760
S-1010	3.06	0.87	3.24	13.2	4.19	1.6	1.01	<0.3	1.57	24.5	41	0.45	760
S-1011	2.57	0.98	3.8	16.6	5.13	1.5	1	<0.3	1.8	26.7	49	0.38	830
S-1012	2.74	1.06	2.54	13.3	5.23	1.2	1.01	<0.3	1.73	34.5	29	0.41	560
S-1013	2.71	1.11	3.95	17.6	5.73	1.8	0.94	<0.3	1.82	32.8	49	0.4	500
S-1014	3.65	1.45	2.81	15	6.04	2	1.22	<0.3	1.46	37.8	30	0.44	930
S-1015	2.69	1.23	3.07	15.4	4.82	2.3	0.79	<0.3	1.72	29.1	35	0.39	800
S-1016	3.17	1.36	3.28	14.8	5.93	2	1.25	<0.3	1.67	36.2	56	0.48	760
S-1017	2.72	1.3	3.96	17.3	5.3	1.8	0.85	<0.3	2.13	31.7	105	0.35	1160
S-1018	2.64	0.96	3.39	15.4	4.61	1.7	0.81	<0.3	1.72	25.8	39	0.35	740
S-1019	3.2	1.18	3.61	15.7	5.11	1.6	1.13	<0.3	1.68	28.1	47	0.43	760
S-1020	3.28	1.29	4.35	18.3	5.19	1.5	1	<0.3	1.82	28.9	75	0.42	860
S-1021	4.4	1.87	3.86	18.5	6.55	2	1.49	<0.3	2.17	43	73	0.6	1570
S-1022	3.81	1.55	4.74	21.2	6.02	2	1.26	<0.3	1.8	36.7	61	0.56	720
S-1023	2.84	0.95	3.65	16.5	4.48	1.6	1	<0.3	1.93	27.3	48	0.45	1180
S-1024	2.57	1.01	4.41	18.5	4.99	2	0.9	<0.3	2.88	28.2	143	0.36	900
S-1025	2.06	1.03	3.11	14.9	4.47	1.6	0.76	<0.3	1.78	25.1	43	0.34	700
S-1026	2.26	1.19	3.68	17.9	4.93	1.8	0.95	<0.3	2.01	25.4	52	0.39	450
S-1029	3.07	1.31	4.7	21.5	5.53	1.6	1.09	<0.3	1.74	32.3	52	0.52	840
S-1030	2.85	1.09	3.36	15.6	5.84	1.6	1.09	<0.3	1.95	28.9	51	0.37	810
S-1031	2.91	1.09	3.02	12.3	5.35	1.7	1.08	<0.3	1.75	34	20	0.55	680
S-1032	3.43	1.51	2.66	13.7	6.25	1.9	1.26	<0.3	1.78	36.3	33	0.47	1050
S-1034	2.45	0.92	4.28	17.1	4.76	1.8	0.97	<0.3	2.18	26.1	56	0.4	670
S-1035	2.88	1	3.91	18.7	5.09	1.8	0.95	<0.3	1.76	29.4	44	0.36	1190
S-1036	2.53	1	2.91	14.7	4.9	1.5	0.84	<0.3	1.72	27.2	36	0.27	720
S-1037	3.16	1.24	3.31	16.2	5.39	1.8	1.04	<0.3	1.49	36.2	40	0.43	690
S-1038	2.98	1.25	4.18	19.3	4.99	1.7	0.89	<0.3	1.77	28.4	44	0.33	1160
S-1039	2.9	1.2	4.34	18.7	5.7	2.7	1.03	<0.3	1.71	35.2	42	0.36	1150
S-1040	3.16	1.33	3.66	17.5	5.59	2.3	1	<0.3	1.57	30.1	39	0.38	910
S-1041	3.7	1.54	2.88	13.2	6.9	1.7	1.19	<0.3	1.6	41.5	39	0.5	790
S-1042	2.95	1.15	4.03	18.6	6.27	1.7	1.07	<0.3	1.62	29.6	44	0.4	670
S-1043	3.16	0.97	3.45	14.9	4.75	1.7	0.88	<0.3	1.88	27.6	55	0.5	860
S-1044	2.73	0.97	3.26	13.1	4.32	2	0.86	<0.3	1.55	24.6	41	0.41	650
S-1045	2.84	1.42	4.83	19.5	6.16	2	1.03	<0.3	2.9	34.5	149	0.41	1270
S-1046	4.05	1.47	3.03	13.8	7.4	1.7	1.39	<0.3	1.47	44.2	41	0.6	1010

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	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
RESS0223	<2	15.8	29.4	50	34	7.84	88.1	<0.01	1.2	<3	5.52	10	80
RESS0224	<2	13.9	31.2	50	38	8.61	87.2	<0.01	1.1	<3	6.73	3	90
RESS0225	<2	15.3	25.1	50	31.2	6.56	99.9	<0.01	1.3	4	5.31	8	70
RESS0227	<2	19.6	33.5	60	37.5	9.36	106.5	<0.01	0.8	<3	6.67	3	100
RESS0228	2	15.3	28.4	100	22.2	7.7	95.6	<0.01	1.9	5	5.32	7	80
RESS0229	<2	14.4	26.2	100	23.4	7.31	101	<0.01	1.2	6	5.26	5	80
RESS0230	<2	17.1	28.4	80	29.2	7.77	103.5	<0.01	1.4	6	5.45	10	90
RESS0231	<2	16.3	29.5	80	28.5	7.84	106.5	<0.01	1.1	3	5.86	13	90
RESS0232	<2	17.7	31	40	33.1	8.42	81.3	<0.01	1.3	5	5.15	9	100
RESS0233	<2	15.3	27.4	120	20.1	7.49	93.3	<0.01	1.2	<3	5.05	5	70
S-1000	<2	7.7	17.15	20	12.2	4.06	45.6	<0.01	0.4	4	3.49	<3	310
S-1001	<2	14.3	26.2	100	33.6	6.82	109.5	<0.01	1.4	<3	6.28	<3	90
S-1002	<2	18	31.2	120	23.9	8.45	111.5	0.01	1.2	<3	6.97	<3	60
S-1003	<2	11.4	23.3	160	14.6	5.69	68.6	<0.01	1	4	4.47	<3	60
S-1004	<2	13.3	26.8	220	21	7.23	117.5	<0.01	1.6	<3	5.87	<3	60
S-1005	2	16.8	27.5	150	24.5	7.73	111	<0.01	1.3	<3	5.96	<3	50
S-1006	<2	15.2	28.1	360	20	7.03	93.2	<0.01	0.9	<3	5.98	<3	50
S-1007	<2	14.9	23.6	180	18.1	6.49	65.9	0.01	1.3	<3	4.35	<3	30
S-1008	<2	13.4	24.5	170	22.6	6.53	92.7	<0.01	0.4	<3	5.07	<3	70
S-1009	<2	10.2	18.9	120	14.9	4.9	74.4	<0.01	0.5	<3	4.19	<3	90
S-1010	<2	12.9	22.3	130	20.7	5.66	81.6	<0.01	1.4	<3	5.41	<3	50
S-1011	<2	14.1	23.8	170	21.1	6.54	103	<0.01	1.6	5	4.97	<3	60
S-1012	<2	14.3	28.8	40	28	7.76	81.7	<0.01	1.1	<3	5.1	<3	140
S-1013	<2	18.7	31.4	50	25	8.55	105	<0.01	1.2	7	5.35	5	100
S-1014	<2	18.8	32.5	50	29.4	9.28	94.6	<0.01	1.2	<3	7.28	<3	110
S-1015	<2	13.2	25.1	50	26.7	6.5	86.5	<0.01	1.1	11	4.73	<3	160
S-1016	<2	19.4	33.4	60	29.5	8.38	99.9	<0.01	1.6	9	7.22	3	100
S-1017	<2	14.9	28.5	120	39.6	7.61	106.5	0.01	1.3	8	5.01	<3	160
S-1018	<2	12.3	20.1	100	20.2	5.67	86.6	<0.01	1	<3	4.56	<3	90
S-1019	<2	14.5	26.3	140	19.7	6.98	92.6	0.01	1	<3	4.77	<3	70
S-1020	<2	13.4	28.6	170	28.9	7.15	102	0.01	2.3	8	4.8	<3	80
S-1021	2	20.6	39.6	130	39.9	10.55	124	<0.01	1.1	<3	6.95	<3	80
S-1022	<2	18	33.5	130	27.8	8.95	121.5	<0.01	1.7	<3	7.12	<3	80
S-1023	<2	13.2	23.5	140	27.5	6.27	97.9	<0.01	1.9	5	5.12	<3	80
S-1024	<2	13.4	26.4	170	39.8	6.91	127	<0.01	3.1	<3	4.95	3	180
S-1025	<2	12.9	24.5	50	30.7	6.03	84.4	<0.01	1.2	<3	4.94	<3	140
S-1026	<2	14.2	26.7	50	21.8	6.81	96.8	0.01	1	8	5.79	<3	110
S-1029	<2	16.6	28.1	70	32.8	8.29	115.5	0.01	1.3	3	5.99	<3	80
S-1030	<2	14.2	28.4	60	26.9	7.3	96.4	<0.01	1.1	<3	6.11	<3	140
S-1031	<2	12.4	29	20	17.3	7.51	60	0.01	0.6	<3	4.89	<3	220
S-1032	<2	17.3	32.8	60	31.5	9.12	91.6	<0.01	1.3	3	5.96	<3	100
S-1034	<2	14.3	24.9	180	23.6	6.36	106.5	<0.01	1.3	8	4.29	<3	80
S-1035	<2	14.3	26	50	26.9	6.61	107	<0.01	1	3	4.94	<3	110
S-1036	<2	13.3	24.6	80	23.1	6.98	83.4	<0.01	1.6	7	5.55	<3	140
S-1037	<2	18.6	31.5	50	29	7.96	97	<0.01	1.4	<3	5.79	<3	90
S-1038	<2	12.8	23.5	50	33.4	6.54	114	<0.01	1.1	4	5.11	<3	110
S-1039	<2	14.4	29.9	70	29.5	7.59	117	<0.01	1.4	4	6.15	<3	120
S-1040	<2	15.4	26.5	60	29.8	7.43	97.5	<0.01	1.6	<3	5.69	<3	90
S-1041	<2	20.7	37.2	60	30	9.75	97.1	0.01	1.3	<3	7.57	3	100
S-1042	<2	14.1	29.1	70	24	7.97	93.7	<0.01	1.1	5	6.54	<3	90
S-1043	<2	14.3	26.6	130	20.8	7.11	91.5	<0.01	1	<3	4.91	<3	70
S-1044	<2	10.6	22.8	120	17.6	6.12	72.5	<0.01	1	<3	4.35	<3	80
S-1045	2	18.7	32.6	190	52.1	8.61	137	<0.01	2.5	4	7.17	3	100
S-1046	<2	21.6	40.3	60	35.2	11	80.1	<0.01	1.6	<3	7.91	3	90

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	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
RESS0223	0.99	0.92	<0.5	9	0.459	0.53	0.47	2.4	101	2.2	27.4	2.97	60
RESS0224	0.85	0.95	<0.5	9	0.422	0.54	0.43	2.3	99	2.2	29.6	2.97	70
RESS0225	0.92	0.71	0.5	9.9	0.458	0.69	0.36	2.1	126	2.4	23.7	2.57	100
RESS0227	1.23	1.08	<0.5	11	0.623	0.53	0.56	2.7	119	2.6	35.8	3.69	80
RESS0228	0.98	0.83	0.7	9.8	0.439	0.44	0.46	2.3	109	2	27.2	2.65	90
RESS0229	0.92	0.77	<0.5	8.7	0.422	0.55	0.45	2.4	114	2	24.8	3.1	80
RESS0230	1.2	0.85	<0.5	9.4	0.493	0.58	0.43	2.6	117	2	28.6	3.02	80
RESS0231	0.99	0.75	<0.5	10	0.476	0.57	0.41	2.7	111	2.5	28.2	3.1	80
RESS0232	1.12	0.84	<0.5	10.5	0.554	0.48	0.42	2.8	99	2.4	26.7	2.52	60
RESS0233	1.32	0.84	<0.5	9.2	0.437	0.44	0.5	2.3	112	1.8	27.1	3.02	80
S-1000	0.61	0.43	<0.5	5.7	0.3	0.26	0.27	3.1	67	1.4	17.5	1.64	30
S-1001	0.83	0.73	<0.5	10.1	0.45	0.56	0.45	2	127	2.4	30	2.85	90
S-1002	1.06	0.94	0.5	10.6	0.516	0.55	0.49	2.6	112	2.2	33	2.97	80
S-1003	0.68	0.64	0.6	7.3	0.389	0.29	0.36	2.1	94	1.6	25	2.38	70
S-1004	0.81	0.92	0.5	9.8	0.425	0.57	0.47	2.4	141	2.1	32.4	2.97	90
S-1005	1.02	0.81	<0.5	10.9	0.532	0.56	0.48	2.7	127	2.2	30.9	3.16	90
S-1006	0.96	0.68	<0.5	10	0.554	0.43	0.43	3	117	1.9	31.5	3.11	80
S-1007	0.91	0.57	0.9	7.5	0.544	0.4	0.35	2.5	93	1.9	24.5	2.76	70
S-1008	0.8	0.64	0.6	9	0.453	0.5	0.39	2	129	1.8	27.3	2.51	110
S-1009	0.67	0.52	0.5	8.8	0.418	0.34	0.31	2	137	1.6	23.4	2.1	60
S-1010	0.8	0.69	<0.5	8.6	0.427	0.33	0.37	2.1	102	1.8	28.4	2.71	80
S-1011	0.89	0.66	<0.5	9.1	0.466	0.43	0.36	2.1	118	1.8	28.3	2.96	80
S-1012	0.99	0.79	<0.5	10.7	0.471	0.58	0.41	2.6	87	2.1	25.1	3	50
S-1013	1.13	0.77	0.6	11.8	0.455	0.72	0.42	2.3	122	2.2	24.9	2.62	70
S-1014	1.16	1.06	<0.5	12.5	0.548	0.51	0.6	3.2	103	2.8	35.4	4.03	50
S-1015	0.77	0.59	<0.5	9.5	0.41	0.45	0.36	2.2	101	2.8	26.4	2.74	60
S-1016	1.26	0.92	<0.5	12.1	0.529	0.56	0.46	2.6	116	2.4	32.3	3.32	80
S-1017	1.04	0.77	<0.5	10.1	0.454	0.54	0.39	2.2	125	2.2	25	2.43	80
S-1018	0.83	0.58	<0.5	8.8	0.431	0.44	0.36	2.3	113	1.7	26.5	2.56	70
S-1019	0.95	0.64	0.9	9.2	0.45	0.45	0.43	2.3	115	1.6	28.3	3.39	70
S-1020	0.82	0.73	0.7	9.6	0.406	0.54	0.44	2.2	132	1.7	29	3.28	100
S-1021	1.33	1.1	1	13.1	0.612	0.62	0.66	3.3	134	2.4	41.5	4.69	80
S-1022	1.05	0.92	<0.5	11.6	0.49	0.53	0.52	2.8	142	2.3	35.7	3.55	100
S-1023	0.87	0.77	0.6	8.4	0.464	0.46	0.41	2.3	111	2.2	29	3.05	130
S-1024	0.94	0.77	<0.5	10.5	0.386	0.67	0.39	2.2	137	1.8	24.9	2.76	110
S-1025	0.79	0.58	0.5	9	0.385	0.6	0.29	1.9	109	2.5	20.3	2.24	80
S-1026	0.97	0.76	<0.5	9.8	0.422	0.6	0.43	2	124	3	23.6	2.78	70
S-1029	1.15	0.8	1.1	11.6	0.508	0.73	0.44	2.6	132	2.8	30.6	3	80
S-1030	1.34	0.93	<0.5	9.8	0.416	0.63	0.41	2.5	112	2.4	31.2	2.67	70
S-1031	1.03	0.77	<0.5	12	0.544	0.41	0.51	2.9	124	1.6	27	3.14	50
S-1032	1.26	0.81	<0.5	11.2	0.532	0.53	0.53	2.8	93	2.1	31	3.46	70
S-1034	0.96	0.66	<0.5	9.1	0.438	0.62	0.4	2.1	135	1.8	25.6	2.55	100
S-1035	0.88	0.7	<0.5	10.9	0.448	0.58	0.39	2.2	128	2.8	27.3	2.45	80
S-1036	0.8	0.7	<0.5	9.4	0.401	0.44	0.4	2.4	101	2.1	26	3.2	60
S-1037	1.15	0.86	<0.5	12.4	0.572	0.67	0.47	3.1	116	2.7	32.3	3.2	60
S-1038	0.84	0.71	<0.5	10.5	0.442	0.66	0.46	2.3	141	2.8	27.9	2.21	90
S-1039	0.86	0.66	<0.5	12.3	0.451	0.66	0.48	2.1	142	2.7	30	2.75	80
S-1040	0.92	0.7	<0.5	10.7	0.478	0.59	0.43	2.5	119	3	30.5	3.17	90
S-1041	1.47	1.06	<0.5	13.1	0.602	0.54	0.61	3.2	102	2.8	33.9	3.77	60
S-1042	0.92	0.78	<0.5	10.8	0.455	0.59	0.39	2.3	131	2.4	31.3	2.63	80
S-1043	1.05	0.71	<0.5	9.4	0.452	0.43	0.48	2.4	110	2	25.4	2.74	80
S-1044	0.81	0.69	1.1	7.4	0.425	0.26	0.31	2.2	102	1.7	23.4	2.32	70
S-1045	1.16	0.82	<0.5	11.4	0.503	0.75	0.42	2.5	146	2.2	28.8	3.14	110

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	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
S-1047	9	23	70	450	2.3	0.4	0.8	0.8	81.6	22.1	8.8	60	6.51
S-1048	7	19	73	448	2.6	0.4	1.2	0.8	77.3	19.8	7.7	40	5.7
S-1049	7	21	71	431	2.8	0.5	1.1	1.1	73.2	18.7	5.5	30	5.15
S-1051	5	21	52	399	3	0.6	3.3	<0.8	64.1	16.3	9.3	50	4.82
S-1052	6	17	102	440	1.7	0.4	0.8	0.8	100	23	6.1	30	7.39
S-1053	<5	21	52	462	2	0.2	0.9	<0.8	62.3	18.4	8.7	160	4.78
S-1054	<5	16	65	404	3.1	0.3	0.8	0.9	81.5	17.4	6.1	30	6.31
S-1055	<5	13	98	432	2.1	0.2	1.6	<0.8	59.9	20.5	5.7	40	4.57
S-1056	<5	32	102	439	2.4	0.3	5.2	0.8	60.4	16.4	9.8	30	5.16
S-1057	<5	13	66	462	2.4	0.3	0.8	1	85.3	22.4	7	30	5.66
S-1058	<5	8	52	280	1.6	0.2	1.3	1	40.2	27.2	4	40	4.72
S-1060	<5	12	80	404	1.7	0.3	0.5	1	70.4	14.5	4.5	40	5.25
S-1061	<5	14	91	415	2.1	0.2	0.5	<0.8	68.2	22.4	6.8	40	5.71
S-1062	<5	13	60	293	1.5	0.2	0.7	0.8	48.8	19	3.3	30	4.34
S-1063	<5	23	82	428	2.1	0.4	0.5	1	69.5	21.9	7.7	40	6.01
S-1064	<5	11	79	354	2.2	0.3	0.8	<0.8	56.1	22.4	4.8	30	4.67
S-1065	<5	15	81	321	1.3	0.2	0.4	<0.8	62.1	21.4	3.7	30	5.07
S-1066	<5	20	79	385	1.9	0.2	0.6	<0.8	72.9	21.5	6.8	40	5.09
S-1067	<5	23	68	412	2.2	0.3	<0.1	1.2	85.5	23.2	6.5	30	6.47
S-1068	<5	27	103	471	2	0.4	0.4	1.4	84.4	22.1	10.1	50	6.29
S-1069	<5	24	86	450	1.9	0.3	0.5	0.8	92.6	20.1	7.6	30	6.53
S-1070	<5	68	151	512	2.4	0.5	7.7	1	53.1	27.4	20.1	70	4.47
S-1071	<5	82	316	555	2.7	0.6	1	<0.8	69	30.5	16.4	60	4.89
S-1072	<5	28	122	414	2.4	0.2	0.5	<0.8	63.2	22.9	9.1	40	5.32
S-1073	<5	49	193	497	2.2	0.5	0.8	1.1	69.1	29.7	13.8	50	6.1
S-1074	<5	21	62	474	4	0.3	1	0.9	71.3	18.7	9.3	50	5.34
S-1046	1.46	0.98	<0.5	14.2	0.646	0.6	0.56	3.4	112	2.6	37.3	3.93	60

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	Er	Eu	Fe	Ga	Gd	Ge	Ho	In	K	La	Li	Lu	Mn
	ppm	ppm	%	ppm	ppm	ppm	ppm	ppm	%	ppm	ppm	ppm	ppm
S-1047	2.81	1.38	4.1	18	6	2.1	1.16	<0.3	1.77	38.2	58	0.46	950
S-1048	3.09	1.35	3.93	17.9	5.78	2.1	1.21	<0.3	1.73	36.9	52	0.5	920
S-1049	2.93	1.26	3.39	14.6	5.91	1.8	1.11	<0.3	1.84	34.7	44	0.53	1030
S-1051	2.95	1.26	4.06	19.1	5.57	1.8	1.03	<0.3	1.59	32.4	52	0.39	660
S-1052	3.9	1.68	3.71	16.3	8.31	2.1	1.47	<0.3	1.55	47.5	46	0.49	1160
S-1053	2.65	1.25	4.01	18.9	4.86	1.7	0.9	<0.3	1.72	30.7	45	0.45	830
S-1054	3.32	1.45	4.03	17.7	6.82	1.5	1.26	<0.3	1.39	38.4	42	0.53	700
S-1055	3.19	1.25	3.83	16.8	4.69	1.7	0.92	<0.3	1.96	29	50	0.49	820
S-1056	2.78	1.09	3.74	17.9	5.13	2	0.96	<0.3	1.88	28	41	0.38	800
S-1057	3.12	1.51	4	19.4	6.46	1.7	1.1	<0.3	1.57	37.2	44	0.48	1060
S-1058	2.66	1.4	5.7	20.7	4.81	1.3	1.07	<0.3	1.18	18.75	40	0.42	1220
S-1060	3.61	1.17	3.37	16.3	5.29	1.8	1.1	<0.3	1.65	33.6	38	0.56	600
S-1061	3.61	1.31	4.31	18.9	5.32	1.5	1.13	<0.3	1.8	31.3	51	0.44	880
S-1062	2.49	0.93	2.87	11	4.17	1.6	1	<0.3	1.28	22.6	38	0.37	840
S-1063	3.18	1.32	4.21	18.4	5.58	2	1.14	<0.3	1.72	31.9	63	0.54	810
S-1064	3.47	1.23	3.59	14.8	4.77	1.8	0.94	<0.3	1.56	25.6	50	0.42	890
S-1065	2.83	0.99	2.85	13.4	4.72	1.7	1.03	<0.3	1.42	27.6	39	0.43	1120
S-1066	3.42	1.24	4.03	18.5	5.57	1.9	1.03	<0.3	1.52	32.7	51	0.47	790
S-1067	3.53	1.46	3.16	16.7	6.14	1.5	1.3	<0.3	<0.05	38.7	48	0.55	1080
S-1068	3.97	1.51	4.06	19.8	6.55	1.6	1.33	<0.3	2.08	39.4	67	0.47	930
S-1069	4.16	1.6	3.46	16.8	6.38	1.5	1.37	<0.3	1.75	42.3	62	0.55	1050
S-1070	2.53	1.02	4.33	18.9	4.14	1.3	0.82	<0.3	2.34	25.7	105	0.3	910
S-1071	2.91	1.14	5.1	23.4	5.17	1.7	1	<0.3	3.55	32.9	132	0.4	970
S-1072	3	1.1	3.99	16.8	5.12	1.4	1.01	<0.3	1.91	31.3	72	0.46	980
S-1073	3.42	1.5	4.68	19.3	6.23	2	1.26	<0.3	2.38	34.4	80	0.35	1220
S-1074	3.06	1.3	4.16	20.3	5.74	1.8	1.1	<0.3	1.74	31	49	0.42	800

SampleID	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L	ME - MS89L
_	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
S-1047	1.25	0.89	<0.5	12.8	0.512	0.74	0.5	2.9	129	2.6	32.9	3.05	90
S-1048	1.37	0.98	<0.5	13	0.534	0.75	0.56	2.6	124	2.8	32.3	3.52	80
S-1049	1.16	0.86	<0.5	11.9	0.525	0.5	0.51	2.4	113	2.6	29.6	3.34	80
S-1051	1.03	0.75	<0.5	11.9	0.422	0.77	0.42	2	120	2.4	28.5	2.82	80
S-1052	1.4	1.17	<0.5	13.7	0.573	0.56	0.66	3	118	2.6	40.2	4.05	70
S-1053	0.82	0.78	0.8	10	0.478	0.7	0.38	2.2	131	2.3	26	2.43	80
S-1054	1.01	1.01	0.5	10.5	0.467	0.54	0.46	2.4	116	2.5	35.9	3.76	80
S-1055	0.89	0.72	0.5	8.8	0.479	0.44	0.44	2.3	118	1.9	30.3	3.59	90
S-1056	0.92	0.75	<0.5	9.8	0.389	0.69	0.4	1.9	110	2	29.7	3.09	70
S-1057	1.1	1	0.8	12.3	0.496	0.66	0.49	2.7	130	2.6	35.6	3.09	90
S-1058	0.54	0.77	0.6	5.7	0.493	0.36	0.38	1.5	207	1.2	30.4	2.75	90
S-1060	1.14	0.84	0.7	10	0.524	0.46	0.47	2.8	114	2	32.6	3.34	60
S-1061	1.1	0.95	1.4	10.3	0.482	0.64	0.46	2.5	130	1.8	32.9	3.34	90
S-1062	0.76	0.71	0.7	6.8	0.388	0.4	0.39	1.9	84	1.5	23.2	2.27	70
S-1063	0.98	0.9	<0.5	10.9	0.446	0.48	0.44	2.5	131	2	31.9	2.94	100
S-1064	0.81	0.71	0.9	7.9	0.44	0.39	0.4	2.3	110	1.6	28.3	3.3	70
S-1065	0.86	0.69	<0.5	8.6	0.461	0.34	0.44	2.4	89	1.8	28.5	3.26	60
S-1066	1.03	0.65	<0.5	11	0.533	0.57	0.45	2.4	125	2.4	33.5	2.95	70
S-1067	1.16	0.92	0.8	11.9	0.005	0.48	0.61	3.1	104	2.9	36.2	3.51	70
S-1068	1.18	0.99	<0.5	11.5	0.555	0.59	0.59	3	134	2.5	38.4	3.9	90
S-1069	1.35	0.96	1	13.3	0.633	0.6	0.54	3.4	122	2.6	40.3	4.11	70
S-1070	0.7	0.69	0.6	9.1	0.342	0.58	0.3	2.7	142	1.7	23.2	2.17	90
S-1071	1.02	0.77	<0.5	11	0.515	0.77	0.35	2.5	163	2.5	30.3	2.83	110
S-1072	0.85	0.76	<0.5	10	0.503	0.52	0.45	2.5	125	2.2	31.3	2.76	80
S-1073	0.9	0.84	<0.5	10.1	0.489	0.79	0.53	2.4	133	2.3	32	2.75	110
S-1074	0.93	0.88	<0.5	11.2	0.459	0.64	0.46	2.3	130	2.6	30.6	3	90

Table 2 – Rock chips sampling list

SampleID	Easting	Northing	Rock Type	Texture	Azimuth/Dip	Reaction with HCL
48028	7507810	4845589	Limy siltstone	Laminated		Weak
48029	7506269	4845148	Limy siltstone	Laminated		Weak
48030	7505402	4847961	Limy siltstone	Laminated to thin bedded	110/20	Weak
48031	7505517	4848089	Limy siltstone	Laminated to thin bedded		Weak
48032	7505780	4848028	Limy siltstone	Laminated to thin bedded	264/4	Weak
48033	7505565	4849174	Limy siltstone	Laminated to thin bedded	48/16	Weak
48034	7506513	4849105	Dolomitic siltstone	Laminated to thin bedded	30/15	No
48035	7506961	4848731	Dolomitic siltstone	Laminated to thin bedded	290/11	No
48036	7506406	4848818	Limy siltstone	Laminated to thin bedded	42/55	Weak
48037	7506353	4848839	Dolomitic siltstone	Laminated to thin bedded	48/52	No
48038	7506335	4848849	Dolomitic siltstone	Laminated to thin bedded		No
48039	7506359	4848860	Dolomitic siltstone	Laminated to thin bedded		No
48040	7506616	4849005	Dolomitic siltstone	Laminated to thin bedded	10/11	Very weak
48041	7506634	4848925	Clayey siltstone	Laminated		No
48042	7509871	4848116	Clayey siltstone	Laminated		Weak
48043	7509856	4848115	Dolomitic siltstone	Thin bedded		No
48044	7509337	4847720	Clayey siltstone	Laminated to thin bedded	32/8	No
48045	7509066	4847545	Clayey siltstone	Thin bedded		Weak
48046	7509357	4847589	Clayey siltstone	Laminated to thin bedded		No
48047	7509118	4848034	Clayey siltstone	Thin bedded		Weak
48048	7508318	4848276	Clayey siltstone	Laminated to thin bedded	350/11	Weak
48049	7508241	4848222	Clayey siltstone	Laminated to thin bedded	182/12	Weak
48050	7508132	4847932	Clayey siltstone	Laminated to thin bedded	182/12	Weak
48051	7508155	4848032	Clayey siltstone	Laminated to thin bedded	70/5	Weak
XRD002	7508155	4848033	Clayey siltstone	Laminated to thin bedded		Weak
48052	7508161	4848056	Clayey siltstone	Laminated to thin bedded		Weak
48053	7508136	4848080	Clayey siltstone	Laminated to thin bedded	40/2	Weak

Figure 1 – Diffraction pattern with schematic representation of relative intensity of the present mineral phases in sample

==> picture [341 x 148] intentionally omitted <==

Table 3 – Assays results of rock chips samples

Sample ID	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a
	Ag	Al	As	Ba	Be	Bi	Ca	Cd	Co	Cr	Cu	Fe
	ppm	%	ppm	ppm	ppm	ppm	%	ppm	ppm	ppm	ppm	%
48028	<1	2.82	50	180	<5	<10	6.25	<5	24	173	49	3.89
48029	<1	2.87	20	130	<5	<10	2.42	<5	28	173	49	3.96
48030	<1	3.13	70	180	<5	<10	4.44	<5	24	166	70	4.39
48031	<1	2.76	10	220	<5	<10	5.86	<5	23	184	45	3.95
48032	<1	3.27	40	190	<5	<10	4.51	<5	19	174	81	3.9
48033	<1	2.71	20	180	<5	<10	5.97	<5	21	175	46	3.66
48034	<1	2.78	20	150	<5	<10	5.03	<5	37	170	45	4.03
48035	<1	3.03	40	160	<5	<10	4.86	<5	20	172	61	3.73
48036	<1	3.04	60	170	<5	<10	3.38	<5	19	169	45	3.95
48037	<1	2.37	20	180	<5	<10	6.12	<5	23	140	46	3.2
48038	<1	2.6	30	180	<5	<10	6.48	<5	21	132	41	3.31
48039	<1	2.61	50	160	<5	<10	4.46	<5	20	135	45	3.86
48040	<1	3.03	60	190	<5	<10	3.99	<5	22	149	52	4.38
48041	<1	2.74	10	180	<5	<10	5.78	<5	22	180	46	3.72
48042	<1	3.01	10	150	<5	<10	5.17	<5	21	183	62	4.18
48043	<1	2.85	10	230	<5	<10	6.74	<5	20	179	43	4
48044	<1	2.54	70	170	<5	<10	5.75	<5	16	170	48	3.92
48045	<1	2.74	60	170	<5	<10	3.49	<5	28	167	62	4.18
48046	<1	3.11	80	220	<5	<10	5.34	<5	21	180	45	4.01
48047	<1	3.07	60	200	<5	<10	4.96	<5	25	167	60	4.24
48048	<1	2.68	20	200	<5	<10	6.35	<5	22	168	48	3.86
48049	<1	3.1	40	210	<5	<10	5.43	<5	23	180	63	4.39
48050	<1	2.83	30	310	<5	<10	6.25	<5	21	170	58	4.08
48051	<1	2.69	30	170	<5	<10	6.3	<5	18	168	43	3.47
48052	<1	2.72	20	180	<5	<10	6.37	<5	19	171	45	3.27
48053	<1	3.4	70	180	<5	<10	4.21	<5	28	193	78	4.82

Sample ID	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a
	Ga	Hg	K	La	Mg	Mn	Mo	Na	Ni	P	Pb	S
	ppm	ppm	%	ppm	%	ppm	ppm	%	ppm	ppm	ppm	%
48028	<50	<5	0.47	<50	4.19	960	<5	0.05	195	460	40	<0.05
48029	<50	<5	0.43	<50	1.53	480	<5	<0.05	182	420	30	<0.05
48030	<50	<5	0.39	<50	3.32	690	<5	0.89	182	250	30	<0.05
48031	<50	<5	0.47	<50	4.72	750	<5	0.14	187	220	20	<0.05
48032	<50	<5	0.38	<50	3.16	670	<5	1.19	181	210	50	<0.05
48033	<50	<5	0.4	<50	4.42	830	<5	0.57	174	280	20	<0.05
48034	<50	<5	0.41	<50	3.89	550	<5	0.8	284	200	20	<0.05
48035	<50	<5	0.41	<50	3.68	850	<5	0.69	165	240	40	<0.05
48036	<50	<5	0.49	<50	3	620	<5	0.13	193	270	20	<0.05
48037	<50	<5	0.43	<50	5.24	770	<5	0.41	146	210	20	<0.05
48038	<50	<5	0.42	<50	5.72	670	<5	0.48	128	190	20	<0.05
48039	<50	<5	0.42	<50	3.37	750	<5	0.25	142	290	20	<0.05
48040	<50	<5	0.48	<50	3.49	680	<5	0.53	157	250	20	<0.05
48041	<50	<5	0.44	<50	4.85	750	<5	0.69	166	280	30	<0.05
48042	<50	<5	0.43	<50	4.01	830	<5	0.62	187	240	40	<0.05
48043	<50	<5	0.38	<50	4.74	890	<5	0.77	218	250	70	<0.05
48044	<50	<5	0.49	<50	5.43	800	<5	0.12	194	200	30	<0.05
48045	<50	<5	0.4	<50	3.49	830	<5	0.33	191	290	40	<0.05
48046	<50	<5	0.53	<50	4.98	890	<5	0.37	159	240	40	<0.05
48047	<50	<5	0.46	<50	3.81	870	<5	0.44	174	200	30	<0.05
48048	<50	<5	0.47	<50	4.89	780	<5	0.17	185	190	40	<0.05
48049	<50	<5	0.41	<50	4.25	810	<5	0.83	200	200	80	<0.05
48050	<50	<5	0.42	<50	5.68	810	<5	0.16	153	180	50	<0.05
48051	<50	<5	0.53	<50	5.69	830	<5	0.36	181	200	30	<0.05
48052	<50	<5	0.52	<50	5.55	840	<5	0.39	155	150	30	<0.05
48053	<50	<5	0.4	<50	3.78	800	5	1.1	201	190	70	0.18

Sample ID	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a	ME- ICP41a
	Sb	Sc	Sr	Th	Ti	Tl	U	V	W	Zn	B	Li
	ppm	ppm	ppm	ppm	%	ppm	ppm	ppm	ppm	ppm	ppm	ppm
48028	10	7	285	<100	<0.05	<50	<50	55	<50	80	60	60
48029	<10	7	58	<100	<0.05	<50	<50	51	<50	110	<50	50
48030	<10	8	288	<100	<0.05	<50	<50	61	<50	110	80	100
48031	<10	8	429	<100	<0.05	<50	<50	57	<50	100	60	140
48032	<10	7	254	<100	<0.05	<50	<50	56	<50	110	100	90
48033	<10	9	404	<100	<0.05	<50	<50	58	<50	100	70	140
48034	<10	6	353	<100	<0.05	<50	<50	48	<50	100	100	160
48035	<10	8	293	<100	<0.05	<50	<50	58	<50	120	70	100
48036	<10	7	227	<100	<0.05	<50	<50	51	<50	110	<50	90
48037	<10	7	382	<100	<0.05	<50	<50	48	<50	100	80	180
48038	<10	7	398	<100	<0.05	<50	<50	50	<50	90	70	210
48039	<10	8	272	<100	<0.05	<50	<50	52	<50	100	50	80
48040	<10	7	252	<100	<0.05	<50	<50	59	<50	110	90	140
48041	<10	8	379	<100	<0.05	<50	<50	51	<50	100	80	190
48042	<10	9	315	<100	<0.05	<50	<50	74	<50	100	60	100
48043	<10	9	473	<100	<0.05	<50	<50	68	<50	110	60	90
48044	<10	8	395	<100	<0.05	<50	<50	61	<50	110	60	220
48045	<10	8	237	<100	<0.05	<50	<50	60	<50	120	60	100
48046	<10	11	426	<100	<0.05	<50	<50	68	<50	120	70	170
48047	<10	8	323	<100	<0.05	<50	<50	60	<50	120	70	100
48048	<10	8	430	<100	<0.05	<50	<50	58	<50	130	60	180
48049	<10	8	354	<100	<0.05	<50	<50	59	<50	140	70	140
48050	<10	7	426	<100	<0.05	<50	<50	56	<50	110	50	270
48051	<10	9	438	<100	<0.05	<50	<50	61	<50	110	70	280
48052	<10	9	444	<100	<0.05	<50	<50	67	<50	110	90	260
48053	<10	9	290	<100	<0.05	<50	<50	69	<50	130	80	160

JORC Code, 2012 Edition Table 1. This table applies to Rekovac Exploration Project

Section 1 Sampling Techniques and Data

Criteria	JORC Code explanation	JORC Code explanation	Commentary	Commentary
Sampling	•	Nature and quality of sampling (eg cut channels,		Sampling process itself includes the following
techniques		random chips, or specific specialised industry		steps:
		standard measurement tools appropriate to the		• The sample location was defined by
		minerals under investigation, such as down hole		handheld GPS and cross-checked on
		gamma sondes, or handheld XRF instruments,		sampling location map
		etc). These examples should not be taken as		• The soil profile is discarded using a shovel
		limiting the broad meaning of sampling.		and removing vegetation, surface debris
	•	Include reference to measures taken to ensure		and loose organic matter
		sample representivity and the appropriate		• Sample pit was cleaned out pebbles and
		calibration of any measurement tools or systems		decomposed leaf matter
		used.		• Approximately 2000 g material was sieved
	•	Aspects of the determination of mineralisation		using a stainless-steel sieve to remove any
		that are Material to the Public Report.		larger roots, pebbles and sieved into a
	•	In cases where ‘industry standard’ work has been		plastic bucket
		done this would be relatively simple (eg ‘reverse		• Sieved material was placed in a plastic
		circulation drilling was used to obtain 1 m		Ziploc bag
		samples from which 3 kg was pulverised to		• The sample number was written on the
		produce a 30 g charge for fire assay’). In other		sample bag which is carefully rolled to
		cases more explanation may be required, such as		removing excess air from the bag, and
		where there is coarse gold that has inherent		sealed completely
		sampling problems. Unusual commodities or		• The soil sample information was recorded
		mineralisation types (eg submarine nodules) may		in to “soil sampling log sheet” which
		warrant disclosure of detailed information.		contains the following information:
				• Sample ID; Coordinates (East-, Nord-,
				Elevation-,); Sampling depth; Host rock;
				Date of sampling
				• Afterward, the sample site was backfilled,
				and vegetation was placed back
			•	The rock chips samples were collected directly
				from fresh non weathered fine pelitic sediments
				along exposed outcrops.
			•	The samples were large enough to be
				representative for sedimentary lithology,
				generally in the range 0.5-1 kg.
			•	The sample is placed into the sampling
				container, which is labelled according to the
				attributed sample number.
			•	All relevant information with regard to the
				outcrop was recorded.
			•	Sample for XRD was taken from exposed white
				scattered nodules within the sedimentary basin.
			•	Regional gravity survey stations were
				accomplished within a grid with nominal station
				spacing of about 1000m. The regional gravity
				data were acquired using a WORDEN gravity
				meter.
			•	Regional magnetic survey stations were
				accomplished within a grid with station spacing
				of about 2000m. The regional magnetic data
				were acquired using magnetometer, which is
				measuring the vertical magnetic component of
				the geomagnetic field.

Criteria		JORC Code explanation	JORC Code explanation	Commentary	Commentary
Drilling		•	Drill type (eg core, reverse circulation, open-hole	•	The Company did not conduct any drilling
techniques			hammer, rotary air blast, auger, Bangka, sonic,		activities to date.
			etc) and details (eg core diameter, triple or
			standard tube, depth of diamond tails, face-
			sampling bit or other type, whether core is
			_oriented and if so, by what method, etc). _
Drill	sample	•	Method of recording and assessing core and chip	•	The release refers to results from surface
recovery			sample recoveries and results assessed.		sampling and geophysical surveys; this section is
		•	Measures taken to maximise sample recovery and		not relevant to this release.
			ensure representative nature of the samples.
		•	Whether a relationship exists between sample
			recovery and grade and whether sample bias may
			have occurred due to preferential loss/gain of
			fine/coarse material.
Logging		•	Whether core and chip samples have been	•	Information about sampling location, rock type
			geologically and geotechnically logged to a level		being sampled, the attitude of sedimentary
			of detail to support appropriate Mineral Resource		formation and reaction with HCL have been
			estimation, mining studies and metallurgical		recorded in field book and transferred in Excel
			studies.		spreadsheet subsequently.
		•	Whether logging is qualitative or quantitative in
			nature. Core (or costean, channel, etc)
			photography.
		•	The total length and percentage of the relevant
			intersections logged.
Sub-sampling		•	If core, whether cut or sawn and whether quarter,	•	The samples have been prepared in the ALS
techniques and			half or all core taken.		laboratory in Bor, Serbia.
sample		•	If non-core, whether riffled, tube sampled, rotary
preparation			split, etc and whether sampled wet or dry.		Soil samples:
		•	For all sample types, the nature, quality and	•	After drying samples to a maximum
			appropriateness of the sample preparation		temperature of 60ºC sample are sieved down to
			technique.		180 µm (80 mesh).
		•	Quality control procedures adopted for all sub-	•	After sample preparation, samples have been
			sampling stages to maximise representivity of		dispatched to ALS laboratory in Ireland for
			samples.		geochemical analyses
		•	Measures taken to ensure that the sampling is	•	Samples are analysed using ME-MS89L – Na2O2
			representative of the in situ material collected,		digestion and analysed by ICP-MS
			including for instance results for field		Rock chip samples:
			duplicate/second-half sampling.	•	After drying below 60ºC, all the samples were
		•	Whether sample sizes are appropriate to the		crushed so that 70% pass 2mm. Approximately
			grain size of the material being sampled.		250g of crushed material has been divided using
					a rotary splitter.
				•	After splitting samples were pulverised down to
					75µm.
				•	After sample preparation, sample pulps were
					dispatched to ALS laboratory in Ireland for
					geochemical analyses.
				•	Sample pulps were analyzed High-Grade Aqua
					regia ICP-AES. The ALS method is ME-ICP41a,
					comprising a standard suite of 35 elements
					including Li and B. The lower and upper
					detection range for Li and B by this method are
					50 ppm and 50,000 ppm respectively.
Quality	of	•	The nature, quality and appropriateness of the
assay data and laboratory			assaying and laboratory procedures used and whether the technique is considered partial or total.	•	ALS utilised standard internal quality control measures including the use of certified lithium

Criteria			JORC Code explanation	JORC Code explanation	Commentary	Commentary
tests			•	For geophysical tools, spectrometers, handheld		standards, blanks and duplicates.
				XRF instruments, etc, the parameters used in	•	No filed duplicates were collected during the
				determining the analysis including instrument		sampling program.
				make and model, reading times, calibrations	•	Internal lab duplicates were prepared by the
				factors applied and their derivation, etc.		laboratory to check the preparation process and
			•	Nature of quality control procedures adopted (eg		the precision of the instrument determination.
				standards, blanks, duplicates, external laboratory	•	One sample has been sent for mineral
				checks) and whether acceptable levels of accuracy		determination by XRD. The sample has been
				(ie lack of bias) and precision have been		analysed by the mineralogy department at
				established.		Belgrade University.
					•	Acquired regional gravity and magnetic survey
						were undertaken by Yugoslav geological survey
						during the '80s. There is no detail information
						about quality control from that time, but the
						data provider stated that data have been
						checked in recent years and that there is no
						significant deviation observed.
Verification		of	•	The verification of significant intersections by	•	No verification performed at this stage.
sampling		and		either independent or alternative company	•	Assay data received from the lab is imported
assaying				personnel.		into the database.
			•	The use of twinned holes.	•	No adjustment to assays data being applied.
			•	Documentation of primary data, data entry
				procedures, data verification, data storage
				(physical and electronic) protocols.
			•	Discuss any adjustment to assay data.
Location		of	•	Accuracy and quality of surveys used to locate	•	km = kilometer; m = meter; mm = millimeter
data points				drill holes (collar and down-hole surveys),	•	Samples were located using handheld GPS with
				trenches, mine workings and other locations used		an expected accuracy of +/-5m.
				in Mineral Resource estimation.	•	At that time the coordinates of the points were
			•	Specification of the grid system used.		determined from the topographic maps 1:
			•	Quality and adequacy of topographic control.		10000 scale where 1 mm on the map
						corresponds to 10 m in nature. Elevation has
						been surveyed by tachometer and levelling
						instruments.
					•	All sampling and geophysics survey coordinates
						are tied into the state triangulation network and
						provided in the Serbian Gauss Kruger coordinate
						system.
Data	spacing		•	Data spacing for reporting of Exploration Results.	•	No regular spacing was used. The samples were
and			•	Whether the data spacing and distribution is		collected from restricted outcrops.
distribution				sufficient to establish the degree of geological	•	The geophysics survey involved the acquisition
				and grade continuity appropriate for the Mineral		of regional gravity and magnetic data with a
				Resource and Ore Reserve estimation		spacing of about 1000m for gravity and 2000m
				procedure(s) and classifications applied.		for a magnetic survey.
			•	Whether sample compositing has been applied.	•	The data spacing and distribution is not
						sufficient to establish the degree of geological
						and grade continuity appropriate for Mineral
						Resource estimation purposes.
					•	No compositing applied.
Orientation		of	•	Whether the orientation of sampling achieves	•	The samples were taken directly from
data		in		unbiased sampling of possible structures and the		outcropping fine pelitic sedimentary strata to
relation		to		extent to which this is known, considering the		represent potential hosts of mineralisation that
geological				deposit type.		the Company is looking for.
			•	If the relationship between the drilling orientation

Criteria		JORC Code explanation	JORC Code explanation	Commentary	Commentary
structure			and the orientation of key mineralised structures
			is considered to have introduced a sampling bias,
			this should be assessed and reported if material.
Sample		•	The measures taken to ensure sample security.	•	Company geologist supervises all sampling and
security					subsequent storage in the field.
Audits	or	•	The results of any audits or reviews of sampling	•	There have not been any audits.
reviews			techniques and data.

Section	Section	2 Reporting of Exploration Results	2 Reporting of Exploration Results	2 Reporting of Exploration Results
Criteria			JORC Code explanation		Commentary
Mineral			•	Type, reference name/number, location and ownership	•	Centurion Metals DOO, a 100% owned
tenement and				including agreements or material issues with third		subsidiary of Jadar resources LTD, is a
land	tenure			parties such as joint ventures, partnerships, overriding		100% holder of Rekovac mineral
status				royalties, native title interests, historical sites, wilderness		exploration license (License # 2224).
				or national park and environmental settings.		The exploration license is located in the
			•	The security of the tenure held at the time of reporting		centre of the Republic of Serbia.
				along with any known impediments to obtaining a	•	At time of reporting the Company, the
				licence to operate in the area.		license is in good standing, and the
						Company plans to comply with all
						provisions relating to the Serbian
						mining law.
Exploration			•	Acknowledgment and appraisal of exploration by other	•	Historical work has been conducted on
done by other				parties.		the Rekovac project area by various
parties						Serbian and Yugoslav state geological
						agencies.
					•	There is no available information that
						any previous exploration work has
						been done related to the type and style
						of mineralisation that Jadar Lithium is
						looking for.
Geology			•	Deposit type, geological setting and style of	•	Evaporate (Lithium – borate) deposits
				mineralisation.		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
						volcanic and tuffs, or indications of
						spring or spring apron accumulations -
						travertine. The deposit model currently
						being used is Jadar deposit and it is a
						borate deposit with relatively high
						lithium content. The published Jadar
						deposit resource is 135.7 million tons
						of jadarite ore grading 15.4% B2O3 and
						1.86% Li2O.
Drill		hole	•	A summary of all information material to the	•	No drilling was undertaken.
Information				understanding of the exploration results including a
				tabulation of the following information for all Material
				drill holes:
				`o` easting and northing of the drill hole collar
				`o` elevation or RL (Reduced Level – elevation above sea
				level in metres) of the drill hole collar

Criteria		JORC Code explanation	JORC Code explanation	Commentary	Commentary
			`o` dip and azimuth of the hole
			`o` down hole length and interception depth
			`o` hole length.
		•	If the exclusion of this information is justified on the basis
			that the information is not Material and this exclusion
			does not detract from the understanding of the report,
			the Competent Person should clearly explain why this is
			the case.
Data		•	In reporting Exploration Results, weighting averaging	•	No data aggregation is done.
aggregation			techniques, maximum and/or minimum grade
methods			truncations (eg cutting of high grades) and cut-off grades
			are usually Material and should be stated.
		•	Where aggregate intercepts incorporate short lengths of
			high grade results and longer lengths of low grade
			results, the procedure used for such aggregation should
			be stated and some typical examples of such
			aggregations should be shown in detail.
		•	The assumptions used for any reporting of metal
			equivalent values should be clearly stated.
Relationship		•	These relationships are particularly important in the	•	As the geochemical results reported
between			reporting of Exploration Results.		here that were collected by Jadar
mineralisation		•	If the geometry of the mineralisation with respect to the		Lithium are from surface, any potential
widths	and		drill hole angle is known, its nature should be reported.		depths of mineralisation or
intercept		•	If it is not known and only the down hole lengths are		orientations can only be inferred from
lengths			reported, there should be a clear statement to this effect		geological observations on the surface
			(eg ‘down hole length, true width not known’).		and hence are speculative in nature.
Diagrams		•	Appropriate maps and sections (with scales) and	•	Maps and diagrams are part of this
			tabulations of intercepts should be included for any		report. See Report maps.
			significant discovery being reported These should
			include, but not be limited to a plan view of drill hole
			collar locations and appropriate sectional views.
Balanced		•	Where comprehensive reporting of all Exploration	•	The reporting here covers the area of
reporting			Results is not practicable, representative reporting of		the Company’s current focus. Further
			both low and high grades and/or widths should be		data analysis and interpretation may
			practiced to avoid misleading reporting of Exploration		result in the definition of drilling
			Results.		targets.
Other		•	Other exploration data, if meaningful and material,	•	The Company acquired historic gravity
substantive			should be reported including (but not limited to):		and ground magnetic survey data from
exploration			geological observations; geophysical survey results;		a local contractor.
data			geochemical survey results; bulk samples – size and	•	Gravity readings taken and recorded in
			method of treatment; metallurgical test results; bulk		the field go through several processing
			density, groundwater, geotechnical and rock		steps to generate absolute gravity
			characteristics; potential deleterious or contaminating		values. These steps include: converting
			substances.		the meter reading to milligals (using
					the calibration tables unique to each
					meter) and referencing them to the
					gravity base value, correcting for solar
					and lunar tides and meter drift, and
					correcting for the height of the meter
					above ground level. Absolute gravity
					(also known as observed gravity) values
					represent the change in the strength of
					gravity due to changes in: latitude,
					elevation, earth density and terrain
					effects. Accuracy of gravimeter was -
					0.1mGal.

Criteria	JORC Code explanation	JORC Code explanation	Commentary	Commentary
			•	The vertical component of the
				geomagnetic field was converted into a
				total vector by a special mathematical
				method taking into account the
				magnetic inclination and declination as
				well as the calculation of the normal
				geomagnetic field. The accuracy of the
				magnetometer at that time was 5 nT.
Further work	•	The nature and scale of planned further work (eg tests	•	Given the rapid advance of the
		for lateral extensions or depth extensions or large-scale		multidisciplinary exploration program
		step-out drilling).		currently underway, the Company
	•	Diagrams clearly highlighting the areas of possible		expects the exploration drilling
		extensions, including the main geological interpretations		program to be initiated in 2H 2019.
		and future drilling areas, provided this information is not
		commercially sensitive.

AI assistant

EV RESOURCES LTD Regulatory Filings 2019

64887_rns_2019-08-06_8aabf2e4-360e-4a9c-8d2b-80be28d867dc.pdf

ASX

BOARD & MANAGEMENT

Highlights

ASSET PORTFOLIO

AUSTRIA

Weinebene

SERBIA

Soil and Rock Sampling Program

Gravity Survey

Regional Magnetic Survey

Rekovac Project Geology

World Class Belt - The Vardar Zone

Planned activities

ENDS

Further Enquiries

Competent Person Statement

Disclaimer

AI assistant

EV RESOURCES LTD — Regulatory Filings 2019

64887_rns_2019-08-06_8aabf2e4-360e-4a9c-8d2b-80be28d867dc.pdf

ASX

BOARD & MANAGEMENT

Highlights

ASSET PORTFOLIO

AUSTRIA

Weinebene

SERBIA

Soil and Rock Sampling Program

Gravity Survey

Regional Magnetic Survey

Rekovac Project Geology

World Class Belt - The Vardar Zone

Planned activities

ENDS

Further Enquiries

Competent Person Statement

Disclaimer

More from EV RESOURCES LTD

EV RESOURCES LTD Regulatory Filings 2019