RUMBLE RESOURCES LIMITED — Capital/Financing Update 2018

May 3, 2018

4 May 2018

Revised ASX Announcement – "Option Exercised to Acquire Barramine Project"

On behalf of Rumble Resources Limited (ASX: RTR) please find enclosed revised ASX announcement "Option Exercised to Acquire Barramine Project", previously lodged 27 April 2018, which now includes section 1 of Table 1 in Appendix 5A (JORC table).

Ends.

For further information visit rumbleresources.com.au or contact enquiries@rumbleresources.com.au.

About Rumble Resources Ltd

Rumble Resources Ltd is an Australian based exploration company, officially admitted to the ASX on the 1st July 2011. Rumble was established with the aim of adding significant value to its current gold and base metal assets and will continue to look at mineral acquisition opportunities both in Australia and abroad.

Forward Looking and Cautionary Statement

The information in this report that relates to historic exploration results was collected from DMP reports submitted by government agencies and previous explorers. Rumble has not completed the historical data or the verification process. As sufficient work has not yet been done to verify the historical exploration results, investors are cautioned against placing undue reliance on them.

Competent Persons Statement

The information in this report that relates to Exploration Results is based on information compiled by Mr Brett Keillor, who is a Member of the Australasian Institute of Mining & Metallurgy and the Australian Institute of Geoscientists. Mr Keillor is an employee of Rumble Resources Limited. Mr Keillor has sufficient experience relevant to the style of mineralisation and type of deposit under consideration and to the activity which he is undertaking to qualify as a Competent Person as defined in the 2012 Edition of the "Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves". Mr Keillor consents to the inclusion in the report of the matters based on his information in the form and context in which it appears.

Rumble Resources Ltd

Suite 9, 36 Ord Street, West Perth, WA 6005

T +61 8 6555 3980

F +61 8 6555 3981

rumbleresources.com.au

ASX RTR

Executives & Management

Mr Shane Sikora Managing Director

Mr Brett Keillor Executive Director

Mr Matthew Banks Non-executive Director

Mr Michael Smith Non-executive Director

Mr Steven Wood Company Secretary

Rumble Exercises Option to Earn into the Barramine High Grade Base Metal Project

Highlights

Barramine High Grade Cu- Pb-Zn- Ag Project, Western Australia

• High-grade Cu, Pb, Zn, and Ag prospects associated with NNW structures have not been tested by drilling or modern exploration.
  • o Camel Hump Prospect large open mineralised structure returned:
    • Cu to 13.4%, Pb to 3.08%, Zn to 1.79% and Ag to 131 g/t
  • o Barramine Cu Prospect fault structure hosting significant Cu mineralisation, including:
    • 25.32% Cu, 279 g/t Ag
• The same geology and structures that hosts the high-grade Braeside Zn and Pb mineralisation extends into the Barramine Project.
  • o Recent exploration by Rumble within the Braeside Project, that adjoins the Barramine Project to the SSE, has identified anomalous Zn and Pb trends in soil geochemistry with VTEM conductors.
  • o Reconnaissance RC drilling by Rumble at Braeside recently identified significant widths of alteration and Pb/Zn mineralisation at the Barker Well Prospect, which lies 2km south of the Barramine Project southern boundary.
• Rumble successfully renegotiated the terms to significantly reduce the earn in expenditure requirement down by half, from $1.5m to $750k, to earn 70%.

Rumble Resources Ltd (ASX: RTR) ("Rumble" or "the Company") is pleased to announce that it has exercised its option to acquire the Barramine Cu-Pb-Zn-Ag Project. The Barramine Project (E45/4368) is located approximately 150km ENE of Marble Bar in the Pilbara Region of Western Australia (Image 1) and is contiguous to Rumble's Braeside project.

Rumble's Managing Director, Mr Shane Sikora, said: "Rumble are pleased to exercise the option to acquire the high grade Barramine base metal Project on more favourable terms than originally agreed. The Barramine Project is a strategic opportunity to secure the northern extension to the Braeside Project's 34km mineralised structure, increasing the total strike length to over 40km's.

A recent reconnaissance RC drill program at Rumble's neighbouring Braeside Project significantly identified base metal mineralisation in 17 of 19 holes and included a highgrade zinc discovery on the first ever RC drill program completed at Braeside.

At the northern boundary of the Braeside Project, the identified base metal soil geochemistry trends (associated with the Barker Well large mineralised alteration on the main geological structure) are interpreted to extend into the Barramine Project to the north. This interpretation, recent drilling results at Braeside and stream and rock chips samples on the contiguous geological structures at the Barramine Project have provided Rumble with confidence that there is a high potential of finding high-grade base metal discoveries at the Barramine Project.

Rumble will fast track modern, systematic base metal exploration at the Barramine Project to generate first order targets for drill testing".

Rumble Resources Ltd

Suite 9, 36 Ord Street, West Perth, WA 6005

T +61 8 6555 3980

F +61 8 6555 3981

rumbleresources.com.au

ASX RTR

Executives & Management

Mr Shane Sikora Managing Director

Mr Brett Keillor Technical Director

Mr Matthew Banks Non-executive Director

Mr Michael Smith Non-executive Director

Mr Steven Wood Company Secretary

Image 1 – Barramine Project and Braeside Project Location Plan

Previous Exploration

Previous exploration mainly focused on multiple Mn prospects that lie within the Carawine Dolomite, Pinjian Chert Breccia and to a lesser extent, the Jeerinah Formation (see image 2). Historic exploration for base metals and gold included select areas of stream sediment sampling with limited soil sampling and rock chip sampling follow up. Some 245 stream sediment samples, collected during the early 1990's (see image 2 for locations), returned widespread low order gold and silver anomalism. Grab sampling was generally limited and poorly located with only approximately 12 samples with confirmed locations.

Two areas of base metal mineralisation have been explored. The Barramine and Camel Hump prospects consist of small historic diggings associated with major NNW trending structures. The structures and style of mineralisation are similar to recently defined base metal prospects within Rumble's Braeside project (see image 1). Grab sampling results returned generally high-grade Cu, with strongly anomalous Pb, Zn and Ag and are associated with mafic volcanics/volcaniclastics/shales of the Fortescue Group.

• At the Barramine prospect a channel sample collected by Blatchford in 1925 assayed 25.32% copper, 279 g/t silver, and a trace of lead.
• At the Camel Hump prospect, rock chip samples were assayed up to 13.4% Copper, 6% Lead, 1.8% Zinc and 131 g/t Silver.

Geology

The Barramine Project covers the northern extension of the Fortescue and Hamersley Group Rocks (late Archaean) that lie within Rumble's Braeside Project. The Barramine Project hosts shales, siltstones, carbonates and mafic volcanics of the Lower Hamersley Group which in turn overlies andesites, basalts, volcaniclastics, sediments and porphyry of the Fortescue Group.

The north and northwest trending faults/structural zones, some with associated base metal mineralisation are hosted in Fortescue Group intermediate/mafic volcanics and volcaniclastics in association with the Koongaling Felsic Volcanics. The felsic volcanics are bimodal with the Fortescue Group basalts and are potentially the source of the poly-metallic mineralisation. Elsewhere within the project, numerous Mn prospects are hosted within the Carawine Dolomite and Pinjian Chert Brecia of the Hamersley Formation.

Image 2 – Barramine Project – Geology and Prospect Location Plan

Exploration Potential

Mineralisation Extending into the Barramine Project

Ongoing exploration (including reconnaissance RC drilling – Dec 2017) by Rumble at the Braeside Project has identified wide zones of alteration with strongly anomalous Pb and Zn. At the Barker Well Prospect (image 3 and 4), a single recent RC drill-hole intercepted up to 120m of silica – sericite - chlorite alteration with wide zones of Pb and Zn anomalism. A near surface intercept of 14m @ 0.75% Pb with 2m @ 3.6% Pb from 6m had targeted strongly mineralised surface alteration (4.23 % Pb). Small diggings nearby returned grades of 38.1% and 24.04% Pb.

The main structure, anomalous soil geochemistry and VTEM conductor trends associated with the Barker Well alteration and anomalism are interpolated to extend north into the Barramine Project.

Historic stream sediment sampling conducted during 1987 - 1991 in the southern portion of the Barramine Project highlighted a number of anomalous Au and Ag drainages. Elevated silver is strongly associated with the main mineralised structure (image 3) that extends north of the Barker Well prospect area (Braeside Project). Pb mineralisation within the Braeside Project is associated with silver (silver used as a proxy for Pb). Gold in stream anomalism is also associated with the main mineralised structure (image 4).

Image 4 - Southern Barramine Project – Extrapolation of Mineralised Structure from Braeside Project - Au in Stream Sediment Anomalism

Camel Hump Prospect (see image 2 for location)

High grade copper mineralisation with associated Pb, Zn and Ag lies within a northwest trending fault/shear structure in contact with felsic schists (felsic volcaniclastics) at the Camel Hump prospect. Limited grab sampling (12 rock chip samples) has defined multiple zones over a strike length of 1.5km (image 5). The zone of interest is completely open under shallow cover) and has not been explored by modern exploration (soil geochemistry, geophysics and drilling). Grab sampling results include:

• 13.4%, 1.78%, 1.4% Cu
• 3.08% Pb
• 1.79% Zn
• 131 g/t Ag

Rumble considers the potential for economic porphyry related style base metal mineralisation is high at the Camel Hump Prospect. No soil geochemistry or systematic grab sampling has been completed along the Camel Hump trend.

Image 5 – Camel Hump Prospect – Location of Grab Sample Base Metal Anomalism and Main Structure

Proposed Exploration – Barramine Project

Proposed exploration by Rumble includes the following for the 2018 field season.

• Soil Geochemistry (multi-element)
  • o Extending the Braeside existing soil geochemistry north into the Barramine Project.
  • o Detailed soil geochemistry along the Camel Hump Prospect trend.
  • o Detailed soil geochemistry along the Barramine Cu prospect trend.
• Prospect geological mapping and rock chip geochemistry over soil geochemical anomalies.
• Ground geophysical surveys of geochemical/geological targets (if warranted)

Key Commercial Terms of the Barramine Binding Earn-In Agreement

RTR renegotiated the terms to acquire 70% of the title and interest in the Barramine Project and has provided notice to Great Sandy that it has exercised the option based on the below Terms:

a. RTR has to spend $750,000 on exploration over a period of 3 years from the execution of the agreement to earn 70% (renegotiated down from A$1,500,000)

b. RTR is required to spend $50,000 before it can withdraw from the definitive agreement (renegotiated down from $100,000

• c. RTR to pay Great Sandy Pty Ltd $50,000 in RTR Shares

• d. Great Sandy Pty Ltd is free carried to BFS

• e. Following the completion of a BFS and decision to mine, Great Sandy Pty Ltd can either elect to contribute to ongoing project development or dilute to a 1.5% NSR

• f. Great Sandy Pty Ltd will reserve and retain all rights relating to manganese and iron ore

• ENDS –

About Rumble Resources Ltd

Rumble Resources Ltd is an Australian based exploration company, officially admitted to the ASX on the 1st July 2011. Rumble was established with the aim of adding significant value to its current gold and base metal assets and will continue to look at mineral acquisition opportunities both in Australia and abroad.

Forward Looking and Cautionary Statement

The information in this report that relates to historic exploration results was collected from DMP reports submitted by government agencies and previous explorers. Rumble has not completed the historical data or the verification process. As sufficient work has not yet been done to verify the historical exploration results, investors are cautioned against placing undue reliance on them.

Competent Persons Statement

The information in this report that relates to Exploration Results is based on information compiled by Mr Brett Keillor, who is a Member of the Australasian Institute of Mining & Metallurgy and the Australian Institute of Geoscientists. Mr Keillor is an employee of Rumble Resources Limited. Mr Keillor has sufficient experience relevant to the style of mineralisation and type of deposit under consideration and to the activity which he is undertaking to qualify as a Competent Person as defined in the 2012 Edition of the "Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves". Mr Keillor consents to the inclusion in the report of the matters based on his information in the form and context in which it appears.

Section 1 Sampling Techniques and Data

assay data

Criteria	JORC Code explanation	Commentary
Samplingtechniques	•Nature and quality of sampling (e.g. cut channels,random chips, or specific specialised industrystandard measurement tools appropriate to theminerals under investigation, such as down holegamma sondes, or handheld XRF instruments, etc.).These examples should not be taken as limiting thebroad meaning of sampling.•Include reference to measures taken to ensuresample representivity and the appropriate calibrationof any measurement tools or systems used.•Aspects of the determination of mineralisation that areMaterial to the Public Report.•In cases where 'industry standard' work has beendone this would be relatively simple (e.g. 'reversecirculation drilling was used to obtain 1 m samplesfrom which 3 kg was pulverised to produce a 30 gcharge for fire assay'). In other cases moreexplanation may be required, such as where there iscoarse gold that has inherent sampling problems.Unusual commodities or mineralisation types (e.g.submarine nodules) may warrant disclosure ofdetailed information.	•Grab sampling completed over theCamelHumpProspect.Thesampling was limited to inferredzone of mineralisation.•Rumble has an earn-in agreementexcluding manganese and iron orerights.•Previous exploration has focused ondelineating manganese deposits.Limited base metal explorationcompleted.
Drillingtechniques	•Drill type (e.g. core, reverse circulation, open-holehammer, rotary air blast, auger, Bangka, sonic, etc.)and details (e.g. core diameter, triple or standardtube, depth of diamond tails, face-sampling bit orother type, whether core is oriented and if so, by whatmethod, etc.)	•Not applicable - no drillingcompleted.
Drill samplerecovery	•Method of recording and assessing core and chipsample recoveries and results assessed.•Measures taken to maximise sample recovery andensure representative nature of the samples.•Whether a relationship exists between samplerecovery and grade and whether sample bias mayhave occurred due to preferential loss/gain offine/coarse material.	•Not applicable - no drillingcompleted.
Logging	•Whether core and chip samples have beengeologically and geotechnically logged to a level ofdetail to support appropriate Mineral Resourceestimation, mining studies and metallurgical studies.•Whether logging is qualitative or quantitative innature. Core (or costean, channel, etc.) photography.•The total length and percentage of the relevantintersections logged.	•Not applicable - no drillingcompleted.
Subsamplingtechniquesand samplepreparation	•If core, whether cut or sawn and whether quarter, halfor all core taken.•If non-core, whether riffled, tube sampled, rotary split,etc. and whether sampled wet or dry.•For all sample types, the nature, quality andappropriateness of the sample preparation technique.•Quality control procedures adopted for all subsampling stages to maximise representivity ofsamples.•Measures taken to ensure that the sampling isrepresentative of the in situ material collected,including for instance results for fieldduplicate/second-half sampling.•Whether sample sizes are appropriate to the grain••size of the material being sampled.	•Not applicable - no drillingcompleted.
Qualityof	•The nature, quality and appropriateness of the	•Grab sampling was random along

Criteria	JORC Code explanation	Commentary
andlaboratorytests	assaying and laboratory procedures used andwhether the technique is considered partial or total.•For geophysical tools, spectrometers, handheld XRFinstruments, etc., the parameters used in determiningthe analysis including instrument make and model,reading times, calibrations factors applied and theirderivation, etc.•Nature of quality control procedures adopted (e.g.standards, blanks, duplicates, external laboratorychecks) and whether acceptable levels of accuracy(i.e. lack of bias) and precision have beenestablished.	inferred mineralisation zones•Assaying by Ultratrace. Digest wasfour acid (total digest) with ICP MSfinish. Assay charge of 40 gram.•QA/QC internal laboratorystandards, blanks and duplicates.•Methodology of stream sedimentsampling by CEC not confirmed.Results include BLEG for Au andAg. BLEG refers to bulk leachextraction of gold by cyanide.
Verificationof samplingandassaying	•The verification of significant intersections by eitherindependent or alternative company personnel.•The use of twinned holes.•Documentation of primary data, data entryprocedures, data verification, data storage (physicaland electronic) protocols.•Discuss any adjustment to assay data.	•Not applicable - no drillingcompleted.
Locationofdata points	•Accuracy and quality of surveys used to locate drillholes (collar and down-hole surveys), trenches, mineworkings and other locations used in MineralResource estimation.•Specification of the grid system used.•Quality and adequacy of topographic control.	•Soil sampling was located by handheld GPS using GDA94 Z51 asdatum.•Location of stream sedimentsampling only approximate based onphotogrammetry.
Dataspacing anddistribution	•Data spacing for reporting of Exploration Results.•Whether the data spacing and distribution is sufficientto establish the degree of geological and gradecontinuity appropriate for the Mineral Resource andOre Reserve estimation procedure(s) andclassifications applied.•Whether sample compositing has been applied.	•Not applicable as no drillingcompleted.
Orientationofdatainrelationtogeologicalstructure	•Whether the orientation of sampling achievesunbiased sampling of possible structures and theextent to which this is known, considering the deposittype.•If the relationship between the drilling orientation andthe orientation of key mineralised structures isconsidered to have introduced a sampling bias, thisshould be assessed and reported if material.	•Grab sampling random
Samplesecurity	•The measures taken to ensure sample security.	•Unknown due to being historicalsamples
Auditsorreviews	•The results of any audits or reviews of samplingtechniques and data.	•Unknown due to being historicalsamples

Section 2 Reporting of Exploration Results

Criteria	JORC Code explanation	Commentary
Mineraltenementandlandtenurestatus	•Type, reference name/number, location andownership including agreements or material issueswith third parties such as joint ventures,partnerships, overriding royalties, native titleinterests, historical sites, wilderness or nationalpark and environmental settings.•The security of the tenure held at the time ofreporting along with any known impediments toobtaining a licence to operate in the area.	•E45/4368.••	The project comprises of a singlegranted exploration license –The license is currently owned byGreat Sandy Pty Ltd. RumbleResources has exercised its optionto earn 70% of the project.The license is granted, in a state ofgood standing and has no knownimpediments to operate in the area.
Explorationdone by otherparties	•Acknowledgment and appraisal of exploration byother parties.	•Ltd. See Table 1.•	Exploration for base metals atCamel Hump by Great Sandy PtyHistoric stream sediment samplingcompleted by CarpentariaExploration (CEC). The survey (245samples) was complete for Au andAg. Incomplete for base metals.Summary of CEC Au targets Table2. Results are Table 3.
Geology	•Deposit type, geological setting and style ofmineralisation.	•metal.	Target is Zn, Pb, Cu and preciousmetals. Deposit type is consideredthe same as Rumbles BraesideProject – porphyry related base
DrillholeInformation	•A summary of all information material to theunderstanding of the exploration results including atabulation of the following information for allMaterial drill holes:oeasting and northing of the drill hole collaroelevation or RL (Reduced Level – elevationabove sea level in metres) of the drill hole collarodip and azimuth of the holeodown hole length and interception depthohole length.•If the exclusion of this information is justified on thebasis that the information is not Material and thisexclusion does not detract from the understandingof the report, the Competent Person should clearlyexplain why this is the case.	•No drilling reported
Dataaggregationmethods	•In reporting Exploration Results, weightingaveraging techniques, maximum and/or minimumgrade truncations (e.g. cutting of high grades) andcut-off grades are usually Material and should bestated.•Where aggregate intercepts incorporate shortlengths of high grade results and longer lengths oflow grade results, the procedure used for suchaggregation should be stated and some typicalexamples of such aggregations should be shown indetail.•The assumptions used for any reporting of metalequivalent values should be clearly stated.	•	No drilling completed
Relationshipbetween	•These relationships are particularly important in thereporting of Exploration Results.	•completed	Not applicable – no drilling

Criteria	JORC Code explanation	Commentary
mineralisationwidthsandinterceptlengths	•If the geometry of the mineralisation with respect tothe drill hole angle is known, its nature should bereported.•If it is not known and only the down hole lengths arereported, there should be a clear statement to thiseffect (e.g. 'down hole length, true width notknown').
Diagrams	•Appropriate maps and sections (with scales) andtabulations of intercepts should be included for anysignificant discovery being reported These shouldinclude, but not be limited to a plan view of drill holecollar locations and appropriate sectional views.	•Image 1 presents the BarramineProject in conjunction with RumblesBraeside Project•Image 2 Barramine Project –Project Location and Geology Plan.•Image 3. Southern BarramineProject – Extrapolation ofMineralised Structure from BraesideProject - Ag in Stream SedimentAnomalism•Image 4. Southern BarramineProject – Extrapolation ofMineralised Structure from BraesideProject - Au in Stream SedimentAnomalism•Image 5. Camel Hump Prospect –Location of Grab Sample BaseMetal Anomalism and MainStructure•Table 1 presents the rock chipsamples
Balancedreporting	•Where comprehensive reporting of all ExplorationResults is not practicable, representative reportingof both low and high grades and/or widths shouldbe practiced to avoid misleading reporting ofExploration Results.	•Limited data for base metalexploration
Othersubstantiveexplorationdata	•Other exploration data, if meaningful and material,should be reported including (but not limited to):geological observations; geophysical surveyresults; geochemical survey results; bulk samples –size and method of treatment; metallurgical testresults; bulk density, groundwater, geotechnicaland rock characteristics; potential deleterious orcontaminating substances.	•No systematic soil samplingcompleted.•Selected stream sediment samplingwith the focus on Au and Ag
Further work	•The nature and scale of planned further work (e.g.tests for lateral extensions or depth extensions orlarge-scale step-out drilling).•Diagrams clearly highlighting the areas of possibleextensions, including the main geologicalinterpretations and future drilling areas, providedthis information is not commercially sensitive.	•Future work includes systematic soilsampling (same methodology ascompleted by Rumble in theBraeside Project)

Table 1 – Barramine Project - Significant Historical Assays - Camel Hump prospect

Sample ID	AU	Ag	Cu	Pb	Zn
Units	Ppb	Ppm	Ppm	Ppm	Ppm
CHMR1	34	27.5	1.40%	6.04%	1.80%
CHMR2	77	131	13.40%	3.08%	512
CHMR3		2	6470	1380	1270
CHMR4		1	3690	438	32
CHMR5		1	1150	427	108
CHMR6		0.5	100	42	44
CHMR7		-0.5	528	26	24
CHMR8		-0.5	270	188	32
CHMR9		-0.5	110	226	58
CHMR10		-0.5	84	23	10
CHMR11		-0.5	6650	20	24
CHMR12	15	3	1.78%	419	250

Table 2. Stream Sediment Sampling by CEC (1988) – Result Summary

Name	Sample	MGA East	MGANorth	Assayppb Au	Comments
Carters CkNorth	89954	296,062	7,680,306	9.7	800m W of E45/838.Repeated 6.8ppb, upstreamsamples 0.3 & 0.1ppb indicate source outside JV EL sonot followed up.
Greek CkEast	89956	298,867	7,679,037	6.4	Upstream sample 92724 16.8ppb confirmed result butsource area looks small as creeks draining the west sideare low. No soil sampling.
Greek CkWest	89679	297,774	7,678,698	3.0	Confirmed by upstream sample 92734 4.7ppb, butsurrounding samples <1ppb. No soil sampling.
Viking I	92623	292,213	7,686,528	28.7	Other values of 23.6 & 18.1 over 1.2km in NW trendingzone in Maddina Basalt. Other creeks sampled in areadid not have elevated results. No soil sampling.
Viking III	89882	295,261	7,685,311	6.4	Not followed up.Located 700m NW of Camel Humpoccurrence.In faulted Jeerinah Formation sedimentsand Maddina Basalt. No soil sampling.
Londonderry	92714	290,103	7,680,993	86.3	Supported by 64.1 & 23.8ppb over 1.5km, NW trend.Underlain by Bamboo Creek Member felsic volcanics(Hardy Formation) with a band of Kylena Formationcarbonate (Fortescue Group) possible related to theanomalism. Best soil sample 22ppb Au.
Paddy'sFind	89863	293,080	7,680,061	86.6	Repeat sampled at 4.6ppb but supported by 19.7ppbin aparallel creek.Maddina Basalt cut by a NW trendingfault. Best soil sample 200ppb Au came from a zone ofcarbonate altered? basalt.
Carters Ck	93376	295,986	7,678,186	142	Supported by 49.6, 12.7ppb in adjacent creeks, defines aNNW zone ~500m long parallel stratigraphy in MaddinaBasalt. Mapped by CEC, best soil sample 147ppb Au.
Carters CkNorth	89954	296,062	7,680,306	9.7	No follow-up drainage sampling. In Kylena Basalt. Bestsoil sample 5ppb Au from 400x500m grid.

Table 3. Stream Sediment Sampling Results – CEC 1988

SAMPLE	MGA_E	MGA_N	AU_BLEG_PPB		AG_PPB AS_PPM CO_PPM SAMPLE			MGA_E	MGA_N	AU_BLEG_PPB AG_PPB AS_PPM CO_PPM
92710	289886.8 7680634		1.1	1.8	0	0	90883		292722.8 7684680.6	0.5	7	5	39
92709	290276.7 7680450		0.3	1.4	0	0	89967	290495	7684651.1	0	0	3	7
92708	290384.3 7680457		64.1	18.6	0	0	90881		294546.9 7683961.1	19.2	5.2	-2	31
89865	290475.7 7680192		6	1.9	-2	36	90887		288058.7 7683946.8	0	0	0	0
89864	290611.7 7680236		1.7	4.1	15	40	90886		288882.9 7684904.8	0	0	0	0
92717	290753.4 7680737		1.6	3.1	0	0	89811		289272.5 7684674.8	0	0	0	0
93285	291032.8 7680197		-0.1	11.3	4	19	90885		289167.3 7684932.9	0	0	0	0
93284?	291171.8 7680152		0.6	5.2	2	81	89965		290291.8 7686822.1	0.3	4	0	30
93283	291425.6 7680141		0.2	6.7	3	24	89966		290459.6 7686774.7	0.7	3	0	42
89948	292918.8 7680698		1.1	9.9	3	0	92712	289459.2	7681193	2.1	0	0	0
89946	293110.9 7680554		0.5	2.8	4	37	92713		289452.1 7681288.2	23.8	0	0	0
89947	292953.9 7680406		0.2	1.8	4	82	92714		289485.6 7681359.1	86.3	7.2	0	0
89863	292626.4 7680119		86.6	80.8	-2	21	92711		289843.5 7681135.9	2.7	16.8	0	0
92704	292930.4 7680005		19.7	22.2	0	0	92715		290364.4 7681532.1	1.1	10	0	0
92706	293159.3 7679980		1.6	8	0	0	92716		290511.5 7681283.8	2.4	6	0	0
92705	293234.3 7680082		5.8	5.5	0	0	93286		291152.7 7681356.1	-0.1	8.3	6	25
89676	290079.4 7678959		0.1	6.7	4	37	92707		293606.2 7679921.9	0.5	2.8	0	0
89997	289793	7678894	1	10.8	3	38	92640		295263.1 7677357.2	0	0	0	0
89996	289632.4 7678820		2.6	7.7	6	15	92639		294976.8 7677658.8	0	0	0	0
89949?	290395.2 7677749		0	0	-2	38	92638		294955.2 7677863.9	0	0	0	0
98866	291060.1 7676868		0	0	0	0	92637		294984.5 7678142.9	0	0	0	0
89998	292485.2 7678081		0	0	0	0	92636		295005.9 7678150.8	0	0	0	0
89999	292559	7678244	0	0	0	0	90838	295021.7	7678260	0	0	0	0
89667	291708.9 7678258		0	0	0	0	90837		294977.1 7678308.7	0	0	0	0
89962	295833.6 7676955		0.1	1.2	4	26	93373	295023	7678362.9	0	0	0	0
89961	295764.1 7676915		0.1	1.8	3	36	93372		294968.6 7678510.4	0	0	0	0
89951	295111.4 7677361		0.6	3	2	34	98678		294799.5 7678552.7	0	0	6	39
89869	294905.7 7677808		0.2	3.9	2	34	90836		294816.3 7678488.7	0	0	0	0
	rs 93102 294794.1 7678560		0	0	0	0	rs 93103	295439	7678832.1	1.2	3.9	0	0
89871	295437.9 7678818		28.1	8.9	-2	31	93104	295502.5	7678722	0.7	5.6	0	0
93287	294416.8 7678675		0	0	5	23	92600		295807.5 7679204.3	3.5	12.9	0	0
93288	294384.9 7678636		0	0	4	34	92599	295799.7	7679181	4	16.4	0	0
90000	294123.3 7679039		1.2	3.5	10	12	92598		295679.7 7679100.2	2.7	18.9	0	0
89950	293575.9 7678516		0	0	2	34	92601		296323.2 7679281.1	0.7	8.7	0	0
89867	293232	7679066	0.1	2.6	0	0	92602		296499.4 7679050.8	1.3	10.2	0	0
89868?	293060.8 7679130		-0.1	2.5	0	0	92603		296672.2 7678842.7	0.6	9.4	0	0
93298	294527.3 7681216		0.5	5.9	7	31	92606		296655.6 7678378.5	1.1	10.2	0	0
89805	293530.3 7681379		0.2	1.6	4	37	92605		296657.3 7678334.9	1.1	3.8	0	0
89804	293306.5 7681382		0.1	9.5	6	25	92604		296715.7 7678318.3	0.8	7.2	0	0
89878	293862.2 7681736		0.5	3.6	3	22	92656		296768.5 7677658.5	0.7	8.6	0	0
89902	293957.4 7681993		2.7	9.2	3	22	92655		296553.8 7677679.4	2.6	16.9	0	0
93299	294445.7 7682157		0.5	6.1	2	28	92654		296550.1 7677801.9	2.4	9.7	0	0
89879	293905.1 7682305		0.2	2.4	9	21	92653	296565	7677837.1	4.9	38.7	0	0
89807	293879.9 7682794		0	0	3	43	92612		296283.1 7678397.3	2	32.9	0	0
89064	293619.9 7683281		0.4	1.9	2	38	92610	296211	7678321.3	1.8	5.2	0	0
92596	293306.3 7683640		0.2	2.8	0	0	92611		296232.2 7678312.7	9.2	11	0	0
89904	293145.8 7684099		0.2	5.1	3	28	92607		296321.1 7678200.5	4.8	9.8	0	0
89880	292914.9 7683270		0.2	4.7	5	21	92608		296348.9 7678215.2	5.6	19.8	0	0
93281	293409.3 7681353		-0.1	3.6	2	32	92609		296370.3 7678273.3	1.9	16.7	0	0
89881	292654.4 7687871		0.1	7.6	-2	85	92613		296141.6 7678603.9	9.7	45.7	0	0
89905	293175.2 7687783		5.3	4.7	2	25	92616	296152	7678654.4	4.8	23.1	0	0
89812	293878.4 7686995		0.2	8.8	4	18	92615		296135.1 7678827.1	2.2	27.1	0	0
90884	291506.3 7686213		10.6	7.3	3	39	92614		296133.9 7678864.1	6.1	30	0	0
89810	290889.3 7685987		0	0	6	31	93379		295959.5 7678809.2	2.8	13	0	0
90882	292687.7 7684645		0.1	2.2	6	35	93380		295949.5 7678776.3	2.8	14.4	0	0

Table 3. Stream Sediment Sampling Results – CEC 1988

93105295810.6 76787014.715.80089882295248.5 7685841.46.4731693376295868.7 767829314213.90089906295866.9 7685644.7-0.172993377295866.1 76782632.77.60089907298585.9 7684856.20.12.30093378295606.7 76780940.21.90089813297606.97684332-0.11.50093101295623.6 76780581.84.70089883298070.9 7684053.2-0.12.40092649295790.1 76779043.718.10093300294595.9 7683934.90.33.632792650295804.3 76779178.712.40089806295514.7 7682119.30.11.822192652295956.6 767792649.612.90093289295540.1 7677197.20.21.842392651295954.5 767789312.713.40089963295805.9 7676979.80.32.74229337429517076782850000899522966317675462.9000093375295252.4 76782460.14.20089953295904.7 7679395.20.62.368490839295348.1 7677975000089954295903.1 7679478.19.73.502490840295409.2 76779731.25.40093290296509.4 7679710.6-0.12.341592642295517.6 76776280.35.40092723296385.4 7679619.50.33.40092641295543.5 76776140.77.80089872296673.4 7679480.10.35.141692643295639.1 76775701.15.60092291?297216.3 7680059.7-0.11.10092644295663767757115.60092722297218.576799430.11.30092645295674.7 76775310.66.90089955?2975077680266.40.21.60092648296130.4 76775334.115.80089673?297662.2 7680455.40.11.70092579291960.1 768687023.614.70089680297391.1 7679439.40.240092578292005.3 76868570.55.700896792973027679339.3321.50092627292434.4 76868950.16.30092734297722.1 7678813.64.711.20092626292452.3 76868750.17.40092733297805.1 7678807.30.88.40092629292528.8 76868533.213.70092732297752.6 7678388.60.46.30092628292600.5 76868580.17.90092730298090.276783820.46.90092630292696.8 76867350.312.90092731298052.376782770.46.7009263229275076867051.611.10089802298175.1 7678187.70.31.60092631292729.9 76866810.37.70089958299119.8 7677994.90.21.70092595293208.4 768669432.218.30093294300424.6 7677578.90.33.10092594293109.8 76864690.912.70093295300622.676775630.12.20092593293129.9 76864510.613.10089877301652.9 7676330.200009258029177276866220.59.400932973019557677331.8000092621291805.1 7686603310.80089876301835.4 7677742.9000092623291979.5 768655328.716.50093296301410.7 7677725.6000092622291992.1 76865200.99.90089857300307.9 7678856.90.11.30092625292153.3 76865731.619.80093293299791.776793390.11.10092624292137.1 76865453.919.30089874299573.5 7679284.10.11.90092588292476.5 76864410.44.70093292298941.3 7679660.7-0.11.80092587292463.5 76863870.87.90089956299074.3 7679410.26.460092591292784.3 76862170.516.10092725299132.2 7679297.20.22.70092592292813.6 76861953.911.20092724298966.2 7679296.416.813.80092590292670.5 768607418.113.200927262992917679025.20.98.1009258629230576862931.718.30092727299134.1 7679014.40.37.40092585292246.6 76862330.48.50092728299229.9 7678654.70.39.30092584292271.8 7686211221.10092729299066.4 7678656.70.12.10089895291822.9 76864008.718.70089903297351.1 7682045.9-0.180089894291815.4 76864610.6170089901300804.8 7681756.5-0.12.70089893291745.4 76864920.812.70089722?296719.9 7679641.902.700907802930007684302-0.12.60092785297362.3 7679274.10.57.10090860292958.3 7684240-0.14.30089959298311.9 7675869.3000093371293106.4 76841080.79.90089885293274.4 7689329.6003892634293353.1 76841510.23.40092581292188.9 7685929.30.813.90092635293356.5 76839890.34.60092582292176.3 7685960.90.59.60092597293471.5 76838630.57.70092583292121.7 7685971.80.915.10090859293247.4 76838993.25.30089897291722.6 7685964.10.330093370293193.1 7683728000089898291612.6 7686028.91.416.30089809293247.9 768369117.210.833389899291594.1 7686153.31.532.40090398294300.3 76847670.76.200rs 92633 293236.7 7683884.20.440090399294343.4 76847640.87.20092703292592.3 7680109.95.42.50090400294434.4 76845640.36.30089814301436.4 7691026.7-0.12009310729435776842590.313.300UNKN01 296031.1 7677585.82.710.80089909294573.5 7690419-0.11.200UNKN02 295929.3 7677571.90.79.40089908300447.6 7688510-0.11.10089724293153.1 7684126.20.25.10089884300519.1 7688385-0.11.700rs 93106 294544.3 7683975.90.714.900	SAMPLE	MGA_E	MGA_N	AU_BLEG_PPB		AG_PPB AS_PPM CO_PPM SAMPLE	MGA_E	MGA_N	AU_BLEG_PPB AG_PPB AS_PPM CO_PPM