Auger Sampling Extends Big Sky Gold Target

LSR ASX Announcement

ASX ANNOUNCEMENT

2nd February 2016 Electronic lodgement

COMPANY SNAPSHOT

LODESTAR MINERALS LIMITED ABN: 32 127 026 528

CONTACT DETAILS

Bill Clayton, Managing Director

+61 8 9423 3200

Registered and Principal Office Level 2, 55 Carrington Street

Nedlands, WA 6009

PO Box 985

Nedlands, WA, 6909 [email protected] www.lodestarminerals.com.au

CAPITAL STRUCTURE

Shares on Issue:

352,157,030 (LSR)

Options on Issue:

43,550,127 (unlisted)

34,067,203 (listed - 31 Mar 2016)

ASX: LSR

PROJECTS

Peak Hill - Doolgunna: Camel Hills - gold Neds Creek - gold Marymia - gold

Imbin - gold and base metals

TARGET EXTENDED TO 150M AT BIG SKY HIGH-GRADE GOLD SYSTEM

HIGHLIGHTS

Auger sampling returns widespread elevated gold mineralisation with results up to 11g/t.
A clear 150m trend identified west and south of the high-grade lode intersected in maiden Big Sky RC drill program.
High priority, 1,000m follow-up RC drill program of this area scheduled by end of March quarter, subject to statutory approval and seasonal weather conditions.
Further evidence gold mineralisation at Camel Hills is related to magnetic contact of Petter Calc-silicate unit - 6km of prospective contact west of Big Sky remains untested.

West Australian gold and base metal explorer Lodestar Minerals Limited (ASX:LSR, "Lodestar" or "the Company") advises that is has received assay results for the auger geochemical program completed in December 2015 at the Big Sky prospect, within the Company's wholly-owned Camel Hills project.

Camel Hills is located within the Errabiddy Shear Zone at the boundary of the Archaean Narryer Terrane and Palaeoproterozoic rocks of the Glenburgh Terrane, 200 kilometres northwest of Meekatharra (see Figure 1). Previous explorers identified strongly anomalous gold in soil and stream samples over a 6 kilometre by 2 kilometre area, centred on the Camel Hills tenement E09/20991.

1 See Desert Mines and Metals Limited (ASX:DSN) ASX release dated 22nd April 2013.

Big Sky

Figure 1 Location Plan - Camel Hills project tenements and Big Sky gold prospect.

Lodestar completed an extensive program of detailed, shallow auger sampling throughout the Big Sky area to identify potential extensions to the existing high-grade gold lode. The maiden RC drill program completed at Big Sky in September 2015 intersected numerous ore grade intervals including 6 metres at 6.6g/t gold from 13 metres, including 1 metre at 33.3g/t gold from 13 metres, and 6 metres at 20.3g/t gold from 21 metres, including 1 metre at 105g/t gold from 21 metres (see ASX release dated 20 October 2015).

Auger sampling, generally completed to a depth of less than 1 metre, was carried out on a 5 metre by 5 metre grid around the lode outcrop and on a 20 metre by 5 metre grid elsewhere. The high-grade lode intersected in RC drilling suggests a true width of approximately 3 metres and the auger spacing was designed to provide sufficient cover to identify any repeat lodes.

The sampling was intended to intersect the weakly weathered basement below colluvial cover of variable thickness. Auger sampling of this nature is designed to identify an area with elevated gold mineralisation above background levels which is typically only a small fraction of grades encountered in drilling, should mineralised structures exist.

Lodestar submitted over 1,000 auger samples and of these, 197 reported anomalous values of greater than 20ppb gold and 47 samples are regarded as highly anomalous, with values greater than 60ppb gold.

Full results of the auger program are listed in Table 1.

Sampling around the discovery high-grade lode reported strongly elevated gold, up to 11g/t, with higher values extending in a zone, oriented at a low angle to the magnetic contact, 150 metres west and south of the lode tested by RC drilling (see Figures 2 and 3).

70% of the highly anomalous samples occur within the trend extending from the discovery lode.

Inset Figure 3

Figure 2: Big Sky auger sample results showing gold distribution (MGA94 Zone 50)

LCC012 - 6m @20.3g/t Au from 21m, including 1m @ 105g/t Au from 21m

LCC011 - 6m @ 6.6g/t Au from 13m, including 1m @ 33.3g/t Au from 13m

LCR012 - 5m @1.3g/t Au from 5m

Figure 3: RC drill target defined by auger sampling.

A 1,000m RC program will be designed to test the auger geochemical target over a 150 metre strike length. Strong vertical lineation preserved in the vein system indicates potential for down-plunge extensions to high-grade shoots and the drilling will target depth extensions to the lode system in addition to the strike defined by the auger sampling. Drilling is planned by the end of the March quarter, subject to statutory approvals and weather conditions.

Samples from the auger program were assayed for sulphur as a proxy for sulphide mineralisation. The results define a zone of low-gold with elevated sulphur associated with the westerly projection of the magnetic contact. Sulphur is believed to represent part of a zoned hydrothermal event that gave rise to gold mineralisation and this finding adds further conviction to the belief that the Petter Calc-silicate contact is a key exploration target that is untested in the area west of Big Sky. A detailed magnetic survey of this contact is will be completed, extending 6 kilometres west of Big Sky, prior to commencing regional geochemical sampling.

Bill Clayton Media Enquiries:

Managing Director Michael Vaughan [email protected]

+61 422 602 720

Competent Person Statement

The information in this report that relates to Exploration Results is based on information compiled by Bill Clayton, Managing Director, who is a Member of the Australasian Institute of Geoscientists and has sufficient experience of relevance to the styles of mineralisation and the types of deposits under consideration, and to the activities undertaken, to qualify as a Competent Person as defined in the 2012 Edition of the Joint Ore Reserves Committee (JORC) Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves. Mr Clayton consents to the inclusion in this report of the matters based on the information in the form and context in which it appears.

The information in this announcement that relates to previously released exploration results was disclosed under JORC 2012 in the ASX announcements dated 28th August 2015 "First Pass Drill Results from Big Sky Gold Prospect" and 20th October 2015 "Big Sky RC Drilling results high-grade gold". These announcements are available to view on the Lodestar website. The company confirms that it is not aware of any new information or data that materially affects the information included in the original market announcement. The company confirms that the form and context in which the Competent Person's findings are presented have not been materially modified from the original market announcement.

Table 1 Auger Sample Locations and Assay Results

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA0030	LSR28546		450	478,746.4	7,179,793.5	22	200
LCA0031	LSR28547		450	478,744.7	7,179,798.2	5	100
LCA0032	LSR28548		450	478,743.0	7,179,802.9	43	200
LCA0033	LSR28549		450	478,741.3	7,179,807.6	22	250
LCA0034	LSR28550		450	478,739.6	7,179,812.3	41	350
LCA0035	LSR28551		450	478,737.9	7,179,816.9	5	150
LCA0036	LSR28552		450	478,736.2	7,179,821.6	3	100
LCA0037	LSR28553		450	478,734.5	7,179,826.3	15	300
LCA0068	LSR28535		450	478,738.3	7,179,830.4	5	200
LCA0069	LSR28536		450	478,740.0	7,179,825.7	4	250
LCA0070	LSR28537		450	478,741.7	7,179,821.0	39	300
LCA0071	LSR28538		450	478,743.4	7,179,816.3	22	300
LCA0072	LSR28540		450	478,745.1	7,179,811.6	9	150
LCA0073	LSR28541		450	478,746.8	7,179,806.9	35	300
LCA0074	LSR28542		450	478,748.6	7,179,802.2	6	100
LCA0075	LSR28543		450	478,750.3	7,179,797.5	15	250
LCA0076	LSR28544		450	478,752.0	7,179,792.8	40	250
LCA0077	LSR28545		450	478,753.7	7,179,788.1	16	200
LCA0081	LSR28526		450	478,757.5	7,179,792.2	9	100
LCA0082	LSR28527		450	478,755.8	7,179,796.9	28	100
LCA0083	LSR28528		450	478,754.1	7,179,801.6	5	100
LCA0084	LSR28529		450	478,752.4	7,179,806.3	9	100
LCA0085	LSR28530		450	478,750.7	7,179,811.0	14	250
LCA0086	LSR28531		450	478,749.0	7,179,815.7	12	100
LCA0087	LSR28532		450	478,747.3	7,179,820.4	5	150
LCA0088	LSR28533		450	478,745.6	7,179,825.1	12	250
LCA0089	LSR28534		450	478,743.8	7,179,829.8	11	200
LCA0119	LSR28517		450	478,746.0	7,179,838.5	15	100
LCA0121	LSR28518		450	478,749.4	7,179,829.1	6	100
LCA0122	LSR28521		450	478,751.1	7,179,824.4	11	100
LCA0124	LSR28522		450	478,754.5	7,179,815.0	11	100
LCA0126	LSR28523		450	478,758.0	7,179,805.6	8	100
LCA0127	LSR28524		450	478,759.7	7,179,800.9	28	200
LCA0128	LSR28525		450	478,761.4	7,179,796.2	19	250
LCA0138	LSR28512		450	478,758.4	7,179,819.1	15	150
LCA0139	LSR28513		450	478,756.7	7,179,823.8	14	100
LCA0140	LSR28514		450	478,755.0	7,179,828.5	13	100
LCA0141	LSR28515		450	478,753.2	7,179,833.2	7	150
LCA0142	LSR28516		450	478,751.5	7,179,837.9	13	150
LCA0171	LSR28502		450	478,755.4	7,179,841.9	24	300
LCA0172	LSR28503		450	478,757.1	7,179,837.2	11	150
LCA0173	LSR28504		450	478,758.8	7,179,832.5	12	250

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA0174	LSR28505		450	478,760.5	7,179,827.8	10	100
LCA0175	LSR28506		450	478,762.2	7,179,823.2	10	100
LCA0176	LSR28507		450	478,763.9	7,179,818.5	110	100
LCA0177	LSR28508		450	478,765.6	7,179,813.8	31	150
LCA0178	LSR28509		450	478,767.4	7,179,809.1	10	100
LCA0179	LSR28510		450	478,769.1	7,179,804.4	50	100
LCA0180	LSR28511		450	478,770.8	7,179,799.7	10	150
LCA0186	LSR28492		450	478,774.6	7,179,803.7	15	150
LCA0187	LSR28493		450	478,772.9	7,179,808.4	20	150
LCA0188	LSR28494		450	478,771.2	7,179,813.1	18	100
LCA0189	LSR28495		450	478,769.5	7,179,817.8	33	250
LCA0190	LSR28496		450	478,767.8	7,179,822.5	15	300
LCA0191	LSR28497		450	478,766.1	7,179,827.2	123	350
LCA0192	LSR28498		450	478,764.4	7,179,831.9	5	100
LCA0193	LSR28500		450	478,762.6	7,179,836.6	7	100
LCA0194	LSR28501		450	478,760.9	7,179,841.3	9	100
LCA0223	LSR28482		450	478,764.8	7,179,845.4	38	400
LCA0224	LSR28483		450	478,766.5	7,179,840.7	12	100
LCA0225	LSR28484		450	478,768.2	7,179,836.0	5	100
LCA0226	LSR28485		450	478,769.9	7,179,831.3	22	150
LCA0227	LSR28486		450	478,771.6	7,179,826.6	21	200
LCA0228	LSR28487		450	478,773.3	7,179,821.9	29	250
LCA0229	LSR28488		450	478,775.0	7,179,817.2	43	350
LCA0230	LSR28489		450	478,776.7	7,179,812.5	28	350
LCA0231	LSR28490		450	478,778.5	7,179,807.8	46	200
LCA0232	LSR28491		450	478,780.2	7,179,803.1	65	250
LCA0238	LSR28473		450	478,784.0	7,179,807.1	11	150
LCA0239	LSR28474		450	478,782.3	7,179,811.8	49	250
LCA0240	LSR28475		450	478,780.6	7,179,816.5	55	100
LCA0241	LSR28476		450	478,778.9	7,179,821.2	117	250
LCA0242	LSR28477		450	478,777.2	7,179,825.9	69	250
LCA0243	LSR28478		450	478,775.5	7,179,830.6	34	150
LCA0244	LSR28480		450	478,773.8	7,179,835.3	26	250
LCA0245	LSR28481		450	478,772.0	7,179,840.0	7	100
LCA0275	LSR28463		450	478,774.2	7,179,848.8	41	300
LCA0276	LSR28464		450	478,775.9	7,179,844.1	22	300
LCA0277	LSR28465		450	478,777.6	7,179,839.4	33	100
LCA0278	LSR28466		450	478,779.3	7,179,834.7	15	300
LCA0279	LSR28467		450	478,781.0	7,179,830.0	179	350
LCA0280	LSR28468		450	478,782.7	7,179,825.3	18	150
LCA0281	LSR28469		450	478,784.4	7,179,820.6	15	100
LCA0282	LSR28470		450	478,786.1	7,179,815.9	20	250
LCA0283	LSR28471		450	478,787.9	7,179,811.2	25	150
LCA0284	LSR28472		450	478,789.6	7,179,806.5	25	100
LCA0290	LSR28453		450	478,793.4	7,179,810.6	16	250
LCA0291	LSR28454		450	478,791.7	7,179,815.3	55	300

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA0292	LSR28455		450	478,790.0	7,179,820.0	67	300
LCA0293	LSR28456		450	478,788.3	7,179,824.7	22	100
LCA0294	LSR28457		450	478,786.6	7,179,829.4	66	250
LCA0295	LSR28458		450	478,784.9	7,179,834.1	36	200
LCA0296	LSR28460		450	478,783.1	7,179,838.7	19	150
LCA0297	LSR28461		450	478,781.4	7,179,843.4	18	100
LCA0298	LSR28462		450	478,779.7	7,179,848.1	16	200
LCA0327	LSR28444		450	478,783.6	7,179,852.2	32	300
LCA0328	LSR28445		450	478,785.3	7,179,847.5	4	150
LCA0329	LSR28446		450	478,787.0	7,179,842.8	27	250
LCA0330	LSR28447		450	478,788.7	7,179,838.1	45	450
LCA0331	LSR28448		450	478,790.4	7,179,833.4	11	100
LCA0332	LSR28449		450	478,792.1	7,179,828.7	13	100
LCA0333	LSR28450		450	478,793.8	7,179,824.0	23	250
LCA0334	LSR28451		450	478,795.5	7,179,819.3	38	400
LCA0335	LSR28452		450	478,797.3	7,179,814.6	14	100
LCA0343	LSR28435		450	478,801.1	7,179,818.7	15	100
LCA0344	LSR28436		450	478,799.4	7,179,823.4	121	400
LCA0345	LSR28437		450	478,797.7	7,179,828.1	19	150
LCA0346	LSR28438		450	478,796.0	7,179,832.8	22	250
LCA0347	LSR28440		450	478,794.3	7,179,837.5	33	200
LCA0348	LSR28441		450	478,792.5	7,179,842.2	24	200
LCA0349	LSR28442		450	478,790.8	7,179,846.9	26	100
LCA0350	LSR28443		450	478,789.1	7,179,851.6	6	250
LCA0379	LSR28427		450	478,793.0	7,179,855.6	218	150
LCA0380	LSR28428		450	478,794.7	7,179,850.9	37	300
LCA0381	LSR28429		450	478,796.4	7,179,846.2	19	150
LCA0382	LSR28430		450	478,798.1	7,179,841.5	37	150
LCA0383	LSR28431		450	478,799.8	7,179,836.8	39	250
LCA0384	LSR28432		450	478,801.5	7,179,832.1	41	200
LCA0385	LSR28433		450	478,803.2	7,179,827.4	31	350
LCA0386	LSR28434		450	478,804.9	7,179,822.7	15	100
LCA0396	LSR28420		450	478,808.8	7,179,826.8	22	150
LCA0397	LSR28421		450	478,807.1	7,179,831.5	30	300
LCA0398	LSR28422		450	478,805.4	7,179,836.2	37	250
LCA0399	LSR28423		450	478,803.7	7,179,840.9	371	100
LCA0400	LSR28424		450	478,801.9	7,179,845.6	22	100
LCA0401	LSR28425		450	478,800.2	7,179,850.3	38	350
LCA0402	LSR28426		450	478,798.5	7,179,855.0	14	300
LCA0431	LSR28412		450	478,802.4	7,179,859.0	7	150
LCA0432	LSR28413		450	478,804.1	7,179,854.3	11	100
LCA0433	LSR28414		450	478,805.8	7,179,849.6	6	200
LCA0434	LSR28415		450	478,807.5	7,179,844.9	10	200
LCA0435	LSR28416		450	478,809.2	7,179,840.3	72	350
LCA0436	LSR28417		450	478,810.9	7,179,835.6	30	100
LCA0437	LSR28418		450	478,812.6	7,179,830.9	30	150

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA0449	LSR28405		450	478,816.5	7,179,834.9	12	100
LCA0450	LSR28406		450	478,814.8	7,179,839.6	35	350
LCA0451	LSR28407		450	478,813.0	7,179,844.3	12	150
LCA0452	LSR28408		450	478,811.3	7,179,849.0	329	150
LCA0453	LSR28409		450	478,809.6	7,179,853.7	14	150
LCA0454	LSR28410		450	478,807.9	7,179,858.4	16	100
LCA0455	LSR28411		450	478,806.2	7,179,863.1	19	250
LCA0483	LSR28398		450	478,811.8	7,179,862.5	9	300
LCA0484	LSR28400		450	478,813.5	7,179,857.8	26	250
LCA0485	LSR28401		450	478,815.2	7,179,853.1	17	350
LCA0486	LSR28402		450	478,816.9	7,179,848.4	28	200
LCA0487	LSR28403		450	478,818.6	7,179,843.7	31	450
LCA0488	LSR28404		450	478,820.3	7,179,839.0	13	150
LCA0502	LSR28393		450	478,824.2	7,179,843.0	9	250
LCA0503	LSR28394		450	478,822.4	7,179,847.7	30	200
LCA0504	LSR28395		450	478,820.7	7,179,852.4	13	150
LCA0505	LSR28396		450	478,819.0	7,179,857.1	13	200
LCA0506	LSR28397		450	478,817.3	7,179,861.8	14	150
LCA0535	LSR28388		450	478,821.2	7,179,865.9	12	200
LCA0536	LSR28389		450	478,822.9	7,179,861.2	49	300
LCA0537	LSR28390		450	478,824.6	7,179,856.5	84	150
LCA0538	LSR28391		450	478,826.3	7,179,851.8	21	200
LCA0539	LSR28392		450	478,828.0	7,179,847.1	12	200
LCA0553	LSR28381		450	478,835.3	7,179,841.8	32	200
LCA0554	LSR28382		450	478,833.6	7,179,846.5	12	100
LCA0555	LSR28383		450	478,831.8	7,179,851.2	12	200
LCA0556	LSR28384		450	478,830.1	7,179,855.8	26	300
LCA0557	LSR28385		450	478,828.4	7,179,860.5	13	200
LCA0558	LSR28386		450	478,826.7	7,179,865.2	17	200
LCA0559	LSR28387		450	478,825.0	7,179,869.9	120	150
LCA0587	LSR28374		450	478,830.6	7,179,869.3	15	100
LCA0588	LSR28375		450	478,832.3	7,179,864.6	20	150
LCA0589	LSR28376		450	478,834.0	7,179,859.9	35	250
LCA0590	LSR28377		450	478,835.7	7,179,855.2	14	100
LCA0591	LSR28378		450	478,837.4	7,179,850.5	16	250
LCA0592	LSR28380		450	478,839.1	7,179,845.8	10	100
LCA0606	LSR28368		450	478,842.9	7,179,849.9	6	100
LCA0607	LSR28369		450	478,841.2	7,179,854.6	21	200
LCA0608	LSR28370		450	478,839.5	7,179,859.3	155	150
LCA0609	LSR28371		450	478,837.8	7,179,864.0	46	150
LCA0610	LSR28372		450	478,836.1	7,179,868.7	23	150
LCA0611	LSR28373		450	478,834.4	7,179,873.4	73	200
LCA0639	LSR28363		450	478,840.0	7,179,872.7	102	200
LCA0640	LSR28364		450	478,841.7	7,179,868.0	63	100
LCA0641	LSR28365		450	478,843.4	7,179,863.3	179	100
LCA0642	LSR28366		450	478,845.1	7,179,858.6	17	200

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA0643	LSR28367		450	478,846.8	7,179,853.9	7	150
LCA0658	LSR28356		450	478,852.3	7,179,853.3	13	100
LCA0659	LSR28357		450	478,850.6	7,179,858.0	2	100
LCA0660	LSR28358		450	478,848.9	7,179,862.7	5	150
LCA0662	LSR28360		450	478,845.5	7,179,872.1	30	100
LCA0663	LSR28361		450	478,843.8	7,179,876.8	2380	150
LCA0690	LSR28352		450	478,847.6	7,179,880.8	940	250
LCA0691	LSR28353		450	478,849.3	7,179,876.1	583	200
LCA0693	LSR28354		450	478,852.8	7,179,866.7	227	100
LCA0694	LSR28355		450	478,854.5	7,179,862.1	31	100
LCA0711	LSR28346		450	478,860.0	7,179,861.4	21	150
LCA0712	LSR28347		450	478,858.3	7,179,866.1	102	100
LCA0713	LSR28348		450	478,856.6	7,179,870.8	58	100
LCA0714	LSR28349		450	478,854.9	7,179,875.5	206	150
LCA0715	LSR28350		450	478,853.2	7,179,880.2	306	150
LCA0716	LSR28351		450	478,851.5	7,179,884.9	11000	400
LCA0741	LSR28340		450	478,855.3	7,179,889.0	619	350
LCA0742	LSR28341		450	478,857.0	7,179,884.3	91	200
LCA0743	LSR28342		450	478,858.7	7,179,879.6	35	150
LCA0744	LSR28343		450	478,860.5	7,179,874.9	32	150
LCA0745	LSR28344		450	478,862.2	7,179,870.2	27	150
LCA0746	LSR28345		450	478,863.9	7,179,865.5	10	100
LCA0763	LSR28332		450	478,869.4	7,179,864.8	12	250
LCA0764	LSR28333		450	478,867.7	7,179,869.5	18	100
LCA0765	LSR28334		450	478,866.0	7,179,874.2	10	100
LCA0766	LSR28335		450	478,864.3	7,179,878.9	143	100
LCA0767	LSR28336		450	478,862.6	7,179,883.6	87	150
LCA0768	LSR28337		450	478,860.9	7,179,888.3	86	300
LCA0769	LSR28338		450	478,859.2	7,179,893.0	8	100
LCA0791	LSR28324		450	478,861.3	7,179,901.8	8	100
LCA0793	LSR28325		450	478,864.7	7,179,892.4	12	150
LCA0794	LSR28326		450	478,866.4	7,179,887.7	26	150
LCA0795	LSR28327		450	478,868.1	7,179,883.0	23	200
LCA0796	LSR28328		450	478,869.9	7,179,878.3	68	200
LCA0797	LSR28329		450	478,871.6	7,179,873.6	13	150
LCA0798	LSR28330		450	478,873.3	7,179,868.9	9	100
LCA0799	LSR28331		450	478,875.0	7,179,864.2	8	100
LCA0814	LSR28314		450	478,880.5	7,179,863.6	5	100
LCA0815	LSR28315		450	478,878.8	7,179,868.3	9	150
LCA0816	LSR28316		450	478,877.1	7,179,873.0	11	100
LCA0817	LSR28317		450	478,875.4	7,179,877.6	9	100
LCA0818	LSR28318		450	478,873.7	7,179,882.3	5	150
LCA0819	LSR28320		450	478,872.0	7,179,887.0	18	200
LCA0821	LSR28321		450	478,868.6	7,179,896.4	39	100
LCA0822	LSR28322		450	478,866.9	7,179,901.1	26	150
LCA0823	LSR28323		450	478,865.1	7,179,905.8	15	200

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA0842	LSR28306		450	478,869.0	7,179,909.9	15	100
LCA0843	LSR28307		450	478,870.7	7,179,905.2	17	150
LCA0844	LSR28308		450	478,872.4	7,179,900.5	13	200
LCA0845	LSR28309		450	478,874.1	7,179,895.8	9	100
LCA0846	LSR28310		450	478,875.8	7,179,891.1	55	150
LCA0847	LSR28311		450	478,877.5	7,179,886.4	23	200
LCA0848	LSR28312		450	478,879.2	7,179,881.7	7	100
LCA0849	LSR28313		450	478,881.0	7,179,877.0	8	100
LCA0866	LSR28296		450	478,889.9	7,179,867.0	5	100
LCA0867	LSR28297		450	478,888.2	7,179,871.7	5	150
LCA0869	LSR28298		450	478,884.8	7,179,881.1	10	100
LCA0870	LSR28300		450	478,883.1	7,179,885.8	14	100
LCA0873	LSR28302		450	478,878.0	7,179,899.9	12	150
LCA0874	LSR28303		450	478,876.3	7,179,904.6	42	100
LCA0875	LSR28304		450	478,874.5	7,179,909.3	12	100
LCA0876	LSR28305		450	478,872.8	7,179,914.0	25	100
LCA0893	LSR28285		450	478,876.7	7,179,918.0	11	200
LCA0894	LSR28286		450	478,878.4	7,179,913.3	2	250
LCA0895	LSR28287		450	478,880.1	7,179,908.6	8	100
LCA0896	LSR28288		450	478,881.8	7,179,903.9	6	100
LCA0897	LSR28289		450	478,883.5	7,179,899.2	50	100
LCA0898	LSR28290		450	478,885.2	7,179,894.5	15	100
LCA0899	LSR28291		450	478,886.9	7,179,889.8	11	150
LCA0900	LSR28292		450	478,888.6	7,179,885.1	8	100
LCA0902	LSR28293		450	478,892.1	7,179,875.7	48	200
LCA0903	LSR28294		450	478,893.8	7,179,871.0	12	150
LCA0904	LSR28295		450	478,895.5	7,179,866.3	10	100
LCA0916	LSR28272		450	478,902.8	7,179,861.0	61	100
LCA0917	LSR28273		450	478,901.0	7,179,865.7	13	100
LCA0918	LSR28274		450	478,899.3	7,179,870.4	12	150
LCA0919	LSR28275		450	478,897.6	7,179,875.1	14	150
LCA0920	LSR28276		450	478,895.9	7,179,879.8	43	100
LCA0923	LSR28277		450	478,890.8	7,179,893.9	10	100
LCA0924	LSR28278		450	478,889.1	7,179,898.6	35	100
LCA0925	LSR28280		450	478,887.4	7,179,903.3	30	150
LCA0926	LSR28281		450	478,885.6	7,179,908.0	36	150
LCA0927	LSR28282		450	478,883.9	7,179,912.7	9	100
LCA0928	LSR28283		450	478,882.2	7,179,917.4	8	150
LCA0929	LSR28284		450	478,880.5	7,179,922.1	9	300
LCA0945	LSR28261		450	478,886.1	7,179,921.4	9	200
LCA0946	LSR28262		450	478,887.8	7,179,916.7	7	100
LCA0947	LSR28263		450	478,889.5	7,179,912.0	8	150
LCA0948	LSR28264		450	478,891.2	7,179,907.3	12	150
LCA0949	LSR28265		450	478,892.9	7,179,902.6	33	100
LCA0950	LSR28266		450	478,894.6	7,179,897.9	15	200
LCA0951	LSR28267		450	478,896.3	7,179,893.2	13	50

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA0955	LSR28268		450	478,903.2	7,179,874.5	13	150
LCA0956	LSR28269		450	478,904.9	7,179,869.8	12	150
LCA0957	LSR28270		450	478,906.6	7,179,865.1	27	150
LCA0958	LSR28271		450	478,908.3	7,179,860.4	10	100
LCA0972	LSR28249		450	478,905.3	7,179,883.2	11	100
LCA0973	LSR28250		450	478,903.6	7,179,887.9	51	500
LCA0974	LSR28251		450	478,901.9	7,179,892.6	9	150
LCA0975	LSR28252		450	478,900.2	7,179,897.3	9	200
LCA0976	LSR28253		450	478,898.5	7,179,902.0	9	150
LCA0977	LSR28254		450	478,896.8	7,179,906.7	186	300
LCA0978	LSR28255		450	478,895.0	7,179,911.4	7	300
LCA0979	LSR28256		450	478,893.3	7,179,916.1	9	150
LCA0980	LSR28257		450	478,891.6	7,179,920.8	11	100
LCA0981	LSR28258		450	478,889.9	7,179,925.5	5	200
LCA0982	LSR28260		450	478,888.2	7,179,930.2	44	350
LCA0995	LSR28236		450	478,892.0	7,179,934.3	9	100
LCA0996	LSR28237		450	478,893.8	7,179,929.6	15	200
LCA0997	LSR28238		450	478,895.5	7,179,924.9	7	200
LCA0998	LSR28240		450	478,897.2	7,179,920.2	8	150
LCA0999	LSR28241		450	478,898.9	7,179,915.5	21	300
LCA1000	LSR28242		450	478,900.6	7,179,910.8	18	250
LCA1001	LSR28243		450	478,902.3	7,179,906.1	10	150
LCA1002	LSR28244		450	478,904.0	7,179,901.4	12	200
LCA1003	LSR28245		450	478,905.7	7,179,896.7	6	150
LCA1004	LSR28246		450	478,907.4	7,179,892.0	9	100
LCA1005	LSR28247		450	478,909.2	7,179,887.3	9	100
LCA1006	LSR28248		450	478,910.9	7,179,882.6	17	100
LCA1021	LSR28221		450	478,919.8	7,179,872.5	12	100
LCA1023	LSR28223		450	478,916.4	7,179,881.9	19	150
LCA1024	LSR28224		450	478,914.7	7,179,886.6	10	100
LCA1025	LSR28225		450	478,913.0	7,179,891.3	14	100
LCA1026	LSR28226		450	478,911.3	7,179,896.0	57	100
LCA1027	LSR28227		450	478,909.6	7,179,900.7	5	300
LCA1028	LSR28228		450	478,907.9	7,179,905.4	26	250
LCA1029	LSR28229		450	478,906.2	7,179,910.1	84	200
LCA1030	LSR28230		450	478,904.4	7,179,914.8	12	200
LCA1031	LSR28231		450	478,902.7	7,179,919.5	7	200
LCA1032	LSR28232		450	478,901.0	7,179,924.2	12	100
LCA1033	LSR28233		450	478,899.3	7,179,928.9	7	200
LCA1034	LSR28234		450	478,897.6	7,179,933.6	8	250
LCA1035	LSR28235		450	478,895.9	7,179,938.3	8	250
LCA1047	LSR28205		450	478,901.4	7,179,937.7	18	150
LCA1048	LSR28206		450	478,903.2	7,179,933.0	8	250
LCA1049	LSR28207		450	478,904.9	7,179,928.3	9	100
LCA1050	LSR28208		450	478,906.6	7,179,923.6	10	300
LCA1051	LSR28209		450	478,908.3	7,179,918.9	4	300

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA1052	LSR28210		450	478,910.0	7,179,914.2	20	150
LCA1053	LSR28211		450	478,911.7	7,179,909.5	20	250
LCA1054	LSR28212		450	478,913.4	7,179,904.8	24	250
LCA1055	LSR28213		450	478,915.1	7,179,900.1	9	100
LCA1056	LSR28214		450	478,916.8	7,179,895.4	9	150
LCA1057	LSR28215		450	478,918.5	7,179,890.7	26	250
LCA1058	LSR28216		450	478,920.3	7,179,886.0	12	100
LCA1059	LSR28217		450	478,922.0	7,179,881.3	20	100
LCA1060	LSR28218		450	478,923.7	7,179,876.6	65	100
LCA1061	LSR28220		450	478,925.4	7,179,871.9	30	150
LCA1072	LSR28188		450	478,930.9	7,179,871.3	20	150
LCA1073	LSR28189		450	478,929.2	7,179,876.0	18	100
LCA1074	LSR28190		450	478,927.5	7,179,880.7	33	100
LCA1075	LSR28191		450	478,925.8	7,179,885.4	120	150
LCA1076	LSR28192		450	478,924.1	7,179,890.1	33	200
LCA1077	LSR28193		450	478,922.4	7,179,894.8	11	150
LCA1078	LSR28194		450	478,920.7	7,179,899.4	10	50
LCA1079	LSR28195		450	478,919.0	7,179,904.1	14	200
LCA1080	LSR28196		450	478,917.3	7,179,908.8	36	200
LCA1081	LSR28197		450	478,915.6	7,179,913.5	11	350
LCA1082	LSR28198		450	478,913.8	7,179,918.2	12	250
LCA1083	LSR28200		450	478,912.1	7,179,922.9	7	200
LCA1084	LSR28201		450	478,910.4	7,179,927.6	21	50
LCA1085	LSR28202		450	478,908.7	7,179,932.3	7	150
LCA1086	LSR28203		450	478,907.0	7,179,937.0	35	150
LCA1087	LSR28204		450	478,905.3	7,179,941.7	8	300
LCA1098	LSR28171		450	478,909.1	7,179,945.8	5	100
LCA1099	LSR28172		450	478,910.8	7,179,941.1	10	250
LCA1100	LSR28173		450	478,912.6	7,179,936.4	6	150
LCA1101	LSR28174		450	478,914.3	7,179,931.7	31	250
LCA1102	LSR28175		450	478,916.0	7,179,927.0	12	200
LCA1103	LSR28176		450	478,917.7	7,179,922.3	10	100
LCA1104	LSR28177		450	478,919.4	7,179,917.6	19	300
LCA1105	LSR28178		450	478,921.1	7,179,912.9	12	200
LCA1106	LSR28180		450	478,922.8	7,179,908.2	15	300
LCA1107	LSR28181		450	478,924.5	7,179,903.5	9	100
LCA1108	LSR28182		450	478,926.2	7,179,898.8	206	100
LCA1109	LSR28183		450	478,927.9	7,179,894.1	17	250
LCA1110	LSR28184		450	478,929.7	7,179,889.4	9	150
LCA1111	LSR28185		450	478,931.4	7,179,884.7	24	100
LCA1112	LSR28186		450	478,933.1	7,179,880.0	20	100
LCA1113	LSR28187		450	478,934.8	7,179,875.3	14	100
LCA1124	LSR28154		450	478,940.3	7,179,874.7	27	100
LCA1125	LSR28155		450	478,938.6	7,179,879.4	21	100
LCA1126	LSR28156		450	478,936.9	7,179,884.1	6	100
LCA1127	LSR28157		450	478,935.2	7,179,888.8	16	300

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA1128	LSR28158		450	478,933.5	7,179,893.5	6	150
LCA1129	LSR28160		450	478,931.8	7,179,898.2	3	300
LCA1130	LSR28161		450	478,930.1	7,179,902.9	5	100
LCA1131	LSR28162		450	478,928.4	7,179,907.6	80	100
LCA1132	LSR28163		450	478,926.7	7,179,912.3	10	200
LCA1133	LSR28164		450	478,924.9	7,179,917.0	11	200
LCA1134	LSR28165		450	478,923.2	7,179,921.7	11	200
LCA1135	LSR28166		450	478,921.5	7,179,926.4	14	100
LCA1136	LSR28167		450	478,919.8	7,179,931.1	8	150
LCA1137	LSR28168		450	478,918.1	7,179,935.8	6	200
LCA1138	LSR28169		450	478,916.4	7,179,940.5	6	100
LCA1139	LSR28170		450	478,914.7	7,179,945.2	7	150
LCA1152	LSR28141		450	478,922.0	7,179,939.8	1760	100
LCA1153	LSR28142		450	478,923.7	7,179,935.1	11	200
LCA1154	LSR28143		450	478,925.4	7,179,930.4	38	400
LCA1155	LSR28144		450	478,927.1	7,179,925.7	39	250
LCA1156	LSR28145		450	478,928.8	7,179,921.0	8	250
LCA1157	LSR28146		450	478,930.5	7,179,916.3	8	150
LCA1158	LSR28147		450	478,932.2	7,179,911.6	10	200
LCA1159	LSR28148		450	478,933.9	7,179,906.9	9	100
LCA1161	LSR28149		450	478,937.3	7,179,897.5	25	100
LCA1162	LSR28150		450	478,939.1	7,179,892.8	10	150
LCA1163	LSR28151		450	478,940.8	7,179,888.1	9	100
LCA1164	LSR28152		450	478,942.5	7,179,883.4	15	150
LCA1165	LSR28153		450	478,944.2	7,179,878.7	20	300
LCA1177	LSR28128		450	478,948.0	7,179,882.8	37	250
LCA1178	LSR28129		450	478,946.3	7,179,887.5	8	100
LCA1179	LSR28130		450	478,944.6	7,179,892.2	5	150
LCA1180	LSR28131		450	478,942.9	7,179,896.9	6	200
LCA1182	LSR28132		450	478,939.5	7,179,906.3	21	150
LCA1183	LSR28133		450	478,937.8	7,179,911.0	429	200
LCA1184	LSR28134		450	478,936.1	7,179,915.7	14	150
LCA1185	LSR28135		450	478,934.3	7,179,920.4	8	100
LCA1186	LSR28136		450	478,932.6	7,179,925.1	79	100
LCA1187	LSR28137		450	478,930.9	7,179,929.8	37	300
LCA1188	LSR28138		450	478,929.2	7,179,934.5	59	200
LCA1189	LSR28140		450	478,927.5	7,179,939.2	6	150
LCA1206	LSR28116		450	478,934.8	7,179,933.8	15	300
LCA1207	LSR28117		450	478,936.5	7,179,929.1	4	100
LCA1208	LSR28118		450	478,938.2	7,179,924.4	14	150
LCA1209	LSR28120		450	478,939.9	7,179,919.7	29	250
LCA1210	LSR28121		450	478,941.6	7,179,915.0	19	250
LCA1211	LSR28122		450	478,943.3	7,179,910.3	10	200
LCA1212	LSR28123		450	478,945.0	7,179,905.6	9	100
LCA1214	LSR28124		450	478,948.4	7,179,896.3	14	250
LCA1215	LSR28125		450	478,950.2	7,179,891.6	11	100

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA1216	LSR28126		450	478,951.9	7,179,886.9	57	250
LCA1217	LSR28127		450	478,953.6	7,179,882.2	9	250
LCA1229	LSR28105		450	478,957.4	7,179,886.2	17	100
LCA1230	LSR28106		450	478,955.7	7,179,890.9	6	200
LCA1231	LSR28107		450	478,954.0	7,179,895.6	12	100
LCA1232	LSR28108		450	478,952.3	7,179,900.3	4	150
LCA1233	LSR28109		450	478,950.6	7,179,905.0	1	50
LCA1234	LSR28110		450	478,948.9	7,179,909.7	5	200
LCA1235	LSR28111		450	478,947.2	7,179,914.4	16	250
LCA1236	LSR28112		450	478,945.5	7,179,919.1	21	150
LCA1237	LSR28113		450	478,943.7	7,179,923.8	17	150
LCA1238	LSR28114		450	478,942.0	7,179,928.5	9	100
LCA1239	LSR28115		450	478,940.3	7,179,933.2	30	300
LCA1260	LSR28094		450	478,947.6	7,179,927.9	83	150
LCA1261	LSR28095		450	478,949.3	7,179,923.2	6	50
LCA1262	LSR28096		450	478,951.0	7,179,918.5	14	100
LCA1263	LSR28097		450	478,952.7	7,179,913.8	5	200
LCA1264	LSR28098		450	478,954.4	7,179,909.1	8	150
LCA1265	LSR28100		450	478,956.1	7,179,904.4	17	200
LCA1266	LSR28101		450	478,957.8	7,179,899.7	10	50
LCA1267	LSR28102		450	478,959.6	7,179,895.0	11	150
LCA1268	LSR28103		450	478,961.3	7,179,890.3	15	300
LCA1269	LSR28104		450	478,963.0	7,179,885.6	42	150
LCA1281	LSR28086		450	478,966.8	7,179,889.6	13	50
LCA1282	LSR28087		450	478,965.1	7,179,894.3	5	100
LCA1283	LSR28088		450	478,963.4	7,179,899.0	13	100
LCA1284	LSR28089		450	478,961.7	7,179,903.7	6	150
LCA1285	LSR28090		450	478,960.0	7,179,908.4	11	200
LCA1286	LSR28091		450	478,958.3	7,179,913.1	6	50
LCA1287	LSR28092		450	478,956.6	7,179,917.8	22	250
LCA1288	LSR28093		450	478,954.8	7,179,922.5	2	150
LCA1317	LSR28081		450	478,965.5	7,179,907.8	9	150
LCA1318	LSR28082		450	478,967.2	7,179,903.1	48	250
LCA1319	LSR28083		450	478,969.0	7,179,898.4	11	200
LCA1320	LSR28084		450	478,970.7	7,179,893.7	21	200
LCA1321	LSR28085		450	478,972.4	7,179,889.0	33	250
LCA1364	LSR28038		450	478,442.9	7,179,684.2	-1	100
LCA1365	LSR28040		450	478,441.2	7,179,688.9	-1	100
LCA1366	LSR28041		450	478,439.5	7,179,693.6	3	200
LCA1367	LSR28042		450	478,437.8	7,179,698.3	2	150
LCA1368	LSR28043		450	478,436.1	7,179,703.0	2	50
LCA1369	LSR28044		450	478,434.4	7,179,707.7	3	550
LCA1370	LSR28045		450	478,432.7	7,179,712.4	7	300
LCA1371	LSR28046		450	478,431.0	7,179,717.1	-1	200
LCA1372	LSR28047		450	478,429.3	7,179,721.8	-1	100
LCA1373	LSR28048		450	478,427.6	7,179,726.5	1	200

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA1374	LSR28049		450	478,425.8	7,179,731.2	3	250
LCA1375	LSR28050		450	478,424.1	7,179,735.9	-1	100
LCA1376	LSR28051		450	478,422.4	7,179,740.6	-1	150
LCA1377	LSR28052		450	478,420.7	7,179,745.3	2	250
LCA1378	LSR28053		450	478,419.0	7,179,750.0	-1	50
LCA1379	LSR28054		450	478,417.3	7,179,754.7	-1	50
LCA1380	LSR28055		450	478,415.6	7,179,759.4	-1	150
LCA1381	LSR28056		450	478,413.9	7,179,764.1	4	100
LCA1382	LSR28057		450	478,412.2	7,179,768.8	-1	100
LCA1383	LSR28058		450	478,410.5	7,179,773.5	-1	50
LCA1384	LSR28060		450	478,408.7	7,179,778.2	11	50
LCA1385	LSR28061		450	478,407.0	7,179,782.9	6	250
LCA1386	LSR28062		450	478,405.3	7,179,787.6	7	100
LCA1392	LSR28063		450	478,395.1	7,179,815.8	-1	50
LCA1393	LSR28064		450	478,393.4	7,179,820.5	3	100
LCA1394	LSR28065		450	478,391.6	7,179,825.1	-1	50
LCA1395	LSR28066		450	478,389.9	7,179,829.8	3	100
LCA1404	LSR28067		450	478,394.2	7,179,876.6	1	100
LCA1405	LSR28068		450	478,395.9	7,179,871.9	1	100
LCA1406	LSR28069		450	478,397.6	7,179,867.2	-1	100
LCA1407	LSR28070		450	478,399.3	7,179,862.5	-1	50
LCA1408	LSR28071		450	478,401.0	7,179,857.8	-1	100
LCA1409	LSR28072		450	478,402.7	7,179,853.1	-1	100
LCA1410	LSR28073		450	478,404.4	7,179,848.4	-1	150
LCA1411	LSR28074		450	478,406.2	7,179,843.7	-1	150
LCA1412	LSR28075		450	478,407.9	7,179,839.0	-1	50
LCA1413	LSR28076		450	478,409.6	7,179,834.3	-1	100
LCA1420	LSR28077		450	478,421.6	7,179,801.4	-1	150
LCA1421	LSR28078		450	478,423.3	7,179,796.8	1	150
LCA1422	LSR28080		450	478,425.0	7,179,792.1	1	100
LCA1423	LSR28037		450	478,426.7	7,179,787.4	5	300
LCA1424	LSR28036		450	478,428.4	7,179,782.7	-1	100
LCA1425	LSR28035		450	478,430.1	7,179,778.0	-1	100
LCA1426	LSR28034		450	478,431.8	7,179,773.3	-1	200
LCA1427	LSR28033		450	478,433.5	7,179,768.6	-1	100
LCA1428	LSR28032		450	478,435.2	7,179,763.9	3	100
LCA1429	LSR28031		450	478,436.9	7,179,759.2	-1	100
LCA1430	LSR28030		450	478,438.7	7,179,754.5	3	250
LCA1431	LSR28029		450	478,440.4	7,179,749.8	-1	100
LCA1432	LSR28028		450	478,442.1	7,179,745.1	-1	100
LCA1433	LSR28027		450	478,443.8	7,179,740.4	7	100
LCA1434	LSR28026		450	478,445.5	7,179,735.7	6	500
LCA1435	LSR28025		450	478,447.2	7,179,731.0	-1	100
LCA1436	LSR28024		450	478,448.9	7,179,726.3	3	200
LCA1437	LSR28023		450	478,450.6	7,179,721.6	3	100
LCA1438	LSR28022		450	478,452.3	7,179,716.9	5	300

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA1439	LSR28021		450	478,454.0	7,179,712.2	4	300
LCA1440	LSR28020		450	478,455.8	7,179,707.5	2	150
LCA1441	LSR28018		450	478,457.5	7,179,702.8	5	250
LCA1442	LSR28017		450	478,459.2	7,179,698.1	-1	250
LCA1443	LSR28016		450	478,460.9	7,179,693.4	-1	150
LCA1444	LSR28015		450	478,462.6	7,179,688.7	-1	150
LCA1446	LSR28014		450	478,480.5	7,179,697.9	12	450
LCA1447	LSR28013		450	478,478.8	7,179,702.6	6	1150
LCA1448	LSR28012		450	478,477.1	7,179,707.3	6	900
LCA1449	LSR28011		450	478,475.4	7,179,712.0	5	150
LCA1450	LSR28010		450	478,473.7	7,179,716.7	8	300
LCA1451	LSR28009		450	478,472.0	7,179,721.4	5	200
LCA1452	LSR28008		450	478,470.3	7,179,726.1	9	200
LCA1453	LSR28007		450	478,468.6	7,179,730.8	12	150
LCA1454	LSR28006		450	478,466.9	7,179,735.5	8	150
LCA1455	LSR28005		450	478,465.1	7,179,740.2	6	150
LCA1456	LSR28004		450	478,463.4	7,179,744.9	5	1450
LCA1457	LSR28003		450	478,461.7	7,179,749.6	3	100
LCA1458	LSR28002		450	478,460.0	7,179,754.3	6	200
LCA1459	LSR28001		450	478,458.3	7,179,759.0	7	300
LCA1460	LSR28000		450	478,456.6	7,179,763.7	3	150
LCA1461	LSR27999		450	478,454.9	7,179,768.4	-1	100
LCA1462	LSR27997		450	478,453.2	7,179,773.1	-1	150
LCA1463	LSR27996		450	478,451.5	7,179,777.7	2	150
LCA1464	LSR27995		450	478,449.7	7,179,782.4	1	100
LCA1465	LSR27994		450	478,448.0	7,179,787.1	3	100
LCA1466	LSR27993		450	478,446.3	7,179,791.8	-1	100
LCA1467	LSR27992		450	478,444.6	7,179,796.5	-1	100
LCA1468	LSR27991		450	478,442.9	7,179,801.2	1	150
LCA1469	LSR27990		450	478,441.2	7,179,805.9	2	100
LCA1470	LSR27989		450	478,439.5	7,179,810.6	1	150
LCA1471	LSR27988		450	478,437.8	7,179,815.3	1	100
LCA1472	LSR27987		450	478,436.1	7,179,820.0	-1	200
LCA1473	LSR27986		450	478,434.4	7,179,824.7	1	150
LCA1474	LSR27985		450	478,432.6	7,179,829.4	1	150
LCA1475	LSR27984		450	478,430.9	7,179,834.1	7	200
LCA1478	LSR27983		450	478,425.8	7,179,848.2	-1	100
LCA1479	LSR27982		450	478,424.1	7,179,852.9	-1	100
LCA1480	LSR27981		450	478,422.4	7,179,857.6	-1	100
LCA1481	LSR27980		450	478,420.7	7,179,862.3	-1	150
LCA1482	LSR27979		450	478,419.0	7,179,867.0	-1	100
LCA1483	LSR27978		450	478,417.3	7,179,871.7	-1	100
LCA1484	LSR27976		450	478,415.5	7,179,876.4	-1	150
LCA1485	LSR27975		450	478,413.8	7,179,881.1	-1	100
LCA1487	LSR27939		450	478,433.5	7,179,885.6	4	400
LCA1488	LSR27940		450	478,435.2	7,179,880.9	1	150

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA1489	LSR27941		450	478,436.9	7,179,876.2	1	100
LCA1495	LSR27942		450	478,447.2	7,179,848.0	4	150
LCA1496	LSR27943		450	478,448.9	7,179,843.3	3	150
LCA1497	LSR27944		450	478,450.6	7,179,838.6	5	100
LCA1498	LSR27945		450	478,452.3	7,179,833.9	6	100
LCA1499	LSR27946		450	478,454.0	7,179,829.2	3	100
LCA1500	LSR27947		450	478,455.7	7,179,824.5	2	100
LCA1501	LSR27948		450	478,457.4	7,179,819.8	1	100
LCA1502	LSR27949		450	478,459.1	7,179,815.1	6	150
LCA1503	LSR27950		450	478,460.8	7,179,810.4	3	200
LCA1504	LSR27951		450	478,462.6	7,179,805.7	2	250
LCA1505	LSR27952		450	478,464.3	7,179,801.0	4	150
LCA1506	LSR27953		450	478,466.0	7,179,796.3	2	200
LCA1507	LSR27954		450	478,467.7	7,179,791.6	2	100
LCA1508	LSR27955		450	478,469.4	7,179,786.9	1	100
LCA1509	LSR27956		450	478,471.1	7,179,782.2	3	100
LCA1510	LSR27958		450	478,472.8	7,179,777.5	6	200
LCA1511	LSR27959		450	478,474.5	7,179,772.8	4	100
LCA1512	LSR27960		450	478,476.2	7,179,768.1	3	150
LCA1513	LSR27961		450	478,477.9	7,179,763.4	6	350
LCA1514	LSR27962		450	478,479.7	7,179,758.7	6	350
LCA1515	LSR27963		450	478,481.4	7,179,754.0	6	450
LCA1516	LSR27964		450	478,483.1	7,179,749.4	9	200
LCA1517	LSR27965		450	478,484.8	7,179,744.7	11	200
LCA1518	LSR27966		450	478,486.5	7,179,740.0	10	400
LCA1519	LSR27967		450	478,488.2	7,179,735.3	6	400
LCA1520	LSR27968		450	478,489.9	7,179,730.6	10	450
LCA1521	LSR27969		450	478,491.6	7,179,725.9	5	550
LCA1522	LSR27970		450	478,493.3	7,179,721.2	12	450
LCA1523	LSR27971		450	478,495.1	7,179,716.5	7	150
LCA1524	LSR27972		450	478,496.8	7,179,711.8	15	350
LCA1525	LSR27973		450	478,498.5	7,179,707.1	14	350
LCA1526	LSR27974		450	478,500.2	7,179,702.4	11	200
LCA1527	LSR27900		450	478,519.8	7,179,706.9	11	250
LCA1528	LSR27901		450	478,518.1	7,179,711.6	9	500
LCA1529	LSR27902		450	478,516.4	7,179,716.3	10	1050
LCA1530	LSR27903		450	478,514.7	7,179,721.0	6	150
LCA1531	LSR27904		450	478,513.0	7,179,725.7	2	150
LCA1532	LSR27905		450	478,511.3	7,179,730.4	3	150
LCA1533	LSR27906		450	478,509.6	7,179,735.0	8	200
LCA1534	LSR27907		450	478,507.9	7,179,739.7	10	500
LCA1535	LSR27908		450	478,506.1	7,179,744.4	7	600
LCA1536	LSR27909		450	478,504.4	7,179,749.1	17	1000
LCA1537	LSR27910		450	478,502.7	7,179,753.8	9	450
LCA1538	LSR27911		450	478,501.0	7,179,758.5	7	550
LCA1539	LSR27912		450	478,499.3	7,179,763.2	9	350

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA1540	LSR27913		450	478,497.6	7,179,767.9	9	400
LCA1541	LSR27914		450	478,495.9	7,179,772.6	8	200
LCA1542	LSR27915		450	478,494.2	7,179,777.3	2	150
LCA1543	LSR27916		450	478,492.5	7,179,782.0	6	200
LCA1544	LSR27917		450	478,490.8	7,179,786.7	1	200
LCA1545	LSR27919		450	478,489.0	7,179,791.4	8	300
LCA1546	LSR27920		450	478,487.3	7,179,796.1	2	150
LCA1547	LSR27921		450	478,485.6	7,179,800.8	5	250
LCA1548	LSR27922		450	478,483.9	7,179,805.5	3	100
LCA1549	LSR27923		450	478,482.2	7,179,810.2	6	150
LCA1550	LSR27924		450	478,480.5	7,179,814.9	1	150
LCA1551	LSR27925		450	478,478.8	7,179,819.6	2	100
LCA1552	LSR27926		450	478,477.1	7,179,824.3	1	150
LCA1553	LSR27927		450	478,475.4	7,179,829.0	1	100
LCA1554	LSR27928		450	478,473.7	7,179,833.7	1	100
LCA1555	LSR27929		450	478,471.9	7,179,838.4	-1	150
LCA1556	LSR27930		450	478,470.2	7,179,843.1	-1	150
LCA1557	LSR27931		450	478,468.5	7,179,847.8	-1	150
LCA1558	LSR27932		450	478,466.8	7,179,852.5	-1	150
LCA1559	LSR27933		450	478,465.1	7,179,857.2	2	150
LCA1560	LSR27934		450	478,463.4	7,179,861.9	2	150
LCA1561	LSR27935		450	478,461.7	7,179,866.6	4	200
LCA1562	LSR27936		450	478,460.0	7,179,871.3	2	100
LCA1563	LSR27938		450	478,458.3	7,179,876.0	3	100
LCA1570	LSR27861		450	478,472.8	7,179,894.6	45	100
LCA1571	LSR27862		450	478,474.5	7,179,889.9	4	100
LCA1572	LSR27863		450	478,476.2	7,179,885.2	3	100
LCA1573	LSR27864		450	478,477.9	7,179,880.5	3	150
LCA1574	LSR27865		450	478,479.6	7,179,875.8	3	150
LCA1575	LSR27866		450	478,481.3	7,179,871.1	6	150
LCA1576	LSR27867		450	478,483.0	7,179,866.4	1	100
LCA1577	LSR27868		450	478,484.8	7,179,861.7	2	100
LCA1578	LSR27869		450	478,486.5	7,179,857.0	2	150
LCA1579	LSR27870		450	478,488.2	7,179,852.3	2	100
LCA1580	LSR27871		450	478,489.9	7,179,847.6	-1	100
LCA1581	LSR27872		450	478,491.6	7,179,842.9	1	100
LCA1582	LSR27873		450	478,493.3	7,179,838.2	1	100
LCA1583	LSR27874		450	478,495.0	7,179,833.5	2	250
LCA1584	LSR27875		450	478,496.7	7,179,828.8	1	100
LCA1585	LSR27876		450	478,498.4	7,179,824.1	4	100
LCA1586	LSR27878		450	478,500.1	7,179,819.4	3	150
LCA1589	LSR27879		450	478,505.3	7,179,805.3	4	150
LCA1590	LSR27880		450	478,507.0	7,179,800.6	6	100
LCA1591	LSR27881		450	478,508.7	7,179,795.9	5	150
LCA1593	LSR27883		450	478,512.1	7,179,786.5	4	100
LCA1594	LSR27884		450	478,513.8	7,179,781.8	3	150

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA1595	LSR27885		450	478,515.5	7,179,777.1	4	100
LCA1596	LSR27886		450	478,517.2	7,179,772.4	6	100
LCA1597	LSR27887		450	478,519.0	7,179,767.7	2	100
LCA1598	LSR27888		450	478,520.7	7,179,763.0	8	750
LCA1599	LSR27889		450	478,522.4	7,179,758.3	6	200
LCA1600	LSR27890		450	478,524.1	7,179,753.6	2	150
LCA1601	LSR27891		450	478,525.8	7,179,748.9	5	150
LCA1602	LSR27892		450	478,527.5	7,179,744.2	19	150
LCA1603	LSR27893		450	478,529.2	7,179,739.5	3	100
LCA1604	LSR27894		450	478,530.9	7,179,734.8	2	100
LCA1605	LSR27895		450	478,532.6	7,179,730.1	4	100
LCA1606	LSR27896		450	478,534.3	7,179,725.4	8	600
LCA1607	LSR27898		450	478,536.1	7,179,720.7	6	950
LCA1608	LSR27899		450	478,537.8	7,179,716.0	9	250
LCA1609	LSR27822		450	478,557.4	7,179,720.5	2	100
LCA1610	LSR27823		450	478,555.7	7,179,725.2	2	150
LCA1611	LSR27824		450	478,554.0	7,179,729.9	3	150
LCA1612	LSR27825		450	478,552.3	7,179,734.6	12	300
LCA1613	LSR27826		450	478,550.6	7,179,739.3	21	500
LCA1614	LSR27827		450	478,548.9	7,179,744.0	16	650
LCA1615	LSR27828		450	478,547.2	7,179,748.7	8	700
LCA1616	LSR27829		450	478,545.4	7,179,753.4	9	700
LCA1617	LSR27830		450	478,543.7	7,179,758.1	9	900
LCA1618	LSR27831		450	478,542.0	7,179,762.8	5	950
LCA1619	LSR27832		450	478,540.3	7,179,767.5	6	600
LCA1620	LSR27833		450	478,538.6	7,179,772.2	9	700
LCA1621	LSR27834		450	478,536.9	7,179,776.9	10	700
LCA1622	LSR27835		450	478,535.2	7,179,781.6	13	1250
LCA1623	LSR27836		450	478,533.5	7,179,786.3	7	1250
LCA1624	LSR27838		450	478,531.8	7,179,791.0	4	150
LCA1625	LSR27839		450	478,530.1	7,179,795.7	4	150
LCA1626	LSR27840		450	478,528.3	7,179,800.4	2	150
LCA1627	LSR27841		450	478,526.6	7,179,805.1	4	150
LCA1628	LSR27842		450	478,524.9	7,179,809.8	2	200
LCA1629	LSR27843		450	478,523.2	7,179,814.5	1	200
LCA1630	LSR27844		450	478,521.5	7,179,819.2	-1	100
LCA1631	LSR27845		450	478,519.8	7,179,823.9	1	100
LCA1632	LSR27846		450	478,518.1	7,179,828.6	1	100
LCA1633	LSR27847		450	478,516.4	7,179,833.3	-1	100
LCA1634	LSR27848		450	478,514.7	7,179,838.0	15	150
LCA1635	LSR27849		450	478,513.0	7,179,842.7	-1	100
LCA1636	LSR27850A		450	478,511.2	7,179,847.4	12	400
LCA1637	LSR27850		450	478,509.5	7,179,852.1	3	100
LCA1638	LSR27851		450	478,507.8	7,179,856.8	3	150
LCA1639	LSR27852		450	478,506.1	7,179,861.5	2	100
LCA1640	LSR27853		450	478,504.4	7,179,866.2	4	100

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA1641	LSR27854		450	478,502.7	7,179,870.9	1	150
LCA1642	LSR27855		450	478,501.0	7,179,875.6	1	100
LCA1643	LSR27856		450	478,499.3	7,179,880.3	1	200
LCA1644	LSR27858		450	478,497.6	7,179,885.0	11	100
LCA1645	LSR27859		450	478,495.9	7,179,889.7	6	100
LCA1646	LSR27860		450	478,494.1	7,179,894.4	4	100
LCA1653	LSR27779		450	478,512.1	7,179,903.6	-1	100
LCA1654	LSR27780		450	478,513.8	7,179,898.9	-1	100
LCA1655	LSR27781		450	478,515.5	7,179,894.2	-1	100
LCA1656	LSR27782		450	478,517.2	7,179,889.5	-1	100
LCA1657	LSR27783		450	478,518.9	7,179,884.8	-1	50
LCA1658	LSR27784		450	478,520.6	7,179,880.1	-1	100
LCA1659	LSR27785		450	478,522.3	7,179,875.4	-1	100
LCA1660	LSR27786		450	478,524.1	7,179,870.7	-1	100
LCA1661	LSR27787		450	478,525.8	7,179,866.0	2	100
LCA1662	LSR27788		450	478,527.5	7,179,861.3	-1	100
LCA1663	LSR27789		450	478,529.2	7,179,856.6	-1	100
LCA1664	LSR27790		450	478,530.9	7,179,851.9	2	100
LCA1665	LSR27792		450	478,532.6	7,179,847.2	-1	50
LCA1666	LSR27793		450	478,534.3	7,179,842.5	-1	150
LCA1667	LSR27794		450	478,536.0	7,179,837.8	-1	100
LCA1668	LSR27795		450	478,537.7	7,179,833.1	-1	100
LCA1669	LSR27796		450	478,539.4	7,179,828.4	-1	100
LCA1670	LSR27797		450	478,541.2	7,179,823.7	-1	100
LCA1671	LSR27798		450	478,542.9	7,179,819.0	-1	100
LCA1672	LSR27799		450	478,544.6	7,179,814.3	-1	100
LCA1673	LSR27800		450	478,546.3	7,179,809.6	-1	100
LCA1674	LSR27801		450	478,548.0	7,179,804.9	42	100
LCA1675	LSR27802		450	478,549.7	7,179,800.2	3	150
LCA1676	LSR27803		450	478,551.4	7,179,795.5	4	150
LCA1677	LSR27804		450	478,553.1	7,179,790.8	4	150
LCA1678	LSR27805		450	478,554.8	7,179,786.1	7	22300
LCA1679	LSR27806		450	478,556.5	7,179,781.4	11	550
LCA1680	LSR27807		450	478,558.3	7,179,776.7	17	900
LCA1681	LSR27808		450	478,560.0	7,179,772.0	17	1000
LCA1682	LSR27812		450	478,561.7	7,179,767.3	12	400
LCA1683	LSR27813		450	478,563.4	7,179,762.6	2	100
LCA1684	LSR27814		450	478,565.1	7,179,757.9	3	150
LCA1685	LSR27815		450	478,566.8	7,179,753.2	7	300
LCA1686	LSR27816		450	478,568.5	7,179,748.5	-1	100
LCA1687	LSR27818		450	478,570.2	7,179,743.8	12	250
LCA1688	LSR27819		450	478,571.9	7,179,739.1	32	400
LCA1689	LSR27820		450	478,573.6	7,179,734.4	10	4150
LCA1690	LSR27821		450	478,575.4	7,179,729.7	9	1150
LCA1693	LSR27741		450	478,591.6	7,179,743.6	9	200
LCA1694	LSR27742		450	478,589.9	7,179,748.3	6	200

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA1695	LSR27743		450	478,588.2	7,179,753.0	8	300
LCA1696	LSR27744		450	478,586.5	7,179,757.7	9	450
LCA1697	LSR27745		450	478,584.7	7,179,762.4	7	800
LCA1698	LSR27746		450	478,583.0	7,179,767.1	9	150
LCA1699	LSR27747		450	478,581.3	7,179,771.8	7	700
LCA1700	LSR27748		450	478,579.6	7,179,776.5	10	800
LCA1701	LSR27749		450	478,577.9	7,179,781.2	2	100
LCA1702	LSR27750		450	478,576.2	7,179,785.9	2	200
LCA1703	LSR27752		450	478,574.5	7,179,790.6	-1	100
LCA1704	LSR27753		450	478,572.8	7,179,795.3	-1	100
LCA1705	LSR27754		450	478,571.1	7,179,800.0	-1	100
LCA1706	LSR27755		450	478,569.4	7,179,804.7	-1	50
LCA1707	LSR27756		450	478,567.6	7,179,809.4	-1	100
LCA1708	LSR27757		450	478,565.9	7,179,814.1	22	100
LCA1709	LSR27758		450	478,564.2	7,179,818.8	1	100
LCA1710	LSR27759		450	478,562.5	7,179,823.5	3	100
LCA1711	LSR27760		450	478,560.8	7,179,828.2	-1	100
LCA1712	LSR27761		450	478,559.1	7,179,832.9	-1	50
LCA1713	LSR27762		450	478,557.4	7,179,837.6	-1	100
LCA1714	LSR27763		450	478,555.7	7,179,842.3	-1	100
LCA1715	LSR27764		450	478,554.0	7,179,847.0	-1	100
LCA1716	LSR27765		450	478,552.3	7,179,851.7	-1	50
LCA1717	LSR27766		450	478,550.5	7,179,856.4	-1	100
LCA1718	LSR27767		450	478,548.8	7,179,861.1	-1	100
LCA1719	LSR27768		450	478,547.1	7,179,865.8	-1	100
LCA1720	LSR27769		450	478,545.4	7,179,870.5	-1	100
LCA1721	LSR27770		450	478,543.7	7,179,875.2	-1	100
LCA1722	LSR27772		450	478,542.0	7,179,879.9	-1	50
LCA1723	LSR27773		450	478,540.3	7,179,884.6	1	100
LCA1724	LSR27774		450	478,538.6	7,179,889.3	2	100
LCA1725	LSR27775		450	478,536.9	7,179,894.0	2	100
LCA1726	LSR27776		450	478,535.2	7,179,898.7	2	50
LCA1727	LSR27777		450	478,533.4	7,179,903.4	2	50
LCA1728	LSR27778		450	478,531.7	7,179,908.1	2	100
LCA1736	LSR27705		450	478,551.4	7,179,912.6	-1	50
LCA1737	LSR27706		450	478,553.1	7,179,907.9	-1	50
LCA1738	LSR27707		450	478,554.8	7,179,903.2	-1	100
LCA1739	LSR27708		450	478,556.5	7,179,898.5	-1	100
LCA1740	LSR27709		450	478,558.2	7,179,893.8	3	100
LCA1741	LSR27710		450	478,559.9	7,179,889.1	2	100
LCA1742	LSR27712		450	478,561.6	7,179,884.4	-1	100
LCA1743	LSR27713		450	478,563.4	7,179,879.7	-1	50
LCA1744	LSR27714		450	478,565.1	7,179,875.0	1	100
LCA1745	LSR27715		450	478,566.8	7,179,870.3	-1	100
LCA1746	LSR27716		450	478,568.5	7,179,865.6	1	100
LCA1747	LSR27717		450	478,570.2	7,179,860.9	1	100

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA1748	LSR27718		450	478,571.9	7,179,856.2	1	100
LCA1749	LSR27719		450	478,573.6	7,179,851.5	-1	100
LCA1750	LSR27720		450	478,575.3	7,179,846.8	-1	100
LCA1751	LSR27721		450	478,577.0	7,179,842.1	-1	100
LCA1752	LSR27722		450	478,578.7	7,179,837.4	-1	100
LCA1753	LSR27723		450	478,580.5	7,179,832.7	1	100
LCA1754	LSR27724		450	478,582.2	7,179,828.0	-1	100
LCA1755	LSR27725		450	478,583.9	7,179,823.3	4	100
LCA1756	LSR27726		450	478,585.6	7,179,818.6	-1	100
LCA1757	LSR27727		450	478,587.3	7,179,813.9	-1	150
LCA1758	LSR27728		450	478,589.0	7,179,809.2	-1	50
LCA1759	LSR27729		450	478,590.7	7,179,804.5	-1	100
LCA1760	LSR27730		450	478,592.4	7,179,799.8	-1	50
LCA1761	LSR27732		450	478,594.1	7,179,795.1	-1	50
LCA1762	LSR27733		450	478,595.8	7,179,790.4	-1	50
LCA1763	LSR27734		450	478,597.6	7,179,785.7	9	200
LCA1764	LSR27735		450	478,599.3	7,179,781.0	2	100
LCA1765	LSR27736		450	478,601.0	7,179,776.3	5	100
LCA1766	LSR27737		450	478,602.7	7,179,771.6	7	250
LCA1769	LSR27738		450	478,607.8	7,179,757.5	-1	100
LCA1771	LSR27739		450	478,611.2	7,179,748.1	6	100
LCA1772	LSR27740		450	478,612.9	7,179,743.4	4	100
LCA1773	LSR27675		450	478,632.6	7,179,747.9	16	100
LCA1774	LSR27676		450	478,630.9	7,179,752.6	9	200
LCA1775	LSR27677		450	478,629.2	7,179,757.3	1	100
LCA1776	LSR27678		450	478,627.5	7,179,762.0	-1	100
LCA1777	LSR27679		450	478,625.8	7,179,766.7	4	100
LCA1778	LSR27680		450	478,624.0	7,179,771.4	6	100
LCA1779	LSR27682		450	478,622.3	7,179,776.1	8	200
LCA1780	LSR27683		450	478,620.6	7,179,780.8	6	100
LCA1782	LSR27684		450	478,617.2	7,179,790.2	-1	100
LCA1791	LSR27685		450	478,601.8	7,179,832.5	6	100
LCA1792	LSR27686		450	478,600.1	7,179,837.2	6	100
LCA1793	LSR27687		450	478,598.4	7,179,841.9	18	100
LCA1794	LSR27688		450	478,596.7	7,179,846.6	2	50
LCA1795	LSR27689		450	478,595.0	7,179,851.3	3	100
LCA1796	LSR27690		450	478,593.3	7,179,856.0	1	100
LCA1797	LSR27692		450	478,591.6	7,179,860.7	3	50
LCA1798	LSR27693		450	478,589.8	7,179,865.4	-1	50
LCA1799	LSR27694		450	478,588.1	7,179,870.1	-1	100
LCA1800	LSR27695		450	478,586.4	7,179,874.8	2	50
LCA1801	LSR27696		450	478,584.7	7,179,879.5	-1	100
LCA1802	LSR27697		450	478,583.0	7,179,884.2	1	100
LCA1803	LSR27698		450	478,581.3	7,179,888.9	-1	50
LCA1804	LSR27699		450	478,579.6	7,179,893.6	1	100
LCA1805	LSR27700		450	478,577.9	7,179,898.3	1	100

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA1806	LSR27701		450	478,576.2	7,179,902.9	-1	50
LCA1807	LSR27702		450	478,574.4	7,179,907.6	-1	100
LCA1808	LSR27703		450	478,572.7	7,179,912.3	2	100
LCA1809	LSR27704		450	478,571.0	7,179,917.0	1	50
LCA1819	LSR27637		450	478,590.7	7,179,921.5	-1	150
LCA1820	LSR27638		450	478,592.4	7,179,916.8	4	100
LCA1821	LSR27639		450	478,594.1	7,179,912.1	6	300
LCA1822	LSR27640		450	478,595.8	7,179,907.4	2	250
LCA1823	LSR27642		450	478,597.5	7,179,902.7	2	200
LCA1824	LSR27643		450	478,599.2	7,179,898.0	17	300
LCA1825	LSR27644		450	478,600.9	7,179,893.3	7	200
LCA1826	LSR27645		450	478,602.6	7,179,888.6	11	250
LCA1827	LSR27646		450	478,604.4	7,179,883.9	9	150
LCA1828	LSR27647		450	478,606.1	7,179,879.2	16	250
LCA1829	LSR27648		450	478,607.8	7,179,874.6	2	100
LCA1830	LSR27649		450	478,609.5	7,179,869.9	2	100
LCA1831	LSR27650		450	478,611.2	7,179,865.2	1	100
LCA1832	LSR27651		450	478,612.9	7,179,860.5	2	100
LCA1833	LSR27652		450	478,614.6	7,179,855.8	3	150
LCA1834	LSR27653		450	478,616.3	7,179,851.1	1	50
LCA1835	LSR27654		450	478,618.0	7,179,846.4	3	50
LCA1836	LSR27655		450	478,619.7	7,179,841.7	2	50
LCA1837	LSR27656		450	478,621.5	7,179,837.0	6	450
LCA1838	LSR27657		450	478,623.2	7,179,832.3	6	400
LCA1839	LSR27658		450	478,624.9	7,179,827.6	7	300
LCA1840	LSR27659		450	478,626.6	7,179,822.9	4	250
LCA1841	LSR27660		450	478,628.3	7,179,818.2	7	350
LCA1842	LSR27662		450	478,630.0	7,179,813.5	7	400
LCA1843	LSR27663		450	478,631.7	7,179,808.8	7	350
LCA1844	LSR27664		450	478,633.4	7,179,804.1	6	1500
LCA1845	LSR27665		450	478,635.1	7,179,799.4	6	650
LCA1846	LSR27666		450	478,636.9	7,179,794.7	8	2300
LCA1847	LSR27667		450	478,638.6	7,179,790.0	7	750
LCA1848	LSR27668		450	478,640.3	7,179,785.3	5	650
LCA1849	LSR27669		450	478,642.0	7,179,780.6	9	250
LCA1850	LSR27670		450	478,643.7	7,179,775.9	13	350
LCA1851	LSR27671		450	478,645.4	7,179,771.2	2	100
LCA1852	LSR27672		450	478,647.1	7,179,766.5	18	100
LCA1853	LSR27673		450	478,648.8	7,179,761.8	2	100
LCA1854	LSR27674		450	478,650.5	7,179,757.1	31	300
LCA1855	LSR27599		450	478,670.2	7,179,761.6	5	50
LCA1856	LSR27601		450	478,668.5	7,179,766.3	18	150
LCA1857	LSR27602		450	478,666.8	7,179,771.0	5	50
LCA1858	LSR27603		450	478,665.0	7,179,775.7	30	250
LCA1859	LSR27604		450	478,663.3	7,179,780.4	7	250
LCA1860	LSR27605		450	478,661.6	7,179,785.1	8	50

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA1861	LSR27606		450	478,659.9	7,179,789.8	10	100
LCA1862	LSR27607		450	478,658.2	7,179,794.5	10	250
LCA1863	LSR27608		450	478,656.5	7,179,799.2	2	250
LCA1864	LSR27609		450	478,654.8	7,179,803.9	6	150
LCA1865	LSR27610		450	478,653.1	7,179,808.6	6	150
LCA1866	LSR27611		450	478,651.4	7,179,813.3	1	50
LCA1867	LSR27612		450	478,649.7	7,179,818.0	1	50
LCA1868	LSR27613		450	478,647.9	7,179,822.7	-1	50
LCA1869	LSR27614		450	478,646.2	7,179,827.4	-1	50
LCA1870	LSR27615		450	478,644.5	7,179,832.1	6	150
LCA1871	LSR27616		450	478,642.8	7,179,836.8	6	450
LCA1872	LSR27617		450	478,641.1	7,179,841.5	6	500
LCA1873	LSR27618		450	478,639.4	7,179,846.2	15	350
LCA1874	LSR27619		450	478,637.7	7,179,850.9	6	200
LCA1875	LSR27620		450	478,636.0	7,179,855.6	3	100
LCA1876	LSR27622		450	478,634.3	7,179,860.2	9	250
LCA1877	LSR27623		450	478,632.6	7,179,864.9	8	200
LCA1878	LSR27624		450	478,630.8	7,179,869.6	8	200
LCA1879	LSR27625		450	478,629.1	7,179,874.3	7	250
LCA1880	LSR27626		450	478,627.4	7,179,879.0	2	200
LCA1881	LSR27627		450	478,625.7	7,179,883.7	-1	100
LCA1882	LSR27628		450	478,624.0	7,179,888.4	-1	100
LCA1883	LSR27629		450	478,622.3	7,179,893.1	-1	100
LCA1884	LSR27630		450	478,620.6	7,179,897.8	-1	100
LCA1885	LSR27631		450	478,618.9	7,179,902.5	-1	100
LCA1886	LSR27632		450	478,617.2	7,179,907.2	-1	150
LCA1887	LSR27633		450	478,615.5	7,179,911.9	-1	100
LCA1888	LSR27634		450	478,613.7	7,179,916.6	-1	100
LCA1889	LSR27635		450	478,612.0	7,179,921.3	-1	100
LCA1890	LSR27636		450	478,610.3	7,179,926.0	-1	100
LCA1902	LSR27562		450	478,630.0	7,179,930.5	30	200
LCA1903	LSR27563		450	478,631.7	7,179,925.8	4	100
LCA1904	LSR27564		450	478,633.4	7,179,921.1	1	50
LCA1905	LSR27565		450	478,635.1	7,179,916.4	10	250
LCA1906	LSR27566		450	478,636.8	7,179,911.7	3	200
LCA1907	LSR27567		450	478,638.5	7,179,907.0	9	250
LCA1908	LSR27568		450	478,640.2	7,179,902.3	6	200
LCA1909	LSR27569		450	478,641.9	7,179,897.6	1	50
LCA1910	LSR27570		450	478,643.7	7,179,892.9	6	250
LCA1911	LSR27571		450	478,645.4	7,179,888.2	16	250
LCA1912	LSR27572		450	478,647.1	7,179,883.5	-1	50
LCA1913	LSR27573		450	478,648.8	7,179,878.8	-1	50
LCA1914	LSR27574		450	478,650.5	7,179,874.1	4	50
LCA1915	LSR27575		450	478,652.2	7,179,869.4	3	200
LCA1916	LSR27576		450	478,653.9	7,179,864.7	14	400
LCA1917	LSR27578		450	478,655.6	7,179,860.0	16	500

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA1918	LSR27579		450	478,657.3	7,179,855.3	6	200
LCA1919	LSR27580		450	478,659.0	7,179,850.6	5	100
LCA1920	LSR27581	1.5	450	478,660.8	7,179,845.9	4	250
LCA1921	LSR27582	1	450	478,662.5	7,179,841.2	5	150
LCA1921	LSR27583	2	450	478,662.5	7,179,841.2	2	350
LCA1922	LSR27584		450	478,664.2	7,179,836.5	13	300
LCA1923	LSR27585		450	478,665.9	7,179,831.9	7	100
LCA1924	LSR27586		450	478,667.6	7,179,827.2	10	150
LCA1925	LSR27587		450	478,669.3	7,179,822.5	22	200
LCA1926	LSR27588		450	478,671.0	7,179,817.8	22	250
LCA1927	LSR27589		450	478,672.7	7,179,813.1	11	100
LCA1928	LSR27590		450	478,674.4	7,179,808.4	5	100
LCA1929	LSR27591		450	478,676.1	7,179,803.7	16	200
LCA1930	LSR27592		450	478,677.9	7,179,799.0	6	150
LCA1931	LSR27593		450	478,679.6	7,179,794.3	4	100
LCA1932	LSR27594		450	478,681.3	7,179,789.6	11	50
LCA1933	LSR27595		450	478,683.0	7,179,784.9	32	300
LCA1934	LSR27596		450	478,684.7	7,179,780.2	12	150
LCA1935	LSR27597		450	478,686.4	7,179,775.5	25	150
LCA1936	LSR27598		450	478,688.1	7,179,770.8	10	100
LCA1937	LSR27540		450	478,707.8	7,179,775.3	6	150
LCA1938	LSR27541		450	478,706.1	7,179,780.0	52	100
LCA1939	LSR27542		450	478,704.3	7,179,784.7	3	200
LCA1940	LSR27543		450	478,702.6	7,179,789.4	5	250
LCA1941	LSR27544		450	478,700.9	7,179,794.1	13	300
LCA1942	LSR27545		450	478,699.2	7,179,798.8	21	300
LCA1943	LSR27546		450	478,697.5	7,179,803.5	38	300
LCA1944	LSR27547		450	478,695.8	7,179,808.2	17	200
LCA1945	LSR27548		450	478,694.1	7,179,812.8	9	200
LCA1946	LSR27549		450	478,692.4	7,179,817.5	17	250
LCA1947	LSR27550	2	450	478,690.7	7,179,822.2	6	400
LCA1947	LSR27551	1	450	478,690.7	7,179,822.2	6	500
LCA1948	LSR27552	2.7	450	478,689.0	7,179,826.9	4	2400
LCA1948	LSR27553	1	450	478,689.0	7,179,826.9	6	300
LCA1949	LSR27554		450	478,687.2	7,179,831.6	14	350
LCA1950	LSR27555		450	478,685.5	7,179,836.3	3	100
LCA1951	LSR27556		450	478,683.8	7,179,841.0	12	150
LCA1952	LSR27558		450	478,682.1	7,179,845.7	14	200
LCA1953	LSR27559	1	450	478,680.4	7,179,850.4	10	200
LCA1953	LSR27560	2	450	478,680.4	7,179,850.4	5	250
LCA1954	LSR27561	1.8	450	478,678.7	7,179,855.1	5	250
LCA2002	LSR27520		450	478,698.3	7,179,859.6	12	400
LCA2003	LSR27521		450	478,700.1	7,179,854.9	2	50
LCA2004	LSR27522		450	478,701.8	7,179,850.2	3	50
LCA2005	LSR27523		450	478,703.5	7,179,845.5	7	150
LCA2006	LSR27524		450	478,705.2	7,179,840.8	2	50

HoleID	SampleID	DepthTo	nominal RL	East	North	Au_ppb	S_ppm
LCA2007	LSR27525		450	478,706.9	7,179,836.1	6	150
LCA2008	LSR27526		450	478,708.6	7,179,831.4	24	250
LCA2009	LSR27527		450	478,710.3	7,179,826.7	30	300
LCA2010	LSR27528		450	478,712.0	7,179,822.0	12	100
LCA2011	LSR27529		450	478,713.7	7,179,817.3	10	550
LCA2011	LSR27530		450	478,713.7	7,179,817.3	9	9850
LCA2012	LSR27531		450	478,715.4	7,179,812.6	16	450
LCA2013	LSR27532		450	478,717.2	7,179,807.9	3	100
LCA2014	LSR27533		450	478,718.9	7,179,803.2	5	100
LCA2015	LSR27534		450	478,720.6	7,179,798.5	6	50
LCA2016	LSR27535		450	478,722.3	7,179,793.8	18	50
LCA2017	LSR27536		450	478,724.0	7,179,789.1	6	50
LCA2018	LSR27538		450	478,725.7	7,179,784.5	18	150
LCA2018	LSR27539		450	478,725.7	7,179,784.5	27	400
LCA2034	LSR27519		450	478,719.7	7,179,859.4	16	1000
LCA2035	LSR27518		450	478,718.0	7,179,864.1	6	50
LCA2036	LSR27517		450	478,716.3	7,179,868.8	4	100
LCA2037	LSR28554		450	478,678.0	7,179,902.0	11	300
LCA2038	LSR28563		450	478,656.0	7,179,922.0	14	150
LCA2039	LSR28562		450	478,661.0	7,179,913.0	25	350
LCA2040	LSR28561		450	478,666.0	7,179,904.0	5	250
LCA2041	LSR28560		450	478,671.0	7,179,896.0	9	250
LCA2042	LSR28555		450	478,677.0	7,179,887.0	2	100
LCA2043	LSR28556		450	478,674.0	7,179,892.0	10	150
LCA2044	LSR28557	1.5	450	478,669.0	7,179,901.0	5	300
LCA2044	LSR28558	1.8	450	478,669.0	7,179,901.0	7	500
LCA2045	LSR28571		450	479,087.0	7,180,327.0	2	150
LCA2046	LSR28572		450	479,087.0	7,180,313.0	-1	100
LCA2047	LSR28573		450	479,088.0	7,180,300.0	-1	100
LCA2048	LSR28574		450	479,088.0	7,180,287.0	1	150
LCA2049	LSR28575		450	479,088.0	7,180,271.0	1	100
LCA2050	LSR28576		450	479,087.0	7,180,258.0	22	150
LCA2051	LSR28577		450	479,089.0	7,180,244.0	1	250
LCA2059	LSR28578		450	479,641.0	7,180,427.0	-1	100
LCA2060	LSR28580		450	479,641.0	7,180,399.0	2	150
LCA2061	LSR28581		450	479,641.0	7,180,377.0	3	100
LCA2063	LSR28588		450	478,935.0	7,181,404.0	-1	100
LCA2064	LSR28587		450	478,938.0	7,181,376.0	1	100
LCA2065	LSR28586		450	478,935.0	7,181,346.0	1	100
LCA2066	LSR28585		450	478,938.0	7,181,318.0	3	100
LCA2067	LSR28584		450	478,935.0	7,181,282.0	6	300
LCA2068	LSR28583		450	478,935.0	7,181,251.0	4	100
LCA2069	LSR28582		450	478,938.0	7,181,218.0	2	100

JORC Code, 2012

Section 1 Sampling Techniques and Data

Criteria	JORC Code explanation	Commentary
Sampling techniques	Nature and quality of sampling (eg cut channels, random chips, or specific specialised industry standard measurement tools appropriate to the minerals under investigation, such as down hole gamma sondes, or handheld XRF instruments, etc). These examples should not be taken as limiting the broad meaning of sampling. Include reference to measures taken to ensure sample representivity and the appropriate calibration of any measurement tools or systems used. Aspects of the determination of mineralisation that are Material to the Public Report. In cases where 'industry standard' work has been done this would be relatively simple (eg 'reverse circulation drilling was used to obtain 1 m samples from which 3 kg was pulverised to produce a 30 g charge for fire assay'). In other cases more explanation may be required, such as where there is coarse gold that has inherent sampling problems. Unusual commodities or mineralisation types (eg submarine nodules) may warrant disclosure of detailed information.	Geochemical samples were collected by shallow auger drilling to blade refusal. The intention was to sample the interface between colluvium and bedrock. Samples were collected from the auger flights in a bucket, spear sampled and placed in numbered calico bags. Maximum depth per sample is 1 metre, only a few holes penetrated to greater than 1 metre depth. A 2.5kg sample is submitted for analysis. Sample representivity is maintained by placing samples in a pre-numbered calico bag with a corresponding sample book entry. Certified reference materials, and laboratory repeat samples are analysed routinely. Samples were collected on a systematic grid and drill hole locations were recorded using a hand-held DGPS.
Drilling techniques	Drill type (eg core, reverse circulation, open-hole hammer, rotary air blast, auger, Bangka, sonic, etc) and details (eg core diameter, triple or standard tube, depth of diamond tails, face-sampling bit or other type, whether core is oriented and if so, by what method, etc).	Shallow auger sampling was used throughout the program using a 10cm diameter auger and 1.5m rods. The method is comparable to a soil geochemical sampling program.
Drill sample recovery	Method of recording and assessing core and chip sample recoveries and results assessed. Measures taken to maximise sample recovery and ensure representative nature of the samples. Whether a relationship exists between sample recovery and grade and whether sample bias may have occurred due to preferential loss/gain of fine/coarse material.	Sample recovery was not recorded quantitatively, abbreviated description of the conditions note where hard ground was encountered and holes were completed at shallow depth. Rods and flights were cleaned regularly to minimise contamination. Samples were collected as bulk material that may contain particulate gold.
Logging	Whether core and chip samples have been geologically and geotechnically logged to a level of detail to support appropriate Mineral Resource estimation, mining studies and metallurgical studies. Whether logging is qualitative or quantitative in nature. Core (or costean, channel, etc.) photography. The total length and percentage of the relevant intersections logged.	Samples are given a brief description; shallow sampling, generally less than 1 metre - not intended to define a mineral resource. Qualitative abbreviated description of sample material. Total hole/sample was logged.
Sub-sampling techniques and sample preparation	If core, whether cut or sawn and whether quarter, half or all core taken. If non-core, whether riffled, tube sampled, rotary split, etc. and whether sampled wet or dry. For all sample types, the nature, quality and appropriateness of the sample preparation technique. Quality control procedures adopted for all sub-sampling stages to maximise representivity of samples. Measures taken to ensure that the sampling is representative of the in situ material collected, including for instance results for field duplicate/second-half sampling. Whether sample sizes are appropriate to the grain size of the	Not applicable. Sample collected at surface and placed in bucket, sub-sample collected by PVC spear and placed in calico sample bag. Only dry samples were encountered. Sample preparation involves drying, crushing and grinding to 90% passing minus 75 microns.40g sub-sample collected by rotary splitter for assay. Replicate samples are included in the assay report. Field duplicates were not submitted

Criteria	JORC Code explanation	Commentary
material being sampled.	for this program due to the close- spaced sample grid. Particulate gold is present in the area sampled, further work is required to confirm the suitability of the sampling method employed.
Quality of assay data and laboratory tests	The nature, quality and appropriateness of the assaying and laboratory procedures used and whether the technique is considered partial or total. For geophysical tools, spectrometers, handheld XRF instruments, etc., the parameters used in determining the analysis including instrument make and model, reading times, calibrations factors applied and their derivation, etc. Nature of quality control procedures adopted (e.g. standards, blanks, duplicates, external laboratory checks) and whether acceptable levels of accuracy (i.e. lack of bias) and precision have been established.	A nominal 40 gramme charge is digested with aqua regia and gold is determined by ICP-MS (Method AR001). This is a partial digest although it is extremely efficient for the extraction of gold. Sulphur is analysed from the aqua regia solution by ICP- AES (method AR101). Laboratory QAQC involves the use of internal laboratory standards, duplicate and replicate samples. Lodestar's certified reference standards and blanks were inserted throughout the programme. Results indicate that sample assay values are accurate and repeatable.
Verification of sampling and assaying	The verification of significant intersections by either independent or alternative company personnel. The use of twinned holes. Documentation of primary data, data entry procedures, data verification, data storage (physical and electronic) protocols. Discuss any adjustment to assay data.	There has been no independent verification of geochemical data. No twinned holes have been completed. Field and laboratory data are collected electronically and entered into a relational database. Data collection protocols are recorded in Lodestar's operation manual. There has been no adjustment to assay data.
Location of data points	Accuracy and quality of surveys used to locate drill holes (collar and down-hole surveys), trenches, mine workings and other locations used in Mineral Resource estimation. Specification of the grid system used. Quality and adequacy of topographic control.	Sample locations were determined with a Navcom 3040 differential GNSS handheld receiver. Accuracy is +/-1 metres or less. Sample coordinates were recorded in GDA94 Zone 50 grid. Local elevation is recorded from the GPS; although this is subject to significant error it is unlikely to impact the validity o surface data.
Data spacing and distribution	Data spacing for reporting of Exploration Results. Whether the data spacing and distribution is sufficient to establish the degree of geological and grade continuity appropriate for the Mineral Resource and Ore Reserve estimation procedure(s) and classifications applied. Whether sample compositing has been applied.	Sample spacing varies from 5 metres by 5 metres to 20 metres by 5 metres. The sampling is part of an early exploration geochemical sampling programme with no relevance to resource estimation. No compositing was applied for the geochemical programme.
Orientation of data in relation to geological structure	Whether the orientation of sampling achieves unbiased sampling of possible structures and the extent to which this is known, considering the deposit type. If the relationship between the drilling orientation and the orientation of key mineralised structures is considered to have introduced a sampling bias, this should be assessed and reported if material.	Regional sampling programme not intended to define mineralisation or mineralisation-controlling structures.
Sample security	The measures taken to ensure sample security.	Samples are stored at Lodestar's exploration camp under supervision prior to dispatch by licenced courier service (TOLL IPEC/Sadliers Nexus) or Lodestar

Criteria	JORC Code explanation	Commentary
staff to Bureau Veritas (Ultratrace) Laboratories.
Audits or Reviews	The results of any audits or reviews of sampling techniques and data.	No audits or reviews have been carried out.

Section 2 Reporting of Exploration Results

(Criteria listed in the preceding section also apply to this section.)

Criteria	JORC Code explanation	Commentary
Mineral tenement and land tenure status	Type, reference name/number, location and ownership including agreements or material issues with third parties such as joint ventures, partnerships, overriding royalties, native title interests, historical sites, wilderness or national park and environmental settings. The security of the tenure held at the time of reporting along with any known impediments to obtaining a licence to operate in the area.	The Big Sky prospect is located on E09/2099, within Lodestar's Camel Hills project. The tenement is wholly- owned by Lodestar Minerals and is located within the native title claim WAD6030/98 of the Wajarri Yamatji people.  E52/2099 expires on 20/05/2020.
Exploration done by other parties	Acknowledgment and appraisal of exploration by other parties.	Gold exploration commenced at Camel Hills in the early 1990's, Newmont completed regional BLEG sampling of drainages, reporting visible gold from several creeks. A number of explorers have since completed in-fill stream and soil geochemistry, ultimately defining a strong surface gold anomaly in the Camel Hills-Big Sky area. This anomaly was partly tested by widely spaced RC drilling completed by Desert Mines and Metals Limited in 2013. Regional drainage sampling and prospectivity analysis of the Glenburgh 1:250 000 sheet by the GSWA indicates a large, low-level gold anomaly related to a strongly magnetic unit, mapped as the Petter Calc-silicate, within highly metamorphosed terrane of the Errabiddy Shear Zone at the northern boundary of the Yilgarn Craton.
Geology	Deposit type, geological setting and style of mineralisation.	The project area lies within the Errabiddy Shear Zone, at the northern margin of the Yilgarn Craton. The Errabiddy Shear Zone separates the Archaean Narryer Terrane from the Palaeoproterozoic Gascoyne Province to the north. The Errabiddy Shear Zone comprises the Warrigal Gneiss and the Camel Hill Metamorphics. The Camel Hills Metamorphics can be sub-divided into the Petter Calc- silicate and the Quartpot Pelite, the sequence is metamorphosed to upper amphibolite to granulite facies and the Quartpot Pelite displays evidence for widespread partial melting. Gold mineralisation appears to be related to a narrow lode system on the contact between strongly magnetic Petter Calc-silicate and the Quartpot Pelite.
Drill hole Information	A summary of all information material to the understanding of the exploration results including a tabulation of the following information for all Material drill holes: easting and northing of the drill hole collar elevation or RL (Reduced Level - elevation above sea level in metres) of the drill hole collar dip and azimuth of the hole down hole length and interception depth 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.	Tabulated data is provided in Table 1, attached.
Data aggregation	In reporting Exploration Results, weighting averaging techniques, maximum and/or minimum	No data aggregation methods are applied.

Criteria	JORC Code explanation	Commentary
methods	grade truncations (e.g. 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 between mineralisation widths and intercept lengths	These relationships are particularly important in the reporting of Exploration Results. If the geometry of the mineralisation with respect to the drill hole angle is known, its nature should be reported. If it is not known and only the down hole lengths are reported, there should be a clear statement to this effect (e.g. 'down hole length, true width not known').	Shallow auger sampling to test for near-surface geochemical anomalies that may reflect mineralisation a depth - sampling did not intersect significant mineralisation
Diagrams	Appropriate maps and sections (with scales) and tabulations of intercepts should be included for any significant discovery being reported These should include, but not be limited to a plan view of drill hole collar locations and appropriate sectional views.	Plans showing sample sites (Figures 2 and 3) and significant results are included in this report.
Balanced reporting	Where comprehensive reporting of all Exploration Results is not practicable, representative reporting of both low and high grades and/or widths should be practiced to avoid misleading reporting of Exploration Results.	All relevant sample data is reported in Table 1.

Criteria	JORC Code explanation	Commentary
Other substantive exploration data	Other exploration data, if meaningful and material, should be reported including (but not limited to): geological observations; geophysical survey results; geochemical survey results; bulk samples - size and method of treatment; metallurgical test results; bulk density, groundwater, geotechnical and rock characteristics; potential deleterious or contaminating substances.	None to report.
Further work	The nature and scale of planned further work (e.g. tests for lateral extensions or depth extensions or large-scale step-out drilling). Diagrams clearly highlighting the areas of possible extensions, including the main geological interpretations and future drilling areas, provided this information is not commercially sensitive.	The sampling program successfully outlined a surface gold anomaly in the area of known high-grade mineralisation defined by RC drilling completed in 2015. Step-out RC drilling will be planned on the results of the auger program. The sampling supports the concept that mineralisation is locally controlled by the Quartpot Pelite - Petter Calc- silicate contact, sulphide-poor gold mineralisation and gold-poor sulphide-rich zones have been identified along the 500 metres tested by this program.

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Lodestar Minerals Limited

Auger Sampling Extends Big Sky Gold Target

Auger Sampling Extends Big Sky Gold Target

CONTACT DETAILS

CAPITAL STRUCTURE

PROJECTS

HIGHLIGHTS

Auger sampling returns widespread elevated gold mineralisation with results up to 11g/t.

A clear 150m trend identified west and south of the high-grade lode intersected in maiden Big Sky RC drill program.

High priority, 1,000m follow-up RC drill program of this area scheduled by end of March quarter, subject to statutory approval and seasonal weather conditions.

Further evidence gold mineralisation at Camel Hills is related to magnetic contact of Petter Calc-silicate unit - 6km of prospective contact west of Big Sky remains untested.

Competent Person Statement

JORC Code, 2012

Section 1 Sampling Techniques and Data

Section 2 Reporting of Exploration Results

Lodestar Minerals Limited