DART MINING NL — Regulatory Filings 2012

Sep 4, 2012

ASX ANNOUNCEMENT

5 September 2012

ASX Code: DTM

Investment Data

Shares on issue 182,937M Unlisted options 8.35M

Shareholders

Top 20 Hold 35%

Key Projects / Metals

• Unicorn Porphyry Mo-Cu-Ag
• Morgan Porphyry Mo-Ag-Au
• Mountain View Lode Au

Mo – Molybdenum Cu – Copper Au – Gold Ag – Silver

Board & Management

Chairman

Mr Chris Bain

Managing Director

Mr Lindsay Ward

Executive Director

Mr Dean Turnbull Manager – Exploration

Non-Executive Directors

Mr Stephen Poke Mr Richard Udovenya

Contact Details

Dart Mining NL Level 2 395 Collins Street Melbourne VIC 3000 Australia

Mr Lindsay Ward

Phone: +61 (0)3 9621 1299

Email: lward@dartmining.com.au

Visit our webpage: www.dartmining.com.au

DART MINING DOUBLES MOLYBDENUM RESOURCE AT UNICORN PROJECT TO 203 MILLION TONNES

• 203Mt Total Resource – Measured 50% / Indicated 18% / Inferred 32%
• 102Mt Measured Resource at 0.07% MoEq¹ containing a high grade Measured Resource accessible from surface of 54Mt at 0.08% MoEq¹
• Indicated to Measured Resource conversion at minimal loss of grade
• 38Kt Mo / 61Kt Cu / 11.8Moz Ag Insitu metal in Measured Resource

Dart Mining NL (ASX : DTM) and AMC Consultants Pty Ltd (AMC) have completed geological modelling of the Unicorn Mo + Cu + Ag deposit near Corryong in north east Victoria and estimated an updated Mineral Resource (Figure 1) to a total of 203 million tonnes at 0.06% MoEq¹ at 0.04% MoEq¹ cut off reported according to the JORC Code (refer Appendix 1).

"Dart Mining is very pleased with the result of the updated JORC Mineral Resource and is now in a position to move quickly to finalise the Unicorn scoping study scheduled for release in October. A 100% Mineral Resource upgrade to 203Mt of which 102Mt is at Measured status (at 0.07% MoEq¹ ) is a promising result for the company," said Lindsay Ward, Dart Mining's Managing Director.

"Even better is the extensive high grade block of the Measured Mineral Resource (54Mt at 0.08% MoEq¹ ) accessible from surface with a minimal strip ratio (refer Figure 2). Should Unicorn move into production at a later stage these high grade blocks could assist early cash flows from the project. This is very encouraging for the economics of the Unicorn deposit."

JORC CLASSIFICATION	MoEq1 Cut off Grade (ppm)	TONNES (Mt)	Mo Eq1 (ppm)	Mo (ppm)	Cu (ppm)	Ag (ppm)
MEASURED	400	102	664	367	599	3.58
INIDICATED	400	35	576	362	414	2.75
INFERRED	400	66	502	332	332	2.15
TOTAL	400	203	596	355	480	2.97
Contained Within the Measured Mineral Resource from surface:
MEASURED*	600	54	809	411	827	4.61

Table 1. Total JORC Mineral Resources by Cut‐off Grade – August 2012

Notes. See below for table explanation.

The total Mineral Resource of 203Mt at 0.06% MoEq¹ including 102Mt at 0.07% MoEq¹ remains open at depth below 450 metres. It should be noted that high grade mineralisation (2 metres at 0.48% Mo DUNDD005) has been intersected in a single hole at a depth of 538 metres. This is some 200 metres below the current Mineral Resource base and confirms the potential for more high grade stacked Mo horizons typical of Climax style porphyry intrusive such as Dart Mining's Unicorn project and Henderson in Colorado, USA.

The combined Measured and Indicated Mineral Resource of 138Mt at 0.06% MoEq¹ (at a 400ppm MoEq¹ cut off) could support a mine life in excess of 20 years at 5Mtpa production rate or approximately 15 years at 10Mtpa – a production rate that would enable significant economies of scale should Unicorn become a mining operation in the future. The economics of this will be established by the scoping study in October.

At a cut off of 400 ppm MoEq¹ the total Mineral Resource contains 72,000t (159Mlb) of Mo, 98,000t (216 Mlb) of Cu and 19.4Moz of Ag Insitu metal.

A summary of the block model estimation procedure can be found on the Dart Mining website www.dartmining.com.au. The Executive Summary from the AMC Consultants Pty Ltd Resource Estimation report can be found in Appendix 1 attached. The full Unicorn resource update report prepared by Dart Mining is also available on the Dart Mining website.

Table 2. Contained Insitu Metal

							INSITU METAL
JORC	TONNAGE	MoEq1 Cutoff	Eq1 Mo	Mo	Cu	Ag	Mo	Cu	Ag
CLASSIFICATION	(Mt)	(%)	(%)	(%)	(%)	(g/t)	(t)	(t)	(Moz)
MEASURED	102	0.04	0.07	0.04	0.06	3.58	37,561	61,305	11.8
INDICATED	35	0.04	0.06	0.04	0.04	2.75	12,792	14,629	3.1
INFERRED	66	0.04	0.05	0.03	0.03	2.15	21,863	21,863	4.5
TOTAL	203	0.04	0.06	0.04	0.05	2.97	72,216	97,798	19.4
Contained Within the Measured Mineral Resource is:
MEASURED*	54	0.06	0.08	0.04	0.08	4.61	22,016	44,300	7.9

Variables and factors that influence Tables 1 & 2.

* Measured Mineral Resource at 0.06% MoEq¹ cutoff of 54 Mt @ 0.08% MoEq¹ is included in the 203 Mt @ 0.06% MoEq¹ at a 0.04% MoEq¹ cutoff.

MoEq¹ (Molybdenum Equivalent) = Mo + (Cu / 3.44) + (Ag x 34.3) (assumes equal metallurgical recovery for each metal) – see Note 1.

Estimated by ordinary kriging on 50 x 50 x 50m blocks at 400ppm MoEq¹ cutoff grade (cut off considered to represent a level at which the combined value of recoverable metals clearly shows reasonable prospects for eventual economic extraction).

Top cutting has been applied to high grade drill intersections at different values for each metal, such that grades used in the Mineral Resource do not rise above the following upper limits:

o Molybdenum cut off: 3500ppm (0.35% Mo). Maximum value in drill hole samples 6260 ppm Mo

o Copper cut off: 10000ppm (1.0% Cu). Maximum value in drill hole samples 17,800 ppm Cu

o Silver cut off: 50ppm (50 g/t Ag). Maximum value in drill samples 100 g/t Ag

Bulk Density assigned by lithology. Silica Cap – 2.72 g/cm3 ;Quartz Feldspar Porphyry 2.67 g/cm³ ; Polymict Breccia 2.73 g/cm³ ; Igneous Breccia 2.72 g/cm3 ; Diorite 2.67 g/cm3 and Sediments / Sedimentary Breccia 2.68 g/cm3 . A total of 27 samples were used to estimate the representative bulk density of each style of lithology / mineralisation.

Note 1: Molybdenum Equivalent Assumptions: Based on relative value (with reference to the average price) of each metal in the 2 months June 22nd to August 23rd 2012 listed on the LME for Molybdenum and Copper and average price for the same period for Silver as follows:

• Mo US\$25,871 per tonne
• Cu US\$7515.7 per tonne
• Ag US\$27.6 per ounce

The Molybdenum Equivalent grade should not be interpreted as actual molybdenum grade as the conversion ratios vary with the volatile prices of Mo, Cu and Ag. However, it is the Company's opinion that elements considered here have a reasonable prospect to be recovered.

Figure 1. Unicorn Mineral Resource Update 2012 (Top) 5,978,050mN cross section showing the Measured Resource volume with block grades higher than 600ppm MoEq1 highlighted in magenta outline and cross hatch. (Bottom) Long Section on 588,800mE looking east showing the same block grade information – Note only a small portion of the M3 zone falls within the Measured Resource Classification.

Figure 2. Resource drilling and geological plan – Unicorn Mineral Resource Update 2012

FINAL DRILL RESULTS

The final assay results are also available for a short diamond tail (DUNDD010) drilled to extend DUNRC017 from 191.6m to the west below a series of diamond saw cut channel samples at surface (DUNCS001) – Table 3. Results are also available for the full RC Pre‐collar and short diamond tail into the IP Anomaly (DUNRC001) – Figure 2. The results of DUNRC001; DUNDD010; DUNDD011 and DUNCS001 are listed in Appendix 2. DUNCS001 and DUNDD010 assay data is used in the resource update and provides vital information on the western margin of the Unicorn deposit where topography made extensive drilling problematic. The diamond saw cut channel sample line DUNCS001 was treated as a diamond drill hole and sampled at 2m intervals with consistent sample volumes such that the sample quality can be considered equivalent to HQ sized diamond drilling. Results of 62m @ 0.07% MoEq¹ (including 40m @ 0.09% MoEq¹ ) for DUNCS001 and 189.6m @ 0.06% MoEq¹ (including 28m @ 0.1% MoEq¹ ) both add significantly to the Resource and the understanding of the geological model.

DUNRC001 was drilled to some 184.5m before heavy water caused the hole to be postponed for diamond tail follow up. Significant zinc mineralisation within sub‐vertical fault zones may represent a ring fracture system around the Unicorn Porphyry system with similar distal base metal and silver mineralisation a common feature of many porphyry deposits worldwide. The presence of dominant pyrrhotite over pyrite indicates a reduced fluid system with anomalous copper showing as minor chalcopyrite inclusions. The significant IP anomaly is likely to have resulted from intense pyrrhotite deposition (a magnetic sulphide) associated with zones of strong sphalerite in distal ring faults. Intersections of 6m @ 30.42 g/t Ag; 18m @ 16.19 g/t Ag (including 2m @ 79 g/t Ag) and 10m @ 0.5% Zn illustrate the style of mineralisation introduced along fault structures distal to the Unicorn Mo – Cu – Ag deposit (Table 3). These results warrant further investigation which are scheduled for Q1 2013.

Table 3. Significant Assay Results – Channel Sampling, RC and Diamond Tail Program.

Hole No.	Hole Dip	Hole Azimuth (MGA Grid)	MGA East (m)	MGA North (m)	RL AHD (m)	Total Depth (m)
DUNCS001	‐37.5	311	588,656.2	5,977,914.3	747.3	62
DUNDD010	‐46.1	263.5	588,800.8	5,977,950.1	840.01	381.2
DUNRC001	‐69.2	96.1	588,280	5,978,350	580	184.5
DUNDD011	‐69.2	96.1	588,280	5,978,350	580	230.5

Collar Location based on GPS survey.

Hole No.	From (m)	To (m)	Significant Intersections MoEq1	Significant Intersections (Mo)	Significant Intersections (Cu)	Significant Intersections (Ag)
DUNSC001*	0	62	62m @ 0.07%	62m @ 0.03%	62m @ 0.05%	62m @ 5.99 ppm
	38	48			Inc 10m @ 0.1%
	40	62	Inc. 22m @ 0.09%
DUNDD010	191.6	381.2	189.6m @ 0.05%	189.2m @ 0.03%	189.2 @ 0.02%	189.2m @ 3.94 ppm
	261.4	348	Inc. 86.6m @ 0.07%
	261.4	262.4	Inc. 1m @ 0.45%	Inc. 1m @ 0.12%	Inc. 1m @ 0.25%	Inc. 1m @ 72.0 ppm
	312	340	Inc. 28m @ 0.10%	Inc. 28m @ 0.05%	Inc. 28m @ 0.09%	Inc. 28m @ 6.74 ppm

Hole	From	To	Significant Intersections	Significant Intersections	Significant Intersections
No.	(m)	(m)	(Zn)	(Ag)	(Cu)
DUNRC001	60	70	10m @ 0.09%	10m @ 8.18 ppm
	130	136	6m @ 0.1% Zn	6m @ 31.42 ppm	6m @ 0.07%
	134	136			Inc. 2m @ 0.2%
	130	148		18m @ 16.19 ppm
	134	136		Inc. 2m @ 79 ppm
	144	146		Inc. 2m @ 38.5 ppm
DUNDD011	202	212	10m @ 0.5%	10m @ 4.93 ppm
	208	210	2m @ 2%	Inc. 2m @ 13.55 ppm
	222	230.5	8.5m @ 0.3%	8.5m @ 3.29 ppm

Note 1. MoEq based on the same equation as that used in the August 2012 resource estimation (Table 2 above) Molybdenum equivalent MoEq = Mo + (Cu/3.44) + (Ag X 34.3) (Assumes equal metallurgical recovery for each metal)

* DUNCS001 ‐ 62m saw cut channel sample (2m sample interval) equivalent to an HQ diamond drill hole style sample.

DUNRC001 0 ‐ 184.5 RC Pre‐collar for DUNDD011

DUNDD010 & 011 sampled on nominal 2m intervals of half HQ3 size drill core.

All samples analysed by ALS technique ME‐MS61 (Mo, Cu, Zn & Ag) and XRF05 (Mo), Zn_OG62 for Zn>1%.

About Dart Mining

Dart Mining NL (ASX:DTM) is a Melbourne based exploration and development company that has discovered a new mineralised porphyry province in north east Victoria. The Dart province hosts molybdenum (Mo), copper (Cu), silver (Ag), zinc (Zn), tin (Sn) and gold (Au) mineralisation in porphyry igneous intrusions. It lies adjacent to the Gilmore suture with numerous intersecting splay faults. NSW is a proven host of world class porphyry mines associated with splay structures off the Gilmore Suture such as North Parkes, Cadia and Ridgeway, as is the Stockman Copper, Zinc, Silver and Gold VMS project, which is at an advanced stage of development and located in Victoria approximately 35 kilometres south of Dart Mining's tenements.

The Unicorn project is Dart Mining's principal project. It is a molybdenum (Mo) + copper (Cu) + silver (Ag) Climax style porphyry that has similar geological characteristics to the world class Henderson primary Mo porphyry mine in Colorado, USA. Unicorn has a number of unique characteristics with its high grade zones from surface and the deposit outcrops. It is about 20 kilometres from major National Electricity Market infrastructure (hydro generation, switchyards and transmission lines), has abundant water, road access direct to the deposit, an existing logistics chain links the deposit to overseas roasters and the project is strongly supported by the local Corryong community.

Dart Mining also has extensive tenement holdings in north east Victoria that are largely underexplored with very strong potential for identifying additional mineralised porphyries. Specific exploration targets known to be mineralised include Morgan (Mo/Ag /Cu/Au), Mammoth (Cu/Ag/Au/Zn/Sn/Mo) and the Dart Pluton string (Au/Cu).

About Molybdenum

Molybdenum is both a traditional and new age / future metal with unique characteristics. Its primary use is as an essential metal in the manufacture of steel where it adds strength, hardness and toughness as well as increasing steels resistance to corrosion. Molybdenum also has a range of chemical uses including acting as s a catalyst to remove impurities, including sulphur, during crude oil production. Molybdenum is also used in the paint and plastics industry.

Molybdenum has a growing use in the renewable energy sector where it is used in the manufacture of solar panels and has a potential use as the electrode plate for the separation of hydrogen and oxygen to produce hydrogen energy. Molybdenum is also used in nano technologies to make electrical goods smaller.

Molybdenum is traded on the LME and has worldwide demand of ~ 220,000 tonnes pa that is growing at 5% pa.

COMPETENT PERSON'S STATEMENT

Information in this report that relates to a statement of Exploration Results and Mineral Resources of the Company is based on information compiled by Dean Turnbull B.App.Sc.(Geol) Hons. M. AIG. Mr Turnbull is a Director and full time employee of Dart Mining NL and has sufficient experience relevant to the style of mineralisation and type of deposits under consideration and to the activity he has undertaken to qualify as a competent person as defined in the 2004 Edition of the "Australasian Code for Reporting of Mineral Resources and Ore Reserves" (or "JORC Code"). Mr Turnbull has provided written consent to the inclusion in the report of the matters based on his information in the form and context in which it appears.

APPENDIX 1: AMC Consultants Pty Ltd (AMC) EXECUTIVE SUMMARY ‐ UNICORN RESOURCE ESTIMATION AUGUST 2012

DTM has selected a MOEQ cut-off of greater than 400 for the Mineral Resource. The molybdenum equivalence is based on the following formulae provided by DTM. All assay values are in ppm.

$$
MOEQ = MO(ppm) + \left(\frac{CU(ppm)}{\alpha}\right) + (AG(ppm)*\beta)
$$

Where:

$\alpha$ =3.44 which is a ratio of the value of molybdenum to the value for copper.

$\beta$ =34.3 which is a ratio of the value of molybdenum to the value for silver.

MO=US\$25,871 / tonne CU= US\$7,515.70 / tonne AG= US\$27.60 / oz

The prices for molybdenum, copper and silver are based on the period, June 22, 2012 to August 23, 2012.

The Mineral Resource has been classified into Measured, Indicated and Inferred and reported in accordance with the JORC Code. The classification criteria is based on a combination or best fit of the following parameters involving drill spacing, numbers of samples used during estimation, the pass in which the block was filled with a grade, data density in the vertical direction and other additional controls:

Measured Mineral Resource

• Drilling spacing at approximately 50 m in plan view.
• A minimum of eight samples used to inform block estimate.
• Block grade is filled in the first or second estimation pass.
• Mapping continuity from surface.
• Located above 400 m RL.

Indicated Mineral Resource

• Drilling spacing at approximately 100 m in plan view.
• A minimum eight samples used to inform block estimate.
• Block grade is filled in the first of second estimation pass.
• Some mapping continuity from surface.
• Located above 400 m RL.

Inferred Mineral Resource

• Drilling Spacing is greater than 100 m in plan view.

• A minimum number of four samples used to inform block estimate.

• Block grade is filled in the first or second estimation pass.

• Domain >1.0, i.e. Surrounding sediments are not included.
• Located above 400 m RL.

AMC recommends that for future block model estimations, further detailed domaining be undertaken to access the effect of oxidation on copper grades and that a kriging neighbourhood analysis be undertaken to assist to optimise the block cell size, as a greater data density is achieved.

QUALITY CONTROL

The signing of this statement confirms this report has been prepared and checked in accordance with the AMC Peer Review Process. AMC's Peer Review Policy can be viewed at www.amcconsultants.com.

Project Manager

30 August 2012

30 August 2012

30 August 2012

Peer Reviewer

Tracie Burrows

Author

IMPORTANT INFORMATION ABOUT THIS REPORT

Confidentiality

This document and its contents are confidential and may not be disclosed, copied, quoted or published unless AMC Consultants Pty Ltd (AMC) has given its prior written consent.

AMC accepts no liability for any loss or damage arising as a result of any person other than the named client acting in reliance on any information, opinion or advice contained in this document.

This document may not be relied upon by any person other than the client, its officers and employees.

Information

AMC accepts no liability and gives no warranty as to the accuracy or completeness of information provided to it by or on behalf of the client or its representatives and takes no account of matters that existed when the document was transmitted to the client but which were not known to AMC until subsequently.

Currency

document supersedes any prior This documents (whether interim or otherwise) dealing with any matter that is the subject of this document.

Recommendations

AMC accepts no liability for any matters arising if any recommendations contained in this document are not carried out, or are partially carried out, without further advice being obtained from AMC.

Outstanding Fees

No person (including the client) is entitled to use or rely on this document and its contents at any time if any fees (or reimbursement of expenses) due to AMC by its client are outstanding. In those circumstances, AMC may require the return of all copies of this document.

Public Reporting Requirements

If a Client wishes to publish a mineral resource or ore/mineral reserve estimate prepared by AMC, it must first obtain the Competent / Qualified Person's written consent, not only to the estimate being published but also to the form and context of the published statement. The published statement must include a statement that the Competent / Qualified Person's written consent has been obtained.

HOLE_ID	FROM	TO	SAMPLE	ME_XRF05(Mo ppm) ME_MS61(Cu ppm)		ME_MS61(Ag ppm)
DUNCS001	0	2	60420	235	278	7.43
DUNCS001	2	4	60421	164	361	6.97
DUNCS001	4	6	60422	202	260	6.26
DUNCS001	6	8	60423	153	392	4.07
DUNCS001	8	10	60424	238	350	6.64
DUNCS001	10	12	60425	157	478	6.42
DUNCS001	12	14	60426	229	508	6.8
DUNCS001	14	16	60427	276	328	5.72
DUNCS001	16	18	60428	404	330	6.22
DUNCS001	18	20	60429	326	127.5	3.19
DUNCS001	20	22	60430	192	99.3	2.54
DUNCS001	22	24	60431	313	63.4	4.26
DUNCS001	24	26	60432	218	52.6	3.38
DUNCS001	26	28	60433	356	41.1	4.36
DUNCS001	28	30	60434	282	26.1	3.18
DUNCS001	30	32	60435	231	96.7	4.29
DUNCS001	32	34	60436	358	373	4.6
DUNCS001	34	36	60437	496	408	7.41
DUNCS001	36	38	60438	364	373	6.02
DUNCS001	38	40	60439	284	941	5.98
DUNCS001	40	42	60440	405	1600	5.27
DUNCS001	42	44	60441	268	664	6.53
DUNCS001	44	46	60442	857	682	7.54
DUNCS001	46	48	60443	310	1215	11.2
DUNCS001	48	50	60444	548	776	8.68
DUNCS001	50	52	60445	249	560	7.29
DUNCS001	52	54	60446	286	565	6.71
DUNCS001	54	56	60447	293	549	5.84
DUNCS001	56	58	60448	346	886	6.57
DUNCS001	58	60	60449	320	531	7.57
DUNCS001	60	62	60450	397	641	6.82
DUNDD010	0	191.6 NS		DUNRC017 PRE‐COLLAR
DUNDD010	191.6	194	100603	155	199	1.44
DUNDD010	194	196	100604	102	156.5	1.18
DUNDD010	196	198	100605	229	456	2.52
DUNDD010	198	200	100606	507	160	0.94
DUNDD010	200	202	100607	499	290	1.55
DUNDD010	202	204	100608	160	230	1
DUNDD010	204	206	100609	124	296	1.03
DUNDD010	206	208	100610	330	419	2.3
DUNDD010	208	210	100611	187	224	1.44
DUNDD010	210	212	100612	253	230	1.13
DUNDD010	212	214	100613	374	342	2.04
DUNDD010	214	216	100614	241	180	2.81
DUNDD010	216	218	100615	301	147	1.61
DUNDD010	218	220	100616	466	145.5	0.82
DUNDD010	220	222	100617	1785	105	0.91
DUNDD010	222	224	100618	174	134.5	0.87
DUNDD010	224	226	100619	252	127	1.12
DUNDD010	226	228	100620	351	72.6	1.38

HOLE_ID	FROM	TO	SAMPLE	ME_XRF05(Mo ppm) ME_MS61(Cu ppm)		ME_MS61(Ag ppm)
DUNDD010	228	230	100621	320	150.5	1.44
DUNDD010	230	232	100622	237	116.5	2.66
DUNDD010	232	234	100623	236	167	1.77
DUNDD010	234	236	100624	121	78.7	1.14
DUNDD010	236	238	100625	173	129.5	3.63
DUNDD010	238	240	100626	125	117.5	0.95
DUNDD010	240	242	100627	108	98.9	0.8
DUNDD010	242	244	100631	113	127	1.19
DUNDD010	244	246	100632	141	116	2.5
DUNDD010	246	248	100633	288	144.5	0.93
DUNDD010	248	250	100634	175	134	1.01
DUNDD010	250	252	100635	194	140.5	0.43
DUNDD010	252	254	100636	106	108.5	0.48
DUNDD010	254	256	100637	158	61.7	0.64
DUNDD010	256	258	100638	206	118	1.54
DUNDD010	258	260	100639	138	105.5	0.9
DUNDD010	260	261.4	100640	325	120.5	2
DUNDD010	261.4	262.4	100642	1150	2530	72
DUNDD010	262.4	264	100644	120	64.4	2
DUNDD010	264	266	100645	345	105	8.82
DUNDD010	266	268	100646	239	160.5	4.32
DUNDD010	268	270	100647	283	202	2.67
DUNDD010	270	272	100648	152	168.5	1.17
DUNDD010	272	274	100649	123	194.5	1.1
DUNDD010	274	276	100650	97	205	1.1
DUNDD010	276	278	100651	149	271	2.21
DUNDD010	278	280	100652	311	257	0.84
DUNDD010	280	282	100653	263	140	0.53
DUNDD010	282	284	100654	190	378	1.67
DUNDD010	284	286	100655	273	943	4.76
DUNDD010	286	288	100656	276	832	4.18
DUNDD010	288	290	100657	134	588	3.48
DUNDD010	290	292	100658	368	825	3.74
DUNDD010	292	294	100659	336	563	4.14
DUNDD010	294	296	100660	163	620	6.47
DUNDD010	296	298	100661	233	569	2.8
DUNDD010	298	300	100662	365	595	3.79
DUNDD010	300	302	100663	301	564	3.85
DUNDD010	302	304	100664	218	445	3.27
DUNDD010	304	306	100665	443	599	2.61
DUNDD010	306	308	100666	131	388	1.94
DUNDD010	308	310	100667	99	596	3.15
DUNDD010	310	312	100668	310	425	1.81
DUNDD010	312	314	100672	307	711	6.14
DUNDD010	314	316	100673	552	691	13.6
DUNDD010	316	318	100674	518	385	3.6
DUNDD010	318	320	100675	330	506	4.49
DUNDD010	320	322	100676	692	1390	9.06
DUNDD010	322	324	100677	628	1165	4.78
DUNDD010	324	326	100678	674	1055	6.19

HOLE_ID	FROM	TO	SAMPLE	ME_XRF05(Mo ppm) ME_MS61(Cu ppm)		ME_MS61(Ag ppm)
DUNDD010	326	328	100679	304	816	6.6
DUNDD010	328	330	100680	292	1205	9.54
DUNDD010	330	332	100681	426	776	4.64
DUNDD010	332	334	100682	285	754	2.58
DUNDD010	334	336	100683	656	1490	12.95
DUNDD010	336	338	100684	587	616	4.12
DUNDD010	338	340	100685	1195	1185	6.04
DUNDD010	340	342	100686	175	517	6.14
DUNDD010	342	344	100687	222	547	7.31
DUNDD010	344	346	100688	310	494	10.8
DUNDD010	346	348	100689	478	479	2.48
DUNDD010	348	350	100690	175	378	2.39
DUNDD010	350	352	100691	181	393	2.04
DUNDD010	352	354	100693	322	340	1.58
DUNDD010	354	356	100694	301	366	3
DUNDD010	356	358	100695	139	431	3.18
DUNDD010	358	360	100696	259	389	10.25
DUNDD010	360	362	100697	231	634	4.49
DUNDD010	362	364	100698	197	238	4.53
DUNDD010	364	366	100699	329	342	4.79
DUNDD010	366	368	100700	429	417	2.19
DUNDD010	368	370	100701	139	296	2.11
DUNDD010	370	372	100702	201	399	2.02
DUNDD010	372	374	100703	272	283	3.29
DUNDD010	374	376	100704	134	530	2.54
DUNDD010	376	378	100705	287	262	1.54
DUNDD010	378	381.2	100706	148	1165	4.61

HOLE_ID	FROM	TO	SAMPLE	ME_MS61(Zn ppm)	ME_MS61(Cu ppm)	ME_MS61(Ag ppm)
DUNRC001	0	2	200001	22	78.5	1.82
DUNRC001	2	4	200002	15	100.5	2.96
DUNRC001	4	6	200003	16	115.5	3.73
DUNRC001	6	8	200004	47	87.3	1.15
DUNRC001	8	10	200005	20	99.6	0.97
DUNRC001	10	12	200006	25	132	1.27
DUNRC001	12	14	200007	53	253	2.08
DUNRC001	14	16	200008	49	326	2.59
DUNRC001	16	18	200009	69	604	1.16
DUNRC001	18	20	200010	105	310	0.93
DUNRC001	20	22	200011	91	132	0.23
DUNRC001	22	24	200012	107	57.5	0.1
DUNRC001	24	26	200013	271	274	0.24
DUNRC001	26	28	200014	186	65.4	0.47
DUNRC001	28	30	200015	165	53.1	0.46
DUNRC001	30	32	200016	157	47.5	0.5
DUNRC001	30	34	200017	178	37	0.97
DUNRC001	34	36	200018	189	25.6	0.36
DUNRC001	36	38	200019	371	28.4	0.56
DUNRC001	38	40	200020	154	27.4	0.27
DUNRC001	40	42	200021	204	42.4	0.58
DUNRC001	42	44	200022	151	46.6	0.51
DUNRC001	44	46	200023	109	37.4	0.6
DUNRC001	46	48	200024	557	44.9	1.81
DUNRC001	48	50	200025	425	40.1	2.12
DUNRC001	50	52	200029	239	58	3.67
DUNRC001	52	54	200030	131	33.3	0.87
DUNRC001	54	56	200031	136	30.6	0.18
DUNRC001	56	58	200032	165	35.8	0.5
DUNRC001	58	60	200033	261	29.6	0.55
DUNRC001 DUNRC001	60 62	62 64	200034 200035	1060 558	41.7 91.3	2.31 10.35
DUNRC001	64	66	200036	317	75.7	11.2
DUNRC001	66	68	200037	104	124	7.87
DUNRC001	68	70	200038	2300	98.3	9.19
DUNRC001	70	72	200039	415	25	1.87
DUNRC001	72	74	200040	146	38.7	0.47
DUNRC001	74	76	200041	150	50.7	0.77
DUNRC001	76	78	200042	104	42.5	0.72
DUNRC001	78	80	200043	579	38.4	1.12
DUNRC001	80	82	200044	1040	52	2.25
DUNRC001	82	84	200045	1740	62.4	3.08
DUNRC001	84	86	200046	903	49.9	0.97
DUNRC001	86	88	200047	515	39.9	0.7
DUNRC001	88	90	200048	282	24.8	0.44
DUNRC001	90	92	200049	149	26.8	0.35
DUNRC001	92	94	200050	68	15.9	0.23
DUNRC001	94	96	200051	163	21.9	0.42

HOLE_ID	FROM	TO	SAMPLE	ME_MS61(Zn ppm)	ME_MS61(Cu ppm)	ME_MS61(Ag ppm)
DUNRC001	96	98	200052	118	15.2	0.31
DUNRC001	98	100	200053	82	17.8	0.21
DUNRC001	100	102	200054	62	12.9	0.13
DUNRC001	100	102	200057	78	19.2	0.23
DUNRC001	102	104	200058	64	12.1	0.09
DUNRC001	104	106	200059	57	13.8	0.13
DUNRC001	106	108	200060	115	40.3	0.33
DUNRC001	108	110	200061	104	31.7	0.2
DUNRC001	110	112	200062	68	18.8	0.16
DUNRC001	112	114	200063	71	15.9	0.1
DUNRC001	114	116	200064	113	33.9	0.21
DUNRC001	116	118	200065	112	25.3	0.17
DUNRC001	118	120	200066	238	30.9	2.41
DUNRC001	120	122	200067	87	28.8	0.37
DUNRC001	122	124	200068	73	36.6	0.26
DUNRC001	124	126	200069	112	36.4	0.42
DUNRC001	126	128	200070	166	30.1	0.94
DUNRC001	128	130	200071	178	23	0.36
DUNRC001	130	132	200072	1470	63.1	8
DUNRC001	132	134	200073	271	285	7.26
DUNRC001	134	136	200074	1340	1705	79
DUNRC001	136	138	200075	120	44.2	1.49
DUNRC001	138	140	200076	267	85	3.31
DUNRC001	140	142	200077	175	65.4	2.72
DUNRC001	142	144	200078	319	61.2	3.26
DUNRC001	144	146	200079	446	205	38.5
DUNRC001	146	148	200080	94	66.9	2.17
DUNRC001	148	150	200081	73	17.7	0.33
DUNRC001	150	152	200085	93	42.9	0.15
DUNRC001	152	154	200086	97	32.3	0.15
DUNRC001	154	156	200087	157	30.7	0.36
DUNRC001	156	158	200088	101	37.2	0.36
DUNRC001	158	160	200089	89	29.1	0.22
DUNRC001 DUNRC001	160 162	162 164	200090 200091	60 98	43.3 29.9	0.36 0.25
DUNRC001	164	166	200092	131	34.3	0.49
DUNRC001	166	168	200093	87	28.3	0.36
DUNRC001	168	170	200094	93	36.1	0.29
DUNRC001	170	172	200095	2100	63.2	4.37
DUNRC001	172	174	200096	497	35.6	2.58
DUNRC001	174	176	200097	734	45.8	2.93
DUNRC001	176	178	200098	211	29.4	0.52
DUNRC001	178	180	200099	88	49.4	0.46
DUNRC001	180	182	200100	109	30.5	0.34
DUNRC001	182	184.5	200101	137	32	0.29
DUNRC001	184	184.5	200102	115	47.3	0.69

HOLE_ID	FROM	TO	SAMPLE	ME_MS61(Zn ppm)	ME_MS61(Cu ppm)	ME_MS61(Ag ppm)
DUNDD011	0	184.5	NS	DUNRC001 PRE‐COLLAR
DUNDD011	184.5	202	NS
DUNDD011	202	204	100710	1710	55.4	0.76
DUNDD011	204	206	100711	3680	63.4	2.92
DUNDD011	206	208	100712	1370	76.8	4.76
DUNDD011	208	210	100713	19500	207	13.55
DUNDD011	210	212	100714	1960	68.8	2.66
DUNDD011	212	214	100715	124	36.8	0.85
DUNDD011	214	216	100716	147	37.4	0.39
DUNDD011	216	218	100717	161	39.4	0.41
DUNDD011	218	220	100718	172	36	0.32
DUNDD011	220	222	100719	543	39.9	0.49
DUNDD011	222	224	100720	2990	70.4	5.9
DUNDD011	224	226	100721	1640	61.7	2.04
DUNDD011	226	228	100722	4570	70.8	3.85
DUNDD011	228	230.5	100723	3470	83	1.38