DART MINING NL — Capital/Financing Update 2012

Jun 18, 2012

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ASX ANNOUNCEMENT

19 June 2012

ASX Code: DTM

MINERALISED BRECCIA SUPPORTS RESOURCE UPGRADE & REDUCED STRIP RATIO

• NORTH END OF DEPOSIT CONTINUES COPPER RICH 20m @ 0.7% Cu

• NORTHERN PORPHYRY SHOWS UP TO 126m @ 0.08% MoEq[1]

Investment Data

Shares on issue 180.9m Unlisted options 8.55m

Shareholders

Top 20 Hold 36 %

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

• DRILLING INTERSECTS 178m @ 0.06% MoEq[1] WITHIN BRECCIA

• RESOURCE UPGRADE TO MEASURED STATUS ON TRACK FOR Q3 2012

Dart Mining NL (ASX:DTM) has received very encouraging assay results from three additional holes of the current resource upgrade drilling program at Unicorn (Figure 1). Porphyry intersections up to 30m @ 0.18% MoEq[1] are associated with significant copper mineralisation (20m @ 0.7%) in the northern part of the deposit.

A total of 19 drill holes of an expanded 20 hole program have been completed to date. Laboratory assay results continue to highlight the potential to extend the deposit to the south and east beyond the current conceptual pit boundary with breccia surrounding the Unicorn porphyry showing significant intersections up to 178m @ 0.06% MoEq[1] .

“The surrounding breccia, which is not included in the current JORC resource estimate, appears to contain consistent grades of Mo - Cu - Ag. These results also suggest the conceptual pit design should have a very low strip ratio which could greatly benefit the economics of the Unicorn deposit,” said Lindsay Ward, Managing Director Dart Mining.

“These additional assay results confirm Dart Mining’s confidence that the Resource upgrade drilling is progressing to plan. The current drilling program will be completed by early July with the Resource upgrade planned for release during the third quarter 2012,” Lindsay Ward added.

DRILLING

Mr Lindsay Ward

Executive Directors

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:

DUNRC005 (Figure 1) has closed up the current drill spacing within the Resource model and confirmed the silica cap and upper porphyry stock work system is strongly mineralised with average drill grade at or above the October 2011 JORC Indicated Resource. DUNRC005 intersected 252m @ 0.06% MoEq[1] (Table 1 – Appendix 1) including 126m @ 0.08% MoEq[1] from surface.

DUNRC007 (Figure 1) was designed to test the extent of mineralisation in the previously undrilled northern breccia that surrounds the main porphyry deposit. Encouragingly, DUNRC007 intersected 252m @ 0.06% MoEq[1] (Table 1 – Appendix 1) including 54m @ 0.08% MoEq[1] from surface. This highlights potential for a significant Resource upgrade as the mineralised breccia was not included in the October 2011 JORC Resource.

DUNRC008 (Figure 1) highlighted the increase in copper within the northern part of the deposit with 108m @ 0.20% Cu with zones showing up to 20m @ 0.7% Cu. Overall the hole intersected 186m @ 0.06% MoEq[1] (Table 1 – Appendix 1) from surface including up to 30m @ 0.18% MoEq[1] from 14m depth within the porphyry.

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Table 1. Drill hole locations and significant assay results.

Hole No.	Hole Dip	Hole Azimuth (MGA Grid)	MGA East (m)	MGA North (m)	RL AHD (m)	Total Depth (m)
DUNRC005	-54	265	588,820	5,978,003	859.0	252.0
DUNRC007	-90	265	588,899	5,978,206	813.8	252.0
DUNRC008	-70	265	588,901	5,978,286	812.0	186.0

Collar Location based on GPS survey.

Hole No.	From (m)	To (m)	Significant Intersections MoEq1	Significant Intersections (Mo )	Significant Intersections (Cu)	Significant Intersections (Ag )
DUNRC005	0	252	252m @ 0.06%	252m @ 0.04%	252m @ 0.05%	252m @ 3.43ppm
	0	126	Inc. 126m@ 0.08%
	0	84		Inc. 84m @ 0.06%
	42	158			Inc. 116m@ 0.09%
	58	184				Inc. 126m @ 5.07ppm
DUNRC007	0	252	252m @ 0.06%	252m @ 0.04%	252m @ 0.05%	252m @ 1.78ppm
	0	54	Inc. 54m@ 0.08%
	116	188		Inc. 72m@ 0.06%
	34	46			Inc. 12m@ 0.4%
	0	44				Inc. 44m @ 4.14 ppm
DUNRC008*	0	186	186m @ 0.06%	186m @ 0.02%	186m @ 0.13%	186m @ 2.39ppm
	14	124	Inc. 110m@ 0.08%
	14	44	Inc. 30m@ 0.18%			Inc. 30m@ 5.60ppm
	22	130			Inc. 108m@ 0.2%
	22	42			Inc. 20m @ 0.7%

Note 1. MoEq based on the same equation as that used in the October 2011 resource estimation (Table 2 below) Molybdenum equivalent MoEq = Mo + Cu/3.65 + Ag X 36.4 (Assumes equal metallurgical recovery for each metal) * - Assay data based on pre-liminary four acid digest technique MS61, results from XRF05 to follow

Table 2. Unicorn Mineral Resource Summary (October 2011)

JORC CLASSIFICATION	TONNAGE (Mt)	Mo Cutoff (ppm)	Mo (ppm)	Cu (ppm)	Ag (ppm)	Mo Eq1 (ppm)
INDICATED	29	200	502	898	4.17	900
INFERRED	76	200	353	450	2.67	574
TOTAL	105	200	394	573	3.08	663

Variables and factors that influence Table 2.

• MoEq[1] (Molybdenum Equivalent) = Mo + Cu/3.65 + Ag x36.4 (assumes equal metallurgical recovery for each metal) – see Note 1 below.

• Estimated by ordinary kriging on 50 x 50 x 50m blocks at 200ppm Mo Cutoff grade (Cutoff 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 utilised in the Minerals Resource do not rise above the following limits:

Molybdenum Cutoff: 3000ppm (0.3% Mo). Maximum Value 6260ppm Mo

Copper Cutoff: 5300ppm (0.5% Cu). Maximum Value 10,300ppm Cu

Silver Cutoff: 40ppm (40 g/t Ag). Maximum Value 170ppm Ag

• Only the M1 and M2 mineralised zones are reported within the Indicated Resource.

• Specific Gravity assigned by lithology. Silica Cap - 2.72 g/cm[3 ] and Quartz Feldspar Porphyry / Porphyry Breccia 2.67 g/cm[3] and Polymict Breccia 2.73 g/cm[3 ] based on 14 samples representative of each style of lithology / mineralisation estimated in the Minerals Resource .

Note 1: Molybdenum Equivalent Assumptions: Based on relative value (with reference to the average price of each metal in the 3 months 1[st] July to 30[th] September listed on the LME for Molybdenum and Copper and average price for the same period for Silver as follows): Mo US$33,127.27 per tonne Cu US$9061.32 per tonne Ag US$38.90 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 potential to be recovered.

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About M olybdenum

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.

About Dart Mining

Dart Mining NL (ASX:DTM), a Victorian-based exploration company, has discovered a new mineralised province hosting molybdenum (Mo) + copper (Cu) + silver (Ag) mineralised climax style porphyry igneous intrusive. The Dart Mining mineral province occurs within the Lachlan Fold Belt near Corryong in north east Victoria and is the only known Australian host of Climax style porphyries which are proven hosts of world class mines around the world. The Lachlan Fold Belt and Gilmore suture that cross from NSW into Dart Mining’s tenements in Victoria are proven hosts of substantial porphyry mines including North Parkes, Cadia and Ridgeway in NSW and the Benambra VMS to the south of Dart Mining’s tenements in Victoria.

Dart Mining recently announced its maiden JORC Resource for its principal project Unicorn, which has very strong geological similarities to the world class Henderson primary Mo mine in Colorado, USA. Dart Mining tenements remain largely underexplored and the potential for identifying additional mineralised porphyries is very strong.

Dart Mining also has two gold projects including Mountain View where drilling identified high-grade gold along a 150 metre strike with results including 6m @ 7.8 g/t Au (including 2m @ 19.3 g/t Au) and 4m @ 8.72 g/t Au (including 1m @ 18.75 g/t Au) as well as the Fairley’s disseminated gold prospect where drilling has confirmed the presence of a very large (up to 22 metres in width) disseminated sulphide related gold system.

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.

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Figure 1. Drill Hole Plan – Resource Upgrade Drilling Program

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APPENDIX 1 – Assay data (ALS).

HOLE_ID	FROM	TO	SAMPLE	ME_XRF05(Mo)	ME_MS61(Cu)	ME_MS61(Ag)
DUNRC005	0	2	200297	580	229	0.75
DUNRC005	2	4	200298	800	201	0.57
DUNRC005	4	6	200299	488	131.5	1.35
DUNRC005	6	8	200300	569	211	0.71
DUNRC005	8	10	200301	593	241	0.55
DUNRC005	10	12	200302	635	223	0.84
DUNRC005	12	14	200303	572	288	1.03
DUNRC005	14	16	200304	634	209	1.56
DUNRC005	16	18	200305	720	234	1.43
DUNRC005	18	20	200306	688	201	2.04
DUNRC005	20	22	200307	708	156.5	2.88
DUNRC005	22	24	200308	493	196.5	17.05
DUNRC005	24	26	200309	631	137	2.68
DUNRC005	26	28	200310	741	128.5	3.15
DUNRC005	28	30	200311	677	140.5	1.08
DUNRC005	30	32	200312	767	146.5	1.22
DUNRC005	32	34	200313	574	116.5	1.02
DUNRC005	34	36	200314	726	103	1.22
DUNRC005	36	38	200315	692	82.9	2.49
DUNRC005	38	40	200316	1005	201	1.83
DUNRC005	40	42	200317	867	263	1.46
DUNRC005	42	44	200318	755	518	1.88
DUNRC005	44	46	200319	824	563	4.6
DUNRC005	46	48	200320	745	710	2.14
DUNRC005	48	50	200321	874	464	1.77
DUNRC005	50	52	200325	854	1120	2.36
DUNRC005	52	54	200326	1050	2190	2.55
DUNRC005	54	56	200327	519	1595	2.4
DUNRC005	56	58	200328	846	1090	2.67
DUNRC005	58	60	200329	420	838	3.04
DUNRC005	60	62	200330	411	1115	3.71
DUNRC005	62	64	200331	342	783	4.02
DUNRC005	64	66	200332	353	348	21.9
DUNRC005	66	68	200333	517	498	10.85
DUNRC005	68	70	200334	387	865	14.05
DUNRC005	70	72	200335	455	432	10.45
DUNRC005	72	74	200336	344	530	7.65
DUNRC005	74	76	200337	266	385	7.49
DUNRC005	76	78	200338	371	627	9.15
DUNRC005	78	80	200339	314	851	4.52
DUNRC005	80	82	200340	273	584	6.91
DUNRC005	82	84	200341	212	336	5.58
DUNRC005	84	86	200342	239	253	4.89
DUNRC005	86	88	200343	218	252	3.02
DUNRC005	88	90	200344	189	160	2.67
DUNRC005	90	92	200345	349	1245	10

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HOLE_ID	FROM	TO	SAMPLE	ME_XRF05(Mo)	ME_MS61(Cu)	ME_MS61(Ag)
DUNRC005	92	94	200346	223	1200	2.71
DUNRC005	94	96	200347	279	1045	2.53
DUNRC005	96	98	200348	255	766	2.21
DUNRC005	98	100	200349	258	724	3.15
DUNRC005	100	102	200353	282	520	1.53
DUNRC005	102	104	200354	288	476	1.32
DUNRC005	104	106	200355	269	591	2.31
DUNRC005	106	108	200356	408	633	1.95
DUNRC005	108	110	200357	221	683	3.6
DUNRC005	110	112	200358	259	1790	5.33
DUNRC005	112	114	200359	310	1335	7.76
DUNRC005	114	116	200360	290	1345	6.08
DUNRC005	116	118	200361	401	2440	4.49
DUNRC005	118	120	200362	334	3360	6.04
DUNRC005	120	122	200363	262	1500	5.89
DUNRC005	122	124	200364	269	1255	6.84
DUNRC005	124	126	200365	539	1085	4.1
DUNRC005	126	128	200366	281	881	3.57
DUNRC005	128	130	200367	423	810	3.81
DUNRC005	130	132	200368	311	1860	5.61
DUNRC005	132	134	200369	461	1650	11.1
DUNRC005	134	136	200370	309	941	13.05
DUNRC005	136	138	200371	175	927	5.06
DUNRC005	138	140	200372	267	782	4.89
DUNRC005	140	142	200373	278	817	7.17
DUNRC005	142	144	200374	286	790	5.68
DUNRC005	144	146	200375	204	680	4.4
DUNRC005	146	148	200376	306	559	3.33
DUNRC005	148	150	200377	339	672	3.85
DUNRC005	150	152	200381	598	1045	5.9
DUNRC005	152	154	200382	395	678	3.92
DUNRC005	154	156	200383	508	275	1.87
DUNRC005	156	158	200384	334	411	2.29
DUNRC005	158	160	200385	195	209	1.42
DUNRC005	160	162	200386	206	231	3.88
DUNRC005	162	164	200387	138	254	2.63
DUNRC005	164	166	200388	383	317	2.24
DUNRC005	166	168	200389	351	212	1.7
DUNRC005	168	170	200390	487	259	1.92
DUNRC005	170	172	200391	328	513	3.72
DUNRC005	172	174	200392	321	368	2.72
DUNRC005	174	176	200393	276	235	2.12
DUNRC005	176	178	200394	233	269	3.34
DUNRC005	178	180	200395	176	155.5	3.26
DUNRC005	180	182	200396	445	415	3.88
DUNRC005	182	184	200397	359	253	3.57

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HOLE_ID	FROM	TO	SAMPLE	ME_XRF05(Mo)	ME_MS61(Cu)	ME_MS61(Ag)
DUNRC005	184	186	200398	185	145	2.28
DUNRC005	186	188	200399	307	226	2.87
DUNRC005	188	190	200400	301	234	2.32
DUNRC005	190	192	200401	373	208	2.52
DUNRC005	192	194	200402	304	273	2.78
DUNRC005	194	196	200403	504	201	1.75
DUNRC005	196	198	200404	459	162	1.44
DUNRC005	198	200	200405	245	110.5	1.42
DUNRC005	200	202	200409	143	142.5	1.37
DUNRC005	202	204	200410	297	145	1.87
DUNRC005	204	206	200411	232	107	1.29
DUNRC005	206	208	200412	254	141.5	2.24
DUNRC005	208	210	200413	209	150.5	1.55
DUNRC005	210	212	200414	233	82.7	0.62
DUNRC005	212	214	200415	214	64.9	0.62
DUNRC005	214	216	200416	328	113.5	0.82
DUNRC005	216	218	200417	192	74.2	0.56
DUNRC005	218	220	200418	161	100.5	0.71
DUNRC005	220	222	200419	179	126	1.33
DUNRC005	222	224	200420	223	68.5	0.61
DUNRC005	224	226	200421	190	66	0.73
DUNRC005	226	228	200422	245	114	1.18
DUNRC005	228	230	200423	154	102	0.65
DUNRC005	230	232	200424	215	84.5	0.53
DUNRC005	232	234	200425	174	90.9	0.7
DUNRC005	234	236	200426	208	103.5	1.46
DUNRC005	236	238	200427	344	83.4	1.33
DUNRC005	238	240	200428	289	94	0.83
DUNRC005	240	242	200429	218	74	1.16
DUNRC005	242	244	200430	289	64.7	1.22
DUNRC005	244	246	200431	197	92.9	0.62
DUNRC005	246	248	200432	196	84.3	0.76
DUNRC005	248	250	200433	168	55.8	1.09
DUNRC005	250	252	200437	303	89.1	2.4
HOLE_ID	FROM	TO	SAMPLE	ME_XRF05(Mo)	ME_MS61(Cu)	ME_MS61(Ag)
DUNRC007	0	2	200541	893	252	6.4
DUNRC007	2	4	200542	403	182.5	2.97
DUNRC007	4	6	200543	233	165.5	3.11
DUNRC007	6	8	200544	271	201	4.3
DUNRC007	8	10	200545	249	195	3.9
DUNRC007	10	12	200546	222	159	3.15
DUNRC007	12	14	200547	278	211	3.98
DUNRC007	14	16	200548	292	168.5	5.14
DUNRC007	16	18	200549	269	175	2.86
DUNRC007	18	20	200550	346	283	5.58
DUNRC007	20	22	200551	321	165	4.93

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HOLE_ID	FROM	TO	SAMPLE	ME_XRF05(Mo)	ME_MS61(Cu)	ME_MS61(Ag)
DUNRC007	22	24	200552	226	180.5	4.43
DUNRC007	24	26	200553	674	93.1	3.96
DUNRC007	26	28	200554	525	140	5.98
DUNRC007	28	30	200555	662	388	4.29
DUNRC007	30	32	200556	391	137.5	4.35
DUNRC007	32	34	200557	545	325	4.63
DUNRC007	34	36	200558	220	2090	2.88
DUNRC007	36	38	200559	319	3120	5.14
DUNRC007	38	40	200560	734	3220	3.05
DUNRC007	40	42	200561	398	9730	3.04
DUNRC007	42	44	200562	420	4110	3.05
DUNRC007	44	46	200563	299	3170	1.48
DUNRC007	46	48	200564	227	479	1.37
DUNRC007	48	50	200565	194	335	1.08
DUNRC007	50	52	200569	232	456	1.41
DUNRC007	52	54	200570	245	839	2.63
DUNRC007	54	56	200571	175	382	1.09
DUNRC007	56	58	200572	99	389	0.87
DUNRC007	58	60	200573	212	226	0.71
DUNRC007	60	62	200574	687	232	0.35
DUNRC007	62	64	200575	158	250	0.55
DUNRC007	64	66	200576	453	221	0.52
DUNRC007	66	68	200577	299	407	1.12
DUNRC007	68	70	200578	201	375	1.82
DUNRC007	70	72	200579	576	785	2.34
DUNRC007	72	74	200580	138	1260	4.07
DUNRC007	74	76	200581	248	1450	3.26
DUNRC007	76	78	200582	157	1205	1.94
DUNRC007	78	80	200583	234	1340	3.82
DUNRC007	80	82	200584	504	622	1.96
DUNRC007	82	84	200585	378	367	1.09
DUNRC007	84	86	200586	1180	422	1.9
DUNRC007	86	88	200587	236	530	4.17
DUNRC007	88	90	200588	249	308	1.32
DUNRC007	90	92	200589	270	774	2.97
DUNRC007	92	94	200590	532	2420	8.62
DUNRC007	94	96	200591	412	577	1.92
DUNRC007	96	98	200592	238	823	2.21
DUNRC007	98	100	200593	187	781	1.62
DUNRC007	100	102	200597	207	801	1.66
DUNRC007	102	104	200598	146	485	1.56
DUNRC007	104	106	200599	214	529	1.36
DUNRC007	106	108	200600	434	386	1.24
DUNRC007	108	110	200601	371	338	0.8
DUNRC007	110	112	200602	248	418	1.18
DUNRC007	112	114	200603	444	358	0.93

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HOLE_ID	FROM	TO	SAMPLE	ME_XRF05(Mo)	ME_MS61(Cu)	ME_MS61(Ag)
DUNRC007	114	116	200604	454	346	0.91
DUNRC007	116	118	200605	826	280	1.48
DUNRC007	118	120	200606	1005	297	1.28
DUNRC007	120	122	200607	804	213	1.26
DUNRC007	122	124	200608	470	276	1.3
DUNRC007	124	126	200609	675	290	0.88
DUNRC007	126	128	200610	738	230	0.73
DUNRC007	128	130	200611	752	197	0.64
DUNRC007	130	132	200612	521	281	0.99
DUNRC007	132	134	200613	398	303	0.85
DUNRC007	134	136	200614	408	261	1.05
DUNRC007	136	138	200615	933	376	1.17
DUNRC007	138	140	200616	464	394	0.74
DUNRC007	140	142	200617	498	397	1.21
DUNRC007	142	144	200618	643	397	1.13
DUNRC007	144	146	200619	538	304	1.09
DUNRC007	146	148	200620	709	328	1.32
DUNRC007	148	150	200621	461	294	0.96
DUNRC007	150	152	200625	579	331	1.23
DUNRC007	152	154	200626	556	381	1.59
DUNRC007	154	156	200627	381	355	1.16
DUNRC007	156	158	200628	446	185	0.71
DUNRC007	158	160	200629	628	365	1.31
DUNRC007	160	162	200630	1195	251	0.8
DUNRC007	162	164	200631	447	437	1.48
DUNRC007	164	166	200632	531	272	1.04
DUNRC007	166	168	200633	489	281	0.96
DUNRC007	168	170	200634	523	249	0.89
DUNRC007	170	172	200635	387	245	1.12
DUNRC007	172	174	200636	466	212	0.7
DUNRC007	174	176	200637	576	252	1.06
DUNRC007	176	178	200638	650	202	1.08
DUNRC007	178	180	200639	401	250	1.12
DUNRC007	180	182	200640	549	335	1.21
DUNRC007	182	184	200641	412	215	0.83
DUNRC007	184	186	200642	1270	314	1.68
DUNRC007	186	188	200643	406	206	5.95
DUNRC007	188	190	200644	287	242	0.72
DUNRC007	190	192	200645	217	231	0.6
DUNRC007	192	194	200646	367	349	1.48
DUNRC007	194	196	200647	584	286	1.03
DUNRC007	196	198	200648	536	221	0.74
DUNRC007	198	200	200649	753	307	0.66
DUNRC007	200	202	200653	375	209	0.63
DUNRC007	202	204	200654	278	610	1.86
DUNRC007	204	206	200655	492	279	0.74

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HOLE_ID	FROM	TO	SAMPLE	ME_XRF05(Mo)	ME_MS61(Cu)	ME_MS61(Ag)
DUNRC007	206	208	200656	599	228	0.71
DUNRC007	208	210	200657	404	239	0.68
DUNRC007	210	212	200658	305	247	0.71
DUNRC007	212	214	200659	413	242	0.64
DUNRC007	214	216	200660	208	180.5	0.53
DUNRC007	216	218	200661	325	189.5	0.36
DUNRC007	218	220	200662	571	179.5	0.43
DUNRC007	220	222	200663	628	208	0.55
DUNRC007	222	224	200664	263	138	0.35
DUNRC007	224	226	200665	264	165	0.44
DUNRC007	226	228	200666	260	172	0.6
DUNRC007	228	230	200667	434	92.3	0.45
DUNRC007	230	232	200668	251	150	0.66
DUNRC007	232	234	200669	190	187	0.47
DUNRC007	234	236	200670	323	210	0.53
DUNRC007	236	238	200671	344	181.5	0.36
DUNRC007	238	240	200672	212	189.5	0.52
DUNRC007	240	242	200673	647	166	0.49
DUNRC007	242	244	200674	641	160	0.33
DUNRC007	244	246	200675	336	93.8	0.55
DUNRC007	246	248	200676	279	59.7	1.27
DUNRC007	248	250	200677	169	318	0.82
DUNRC007	250	252	200681	382	181.5	0.5
HOLE_ID	FROM	TO	SAMPLE	ME_MS61(Mo)	ME_MS61(Cu)	ME_MS61(Ag)
DUNRC008	0	2	200683	66.1	111	1.94
DUNRC008	2	4	200684	59.3	115.5	2.79
DUNRC008	4	6	200685	111	175	2.02
DUNRC008	6	7	200686	22.15	70.75	0.77
DUNRC008	7	8	200687	27.85	90	0.755
DUNRC008	8	10	200688	128	141.5	1.77
DUNRC008	10	12	200688	56.7	315	1.78
DUNRC008	12	14	200690	43.1	219	1.39
DUNRC008	14	16	200691	119	193.5	13.15
DUNRC008	16	18	200692	156	1240	5.49
DUNRC008	18	20	200693	67.9	513	3.81
DUNRC008	20	22	200694	78.4	753	2.29
DUNRC008	22	24	200695	64.5	2450	2.12
DUNRC008	24	26	200696	154	5190	2.71
DUNRC008	26	28	200697	87.3	4080	2.95
DUNRC008	28	30	200698	93.3	6120	2.73
DUNRC008	30	32	200699	208	6930	3.22
DUNRC008	32	34	200699a	315	3630	5.07
DUNRC008	34	36	200700	258	4360	11.05
DUNRC008	36	38	200701	650	14650	5.7
DUNRC008	38	40	200702	279	17150	10.15
DUNRC008	40	42	200703	99	6960	7.5

Page | 10

HOLE_ID	FROM	TO	SAMPLE	ME_MS61(Mo)	ME_MS61(Cu)	ME_MS61(Ag)
DUNRC008	42	44	200704	120.5	1725	6.13
DUNRC008	44	46	200705	120.5	967	2.82
DUNRC008	46	48	200706	68.5	382	1.32
DUNRC008	48	50	200707	110.5	354	0.87
DUNRC008	50	52	200711	294	459	1.17
DUNRC008	52	54	200712	87	647	1.26
DUNRC008	54	56	200713	228	706	2.04
DUNRC008	56	58	200714	83.8	786	0.97
DUNRC008	58	60	200715	185	1530	2.8
DUNRC008	60	62	200716	173	644	1.15
DUNRC008	62	64	200717	100.5	677	1.12
DUNRC008	64	66	200718	215	327	0.66
DUNRC008	66	68	200719	458	297	0.55
DUNRC008	68	70	200720	153.5	609	0.95
DUNRC008	70	72	200721	90.7	6190	6.71
DUNRC008	72	74	200722	83.4	1900	4.02
DUNRC008	74	76	200723	187.5	898	2.35
DUNRC008	76	78	200724	112	856	2.13
DUNRC008	78	80	200725	61.9	729	1.77
DUNRC008	80	82	200726	172	541	1.35
DUNRC008	82	84	200727	71.6	880	2.47
DUNRC008	84	86	200728	246	1055	1.75
DUNRC008	86	88	200729	91.8	594	1.52
DUNRC008	88	90	200730	83.8	318	0.91
DUNRC008	90	92	200731	172	561	2.5
DUNRC008	92	94	200732	90.5	353	2.34
DUNRC008	94	96	200733	161	426	2.38
DUNRC008	96	98	200734	248	512	1.66
DUNRC008	98	100	200735	114.5	670	1.82
DUNRC008	100	102	200739	192	465	1.42
DUNRC008	102	104	200740	498	348	0.94
DUNRC008	104	106	200741	64.4	1100	2.56
DUNRC008	106	108	200742	279	824	1.35
DUNRC008	108	110	200743	327	1115	2.82
DUNRC008	110	112	200744	155	1535	3.04
DUNRC008	112	114	200745	163	729	1.56
DUNRC008	114	116	200746	203	563	2.12
DUNRC008	116	118	200747	316	335	1.81
DUNRC008	118	120	200748	205	577	1.74
DUNRC008	120	122	200745	142	1065	3.16
DUNRC008	122	124	200750	113	981	2.83
DUNRC008	124	126	200751	151	305	0.93
DUNRC008	126	128	200752	271	375	5.31
DUNRC008	128	130	200753	155	127	6.14
DUNRC008	130	132	200754	133.5	268	0.95
DUNRC008	132	134	200755	542	449	3.68

Page | 11

HOLE_ID	FROM	TO	SAMPLE	ME_MS61(Mo)	ME_MS61(Cu)	ME_MS61(Ag)
DUNRC008	134	136	200756	314	394	1.02
DUNRC008	136	138	200757	158	420	1.3
DUNRC008	138	140	200758	83.8	575	1.71
DUNRC008	140	142	200759	72.4	410	0.99
DUNRC008	142	144	200760	33.6	292	0.72
DUNRC008	144	146	200761	255	284	0.75
DUNRC008	146	148	200762	116.5	181.5	0.48
DUNRC008	148	150	200763	66.4	270	0.62
DUNRC008	150	152	200767	469	228	0.76
DUNRC008	152	154	200768	302	257	0.65
DUNRC008	154	156	200769	416	250	0.69
DUNRC008	156	158	200770	132.5	248	0.82
DUNRC008	158	160	200771	88.7	321	0.9
DUNRC008	160	162	200772	119	490	1.17
DUNRC008	162	164	200773	276	213	0.79
DUNRC008	164	166	200774	142	283	0.83
DUNRC008	166	168	200775	292	370	0.88
DUNRC008	168	170	200776	184	396	1.14
DUNRC008	170	172	200777	62.4	1360	2.85
DUNRC008	172	174	200778	104	512	1.1
DUNRC008	174	176	200779	161.5	686	1.5
DUNRC008	176	178	200780	146.5	387	0.69
DUNRC008	178	180	200781	324	320	0.91
DUNRC008	180	182	200782	87.7	519	4.17
DUNRC008	182	184	200783	188	337	1.29
DUNRC008	184	186	200784	124.5	316	0.94

Page | 12