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To: LoneClone who wrote (193239)

12/1/2025 2:29:10 PM

From: LoneClone

Read Replies (1) | Respond to of 193984

Mithril Gives Exploration Update Including Channel Sample Results up to 4,520 g/t Silver, and 38.2 g/t Gold as Expansion of the District Continues at Copalquin, Mexico

thenewswire.com

Melbourne, Australia and Vancouver, Canada – TheNewswire - December 1, 2025 - Mithril Silver and Gold Limited ("Mithril” or the "Company") (TSXV: MSG) (ASX: MTH) (OTCQB: MTIRF) is pleased to provide an exploration update over multiple targets at the district scale Copalquin property, Durango State, exico.

Channel sampling across multiple district targets continues to deliver high-grade gold and silver with highlights including:
- 0.50 m @ 16.8 g/t gold, 625 g/t silver (Target 1 West– El Gallo)
- 0.65 m @ 16.0 g/t gold, 284 g/t silver (Target 3– El Jabali)
- 0.60 m @ 38.3 g/t gold, 4,520 g/t silver (Target 5 - Candelaria)
Ongoing petrographic work is confirming Mithril’s district scale model for the Copalquin epithermal system which has a vertical mineralised extent of over 1,200m.
This work is vectoring into potential feeder zones at Target 1, around Refugio West drill holes MTH-RE25-044 and 045 (7.20 m @ 2.78 g/t gold, 148 g/t silver plus 2.80 m @ 3.97 g/t gold, 208 g/t silver and 8.03 m @ 7.19 g/t gold, 260 g/t silver respectively) 1, and around Target 1 Southdrill hole MTH-ZG25-037 (0.57 m @ 6.80 g/t gold and 4,400 g/t silver) 2, both of which are interpreted to lie along the same northwest trending structure (the Copalquin Structure).
Target 1 resource update drilling continued, successfully expanding mineralisation to the west and providing valuable input into the Target 1 geology model that is now robust and predictive.
Target 5 drilling, mapping and channel sampling results continue to expand this highly prospective area in the southwest of the district. A further 8 drill holes have been completed at Target 5 with assays pending.
Target 3 is ready for the first phase of drilling, commencing early January 2026. Target 3 includes several high-grade historic workings including the El Jabali underground mine.

“Copalquin continues to demonstrate its exceptional scale and continuity,” commented John Skeet, Managing Director & CEO. “High-grade results from multiple targets across 9 kilometres with more than a kilometre of vertical extent, confirm we are advancing a large, district scale epithermal gold-silver system.

Our detailed study of the recent high-grade intercepts at Refugio West, Zaragoza and Target 5 (Apomal) validate the deeper plumbing of a large, vertically extensive epithermal system. This supports our modelling and demonstrates the true scale and potential of the Copalquin district. With the upcoming Target 1 resource update, Target 5 expanding and Target 3 drill-ready, we are systematically defining a high-grade, multi-target gold-silver district. Throughout 2025 we have completed the detailed groundwork ahead of a fully funded exploration program in 2026, which includes 25,000 metres of drilling in the first 6 months.”

COPALQUIN GOLD-SILVER DISTRICT, DURANGO STATE, MEXICO

With 100 historic underground gold-silver mines and workings plus 198 surface workings/pits throughout 70km2 of mining concession area, Copalquin is an entire mining district with high-grade exploration results and a maiden JORC resource. To date there are several target areas in the district with one already hosting a high-grade gold-silver JORC mineral resource estimate (MRE) at the Target 1 area (El Refugio-La Soledad) 3 and a NI 43-101 Technical Report filed on SEDAR+, supported by a conceptional underground mining study completed on the maiden resource in early 2022 and metallurgical test work (see ASX Announcement 25 February 2022). There is considerable strike and depth potential to increase the resource at El Refugio and at other target areas across the district, plus the underlying geologic system that is responsible for the widespread gold-silver mineralisation.

With the district-wide gold and silver occurrences and rapid exploration success, it is clear the Copalquin District is developing into another significant gold-silver district like the many other districts in this prolific Sierra Madre Gold-Silver Trend of Mexico.

Click Image To View Full Size

Figure 1 – Copalquin District location map, locations of mining and exploration activity and local infrastructure.

Click Image To View Full Size

Figure 2 LiDAR identified historic workings across the 70km2 district. Current drilling locations at Target 1 west and Target 5 (El Apomal), and recent drilling at Zaragoza mine in Target 1 south, high priority drill target area of La Constancia-El Jabali (Target 3). Several new areas highlighted across the district for follow-up work including recently sampled Target 6

Copalquin District Exploration Progress Update

Drilling

Drilling continues at Copalquin at Targets 1 and 5, with work at Target 1 focused on expanding mineralization in the Refugio West area. Defining the geometry of the Refugio structure and its relationship to post mineral dykes and sills remains critical for refining the exploration model.

Drilling at Target 5 continues to test continuous high grade quartz veins traced for more than 1.2 km along surface and from underground workings ( Figure 5). Upcoming holes will focus on the Tasolera workings, located roughly 500 m southeast along strike from Apomal ( Figure 5).

Channel Sampling

Channel sampling at the Copalquin Project continues to deliver strong results from both surface and underground workings, reinforcing the continuity and grade potential of the district’s principal vein systems. Recent channels consistently report high grade gold and silver values along well-developed structures, confirming that mineralization is both laterally and vertically extensive (8 km and 1.2 km, respectively) across the project area. These results strengthen confidence in the modelled geometry of the Refugio, Soledad, Zaragoza, and related veins, and they validate ongoing exploration aimed at expanding known mineralized zones and identifying additional high-grade shoots along strike and at depth.

Target 1

Gold and silver samples from the Guacima Mine and the El Gallo area, located approximately 500 and 950 meters west of mineralized drillholes MTH-RE25-44 and 45, respectively, confirm the presence of additional mineralized structures that extend the broader footprint of the Copalquin system Figure 4.

Surface samples collected to the southeast of the Copalquin structure returned grades up to 1 g/t gold and 770 g/t silver. The Copalquin structure, tested to date in the Zaragoza and Copalquin areas, remains open down dip and along strike to both the northwest and southeast. At Zaragoza, drillhole MTH-ZG25-037 intersected 0.57 m grading 6.80 g/t gold and 4,400 g/t silver, an interval interpreted to lie on the same northwest trending Copalquin Structure ( Figure 8).

Additionally, several samples have returned promising results from a 1.2 m wide, banded quartz vein located 650 m north of Los Reyes and 650 m northeast of La Soledad with up to 2 g/t Au and 201 g/t Ag.

Target 3

Underground sampling at Jabali continues to yield excellent results from historic workings. Samples from a previously unsampled working have returned up to 15.95 g/t Au and 1275 g/t Ag over a 0.65 m interval. These samples further highlight the prospective nature of Target 3.

Target 5

Underground and surface sampling from the San Miguel Mine, located 550 m southeast of Tasolera and 1.2 km southeast along trend from the Apomal vein system, has returned several high-grade silver assays and anomalous to locally high-grade gold values. These samples display Ag:Au ratios characteristic of Target 5, commonly greater than 100:1. Although most samples contain low to moderate gold, one 0.60 m interval returned 38.3 g/t Au and 4,520 g/t Ag. These results are consistent with the very high-grade samples collected at Apomal and Tasolera, underscoring the continuity and strength of mineralization across Target 5.

Table 1 Highlights of surface and underground sample assay results

Sample	Easting (m)	Northing (m)	Elevation (m)	Surface/ UG	Location	Width (m)	Au (g/t)	Ag (g/t)	Cu (g/t)	Pb (g/t)	Zn (g/t)
815820	287880	2822314	720	Surface	Los Martires	0.90	0.8	106	28	482	332
815826	287526	2821913	749	Surface	El Limon	0.50	2.53	501	116	205	130
815832	287126	2821566	724	Surface	El Limon	0.30	0.643	59.6	8	23	29
815834	287099	2821670	721	Surface	El Limon	1.00	0.668	25.7	36	11	49
815839	287650	2823707	979	Surface	El Platano	0.80	3.55	77	123	1120	35
815843	287627	2823692	980	Surface	El Platano	0.73	1.04	48	36	47	25
815772	287843	2822716	766	Surface	Apomal	0.50	16.8	625	98	240	164
815869	288132	2823629	995	Surface	La Guacima	1.00	0.477	46.5	21	76	57
815873	288130	2823631	996	Surface	La Guacima	0.50	3.01	198	13	105	81
815896	287663	2822032	808	Surface	Camino El Limon	0.60	0.617	136	62	5180	796
815897	287646	2822082	820	Surface	Camino El Limon	0.40	0.875	179	31	2080	281
815898	287615	2822234	835	Surface	Camino El Limon	1.10	0.873	149	41	135	182
815899	287616	2822235	835	Surface	Camino El Limon	0.50	0.558	85.6	40	155	144
815885	288724	2821914	923	Surface	Candelaria Working	0.60	0.216	320	74	2080	259
815886	288635	2821817	874	Underground	San Miguel Mine	0.75	1.71	314	208	339	277
815887	288634	2821817	874	Underground	San Miguel Mine	0.75	0.357	67.9	143	194	183
815888	288632	2821819	874	Underground	San Miguel Mine	0.60	1.23	335	92	152	134
815889	288631	2821818	874	Underground	San Miguel Mine	0.55	0.606	67.8	133	223	220
815891	288627	2821820	876	Underground	San Miguel Mine	0.60	38.3	4520	1945	4460	523
815892	288625	2821822	878	Underground	San Miguel Mine	0.60	0.482	77.4	546	415	143
815893	288621	2821823	878	Underground	San Miguel Mine	0.60	0.624	59.5	196	499	188
815894	288617	2821825	880	Surface	San Miguel Mine	0.65	1.055	123	43	96	75
815895	288616	2821825	880	Surface	San Miguel Mine	0.55	0.97	295	182	339	114
814734	292487	2824820	1460	Surface	Jabali mine II	0.65	15.95	1275	50	17	42
814735	292487	2824820	1460	Surface	Jabali mine II	0.55	0.998	641	43	12	45
814739	292450	2824837	1458	Underground	Jabali mine II	1.15	4.59	396	51	20	34
814741	292454	2824840	1458	Underground	Jabali mine II	0.75	6.54	157	36	17	58
814743	292466	2824837	1442	Underground	Jabali mine I	1.00	2.52	126	29	18	20
814744	292466	2824837	1442	Underground	Jabali mine I	1.00	2.69	55.9	30	13	38
814749	292508	2824820	1442	Underground	Jabali mine I	0.65	0.854	50.2	6	21	26
814852	292508	2824814	1442	Underground	Jabali mine I	0.60	2.01	201	9	9	21
814853	292508	2824814	1442	Underground	Jabali mine I	0.60	1.995	119	34	50	56
814854	292510	2824802	1442	Underground	Jabali mine I	0.50	1.475	19.4	15	17	20
814855	292512	2824792	1442	Surface	Jabali mine I	0.50	2.62	6.9	14	47	47
814768	290269	2823165	880	Surface	Copalquin East	0.80	1.01	770	2730	209	729

Click Image To View Full Size

Figure 3 Property-wide channel sampling results for the middle and south district sections within ~50% of the 70 km2 mining concession area covering the Copalquin District

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Figure 4 Target 1 channel sampling results. Mineralization of the Refugio structure to the west towards the Guacima Mine and La Soledad

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Figure 5 Target 5 channel sampling results. Several NW trending structures with underground workings with strike lengths over 1 km with high-grade channel sampling

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Figure 6 Channel sampling results at the historic El Jabali underground mine in Target 3 where first drilling will commence early January 2026

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Figure 7 Channel sampling north of the Target 1 resource drilling area

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Figure 8 Sampling along the Copalquin Structure at the historic workings of Zaragoza and Copalquin 800-900 metres southeast of the Target 1 resource area

ABOUT THE COPALQUIN GOLD SILVER PROJECT

The Copalquin mining district is located in Durango State, Mexico and covers an entire mining district of 70km2 containing several dozen historic gold and silver mines and workings, ten of which had notable production. The district is within the Sierra Madre Gold Silver Trend which extends north-south along the western side of Mexico and hosts many gold and silver districts.

Multiple mineralisation events, young intrusives thought to be system-driving heat sources, widespread alteration together with extensive surface vein exposures and dozens of historic mine workings, identify the Copalquin mining district as a major epithermal centre for Gold and Silver.

Within 15 months of drilling in the Copalquin District, Mithril delivered a maiden JORC mineral resource estimate demonstrating the high-grade gold and silver resource potential for the district. This maiden resource is detailed below (see ASX release 17 November 2021)^ and a NI 43-101 Technical Report filed on SEDAR+

Indicated 691 kt @5.43 g/t gold, 114 g/t silver for 121,000 oz gold plus 2,538,000 oz silver
Inferred 1,725 kt @4.55 g/t gold, 152 g/t silver for 252,000 oz gold plus 8,414,000 oz silver

(using a cut-off grade of 2.0 g/t AuEq*)

28.6% of the resource tonnage is classified as indicated

Table 2 Mineral resource estimate El Refugio – La Soledad using a cut-off grade of 2.0 g/t AuEq*

	Tonnes (kt)	Tonnes (kt)	Gold (g/t)	Silver (g/t)	Gold Eq.* (g/t)	Gold (koz)	Silver (koz)	Gold Eq.* (koz)
El Refugio	Indicated	691	5.43	114.2	7.06	121	2,538	157
	Inferred	1,447	4.63	137.1	6.59	215	6,377	307
La Soledad	Indicated	-	-	-	-	-	-	-
	Inferred	278	4.12	228.2	7.38	37	2,037	66
Total	Indicated	691	5.43	114.2	7.06	121	2,538	157
	Inferred	1,725	4.55	151.7	6.72	252	8,414	372

* In determining the gold equivalent (AuEq.) grade for reporting, a gold:silver price ratio of 70:1 was determined, using the formula: AuEq grade = Au grade + ((Ag grade/70) x (Ag recovery/Au recovery)). The metal prices used to determine the 70:1 ratio are the cumulative average prices for 2021: gold USD1,798.34 and silver: USD25.32 (actual is 71:1) from kitco.com.

For silver equivalent (AgEq.) grade reporting, the same factors as above are used with the formula AgEq grade = Ag grade + ((Au grade x 70) x (Au recovery/Ag recovery))

At this early stage, the metallurgical recoveries were assumed to be equal (93%). Subsequent preliminary metallurgical test work produced recoveries of 91% for silver and 96% for gold (ASX Announcement 25 February 2022) and these will be used when the resource is updated in the future. In the Company’s opinion there is reasonable potential for both gold and silver to be extracted and sold.

^ The information in this report that relates to Mineral Resources or Ore Reserves is based on information provided in the following ASX announcement: 17 Nov 2021 - MAIDEN JORC RESOURCE 529,000 OUNCES @ 6.81G/T (AuEq*), which includes the full JORC MRE report, also available on the Mithril Resources Limited 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 and that all material assumptions and technical parameters underpinning the estimates in the relevant market announcement continue to apply and have not materially changed. 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.

Mining study (conceptual) and metallurgical test work supports the development of the El Refugio-La Soledad resource with conventional underground mining methods indicated as being appropriate and with high gold-silver recovery to produce metal on-site with conventional processing. The average vein width is approximately 4.5 metres.

Mithril is currently exploring in the Copalquin District to expand the resource footprint, demonstrating its multi-million-ounce gold and silver potential. Mithril has an exclusive option to purchase 100% interest in the Copalquin mining concessions by paying US$10M on or any time before 7 August 2028.

-ENDS-

Released with the authority of the Board.

For further information contact:

John Skeet

Managing Director and CEO

jskeet@mithrilsilvergold.com

+61 435 766 809

NIKLI COMMUNICATIONS

Corporate Communications

liz@mithrilsilvergold.com

nicole@mithrilsilvergold.com

The Australian Securities Exchange has not reviewed and does not accept responsibility for the accuracy or adequacy of this release.

Neither TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in policies of the TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this release.

Competent Persons Statement - JORC

The information in this announcement that relates to metallurgical test results, mineral processing and project development and study work has been compiled by Mr John Skeet who is Mithril’s CEO and Managing Director. Mr Skeet is a Fellow of the Australasian Institute of Mining and Metallurgy. This is a Recognised Professional Organisation (RPO) under the Joint Ore Reserves Committee (JORC) Code.

Mr Skeet 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 Skeet consents to the inclusion in this report of the matters based on information in the form and context in which it appears. The Australian Securities Exchange has not reviewed and does not accept responsibility for the accuracy or adequacy of this release.

The information in this announcement that relates to sampling techniques and data, exploration results and geological interpretation for Mithril’s Mexican project, has been compiled by Mr Darren LeFort who is Mithril’s Exploration Manager. Mr LeFort is a member of the Engineers and Geoscientists of British Columbia and a Certified Professional Geologist (P.Geo). This is a Recognised Professional Organisation (RPO) under the Joint Ore Reserves Committee (JORC) Code.

Mr LeFort 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 LeFort consents to the inclusion in this report of the matters based on information in the form and context in which it appears.

The information in this announcement that relates to Mineral Resources is reported by Mr Rodney Webster, former Principal Geologist at AMC Consultants Pty Ltd (AMC), who is a Member of the Australian Institute of Geoscientists. The report was peer reviewed by Andrew Proudman, Principal Consultant at AMC. Mr Webster is acting as the 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, for the reporting of the Mineral Resource estimate. A site visit was carried out by Jose Olmedo a geological consultant with AMC, in September 2021 to observe the drilling, logging, sampling and assay database. Mr Webster consents to the inclusion in this report of the matters based on information in the form and context in which it appears

Qualified Persons – NI 43-101

Scientific and technical information in this Report has been reviewed and approved by Mr John Skeet (FAUSIMM, CP) Mithril’s Managing Director and Chief Executive Officer. Mr John Skeet is a qualified person within the meaning of NI 43-101.

Samples are sent to ALS Global with sample preparation performed in Chihuahua City, Mexico and assaying of sample pulps performed in North Vancouver, BC, Canada

A cautionary note regarding surface and channel samples, which by their nature, are selective samples and may not represent true underlying mineralization.

Table 3 All Channel Sampling Results reported in this announcement

Sample	Easting (m)	Northing (m)	Elevation (m)	Surface/UG	Location	Width (m)	Au (g/t)	Ag (g/t)	Cu (g/t)	Pb (g/t)	Zn (g/t)
815785	288145	2823621	977	Underground	La Guacima	1.00	0.014	2.5	26	21	57
815786	288144	2823622	977	Underground	La Guacima	1.00	0.027	0.7	11	10	52
815788	288144	2823623	977	Underground	La Guacima	1.00	0.031	0.7	9	11	48
815789	288144	2823624	977	Underground	La Guacima	1.00	0.012	0.5	4	12	142
815790	288143	2823625	977	Underground	La Guacima	1.00	0.028	1.7	20	19	288
815791	288143	2823625	977	Underground	La Guacima	1.00	0.023	1.8	28	14	318
815792	288142	2823626	977	Underground	La Guacima	1.00	0.009	1.9	28	16	71
815793	288142	2823627	977	Underground	La Guacima	1.00	0.025	3.1	38	14	75
815794	288142	2823628	977	Underground	La Guacima	1.00	0.029	2.6	7	11	18
815795	288141	2823629	977	Underground	La Guacima	1.00	0.244	16	7	13	16
815796	288141	2823630	977	Underground	La Guacima	1.00	0.067	9	5	24	13
815797	288141	2823631	977	Underground	La Guacima	1.00	0.044	6.8	4	14	13
815798	288140	2823632	977	Underground	La Guacima	1.00	0.051	6.7	5	14	19
815799	288140	2823633	977	Underground	La Guacima	1.00	0.014	1.5	5	9	31
815816	287796	2822247	762	Surface	Los Martires	1.00	0.063	5.9	89	1075	955
815817	287779	2822260	766	Surface	Los Martires	0.30	0.224	36	36	1605	2180
815818	287739	2822235	794	Surface	Los Martires	1.20	0.006	1	38	1290	189
815819	287738	2822235	794	Surface	Los Martires	0.80	0.006	1.2	86	150	306
815820	287880	2822314	720	Surface	Los Martires	0.90	0.8	106	28	482	332
815821	287894	2822314	698	Surface	Los Martires	1.00	0.033	1.9	24	380	576
815822	288364	2822425	773	Surface	Apomal	0.50	0.173	25	13	89	111
815824	288868	2822377	872	Surface	Candelaria	0.50	0.29	33	25	55	109
815826	287526	2821913	749	Surface	El Limon	0.50	2.53	501	116	205	130
815828	287455	2821862	755	Surface	El Limon	0.80	0.038	12	21	125	696
815829	287143	2821927	778	Surface	El Limon	0.50	0.218	21	125	148	259
815830	287142	2821925	777	Surface	El Limon	0.80	0.239	13	73	94	178
815831	287118	2821863	748	Surface	El Limon	1.00	0.025	2.5	10	15	60
815832	287126	2821566	724	Surface	El Limon	0.30	0.643	60	8	23	29
815833	287098	2821670	721	Surface	El Limon	1.00	0.2	17	13	13	55
815834	287099	2821670	721	Surface	El Limon	1.00	0.668	26	36	11	49
815835	287021	2821431	655	Surface	El Limon	0.50	0.257	7.3	15	6	21
815836	287707	2823720	994	Surface	El Platano	1.00	<0.005	1.2	14	6	2
815837	287697	2823718	1000	Surface	El Platano	1.00	0.006	2	9	14	3
815838	287697	2823719	1000	Surface	El Platano	0.80	<0.005	0.9	4	8	3
815839	287650	2823707	979	Surface	El Platano	0.80	3.55	77	123	1120	35
815840	287650	2823708	978	Surface	El Platano	1.00	0.461	16	49	181	71
815841	287658	2823704	977	Surface	El Platano	0.80	0.017	1.6	7	20	22
815843	287627	2823692	980	Surface	El Platano	0.73	1.04	48	36	47	25
814726	293214	2825424	2059	Surface	El Duraznal	0.75	0.103	<0.5	5	20	40
814727	293264	2825280	2033	Surface	El Duraznal	0.50	0.006	<0.5	7	13	24
814728	293137	2825317	1991	Surface	El Duraznal	0.50	<0.005	<0.5	3	13	40
814729	293063	2825380	1972	Surface	El Duraznal	0.50	<0.005	<0.5	4	13	38
814730	293055	2825401	1985	Surface	El Duraznal	0.50	<0.005	<0.5	4	12	35
814731	292907	2825392	1895	Surface	El Duraznal	0.50	<0.005	<0.5	5	19	57
814732	292838	2825462	1865	Surface	El Duraznal	0.80	<0.005	<0.5	6	16	46
815772	287843	2822716	766	Surface	Apomal	0.50	16.8	625	98	240	164
815844	287622	2823393	1014	Surface	El Gallo Sur	0.40	0.099	1.9	3	15	19
815845	287626	2823395	1014	Surface	El Gallo Sur	0.40	0.065	3.1	3	50	10
815846	288338	2823254	757	Surface	La Higuerita	0.70	0.028	9.9	11	107	73
815847	288335	2823251	756	Surface	La Higuerita	0.70	0.023	2	40	61	76
815848	288341	2823264	763	Surface	La Higuerita	0.50	0.008	0.8	23	113	140
815849	288350	2823271	771	Surface	La Higuerita	0.90	0.024	1.4	20	27	35
815851	288351	2823272	772	Surface	La Higuerita	0.90	0.012	1.6	20	29	60
815852	288351	2823272	772	Surface	La Higuerita	0.90	0.014	2.2	16	44	78
815853	288354	2823275	773	Surface	La Higuerita	0.80	0.072	5.5	17	310	175
815854	288423	2823464	799	Surface	La Higuerita	0.70	0.143	2.6	25	19	43
815855	288443	2823438	818	Surface	La Higuerita	0.50	0.008	0.6	13	32	70
815856	288393	2823373	770	Surface	La Higuerita	0.50	0.143	4.6	108	24	22
815857	288394	2823308	824	Surface	La Higuerita	0.50	0.011	0.5	10	15	53
815858	288389	2823307	808	Surface	La Higuerita	0.50	0.005	1.1	80	27	42
815859	288354	2823267	764	Surface	La Higuerita	0.50	0.109	9.2	20	48	68
815860	289063	2822631	792	Surface	La Maquina	0.70	0.008	0.6	31	19	80
815861	288177	2823358	727	Surface	La Higuerita	0.50	0.008	0.5	9	25	30
815862	288074	2823208	761	Surface	La Higuerita	0.50	0.084	0.7	14	140	121
815863	288066	2823213	751	Surface	La Higuerita	0.50	0.012	0.6	30	9	31
815864	287910	2823328	793	Surface	El Gallo Sur	0.60	0.018	0.7	42	25	37
815865	287912	2823404	819	Surface	El Gallo Sur	0.80	0.013	2.6	22	60	64
815866	288133	2823628	994	Surface	La Guacima	0.70	0.058	4.7	6	8	10
815868	288133	2823629	994	Surface	La Guacima	0.70	0.025	2.4	4	23	8
815869	288132	2823629	995	Surface	La Guacima	1.00	0.477	47	21	76	57
815870	288131	2823630	995	Surface	La Guacima	1.00	0.328	36	10	40	15
815871	288131	2823631	996	Surface	La Guacima	1.00	0.238	19	24	34	87
815873	288130	2823631	996	Surface	La Guacima	0.50	3.01	198	13	105	81
815874	288163	2823645	1010	Surface	La Guacima	0.50	0.007	0.8	5	5	20
815876	288162	2823645	1007	Surface	La Guacima	0.50	0.019	6.7	8	8	15
814754	294161	2823521	1515	Surface	El Peru	0.50	<0.005	<0.5	15	9	52
814755	294163	2823523	1515	Surface	El Peru	0.50	<0.005	<0.5	21	12	75
814756	294168	2823544	1517	Surface	El Peru	1.00	<0.005	<0.5	19	12	71
814757	294160	2823652	1580	Surface	El Peru	0.50	<0.005	<0.5	9	6	17
814758	294156	2823654	1581	Surface	El Peru	0.50	<0.005	<0.5	13	11	46
814759	294155	2823659	1582	Surface	El Peru	0.80	<0.005	<0.5	8	7	20
814760	294180	2824644	1733	Surface	Santa Cruz	0.50	<0.005	<0.5	7	15	47
815801	289205	2821765	840	Surface	Candelaria Sur	0.50	0.302	1.2	9	32	89
815802	289195	2821718	828	Surface	Candelaria Sur	0.50	0.005	<0.5	14	<2	12
815803	289195	2821719	828	Surface	Candelaria Sur	0.50	<0.005	<0.5	16	3	9
815804	289196	2821720	828	Surface	Candelaria Sur	1.00	<0.005	<0.5	9	5	14
815805	289196	2821721	828	Surface	Candelaria Sur	1.00	<0.005	<0.5	14	8	20
815806	289205	2821653	810	Surface	Candelaria Sur	0.60	0.011	0.6	12	309	309
815807	289249	2821686	822	Surface	Candelaria Sur	0.55	0.008	1.2	14	156	127
815808	289250	2821684	822	Surface	Candelaria Sur	0.50	0.01	1.8	29	217	211
815809	289282	2821783	843	Surface	Candelaria Sur	1.00	0.005	<0.5	9	11	43
815810	289279	2821777	842	Surface	Candelaria Sur	0.50	<0.005	<0.5	6	8	34
815811	289284	2821789	848	Surface	Candelaria Sur	1.00	0.005	0.6	42	703	31
815813	289311	2821868	873	Surface	Candelaria Sur	0.50	0.042	1.9	133	404	351
815814	289311	2821908	900	Surface	Candelaria Sur	0.50	0.009	0.5	17	158	343
815815	289313	2821924	904	Surface	Candelaria Sur	0.50	0.005	<0.5	9	49	65
814801	291992	2824829	1344	Surface	Northwest Jabali	0.70	<0.005	<0.5	6	8	22
814802	291992	2824829	1344	Surface	Northwest Jabali	0.90	<0.005	<0.5	5	8	25
814803	291992	2824829	1344	Surface	Northwest Jabali	0.90	<0.005	<0.5	2	8	31
814804	291371	2824431	1224	Surface	West of Jabali	0.70	<0.005	<0.5	50	18	96
814805	291371	2824431	1224	Surface	West of Jabali	0.90	<0.005	0.7	71	22	110
814806	291371	2824431	1224	Surface	West of Jabali	0.90	<0.005	<0.5	50	26	141
814807	291371	2824431	1224	Surface	West of Jabali	0.70	<0.005	0.5	37	38	95
814808	291371	2824431	1224	Surface	West of Jabali	1.00	<0.005	<0.5	32	10	77
815896	287663	2822032	808	Surface	Camino El Limon	0.60	0.617	136	62	5180	796
815897	287646	2822082	820	Surface	Camino El Limon	0.40	0.875	179	31	2080	281
815898	287615	2822234	835	Surface	Camino El Limon	1.10	0.873	149	41	135	182
815899	287616	2822235	835	Surface	Camino El Limon	0.50	0.558	86	40	155	144
815901	288264	2821508	760	Surface	El Limon	0.40	0.037	27	58	1115	471
815903	287905	2821229	678	Surface	El Limon	0.50	0.008	0.6	14	60	83
815877	288719	2821916	924	Surface	Candelaria Working	0.80	0.129	24	44	613	187
815878	288719	2821917	924	Surface	Candelaria Working	0.50	0.021	4.9	47	31	418
815879	288720	2821917	924	Surface	Candelaria Working	0.90	0.011	3.5	47	26	540
815880	288720	2821917	924	Surface	Candelaria Working	0.65	0.045	3.8	32	217	400
815881	288721	2821917	925	Surface	Candelaria Working	0.80	0.008	2.2	30	28	716
815882	288721	2821918	925	Surface	Candelaria Working	0.60	0.012	4.7	15	21	311
815883	288722	2821918	925	Surface	Candelaria Working	0.50	0.015	2.9	15	50	200
815884	288727	2821910	923	Surface	Candelaria Working	0.50	0.047	15	44	1375	228
815885	288724	2821914	923	Surface	Candelaria Working	0.60	0.216	320	74	2080	259
815886	288635	2821817	874	Underground	San Miguel Mine	0.75	1.71	314	208	339	277
815887	288634	2821817	874	Underground	San Miguel Mine	0.75	0.357	68	143	194	183
815888	288632	2821819	874	Underground	San Miguel Mine	0.60	1.23	335	92	152	134
815889	288631	2821818	874	Underground	San Miguel Mine	0.55	0.606	68	133	223	220
815890	288631	2821818	874	Underground	San Miguel Mine	0.55	0.188	43	25	38	99
815891	288627	2821820	876	Underground	San Miguel Mine	0.60	38.3	4520	1945	4460	523
815892	288625	2821822	878	Underground	San Miguel Mine	0.60	0.482	77	546	415	143
815893	288621	2821823	878	Underground	San Miguel Mine	0.60	0.624	60	196	499	188
815894	288617	2821825	880	Surface	San Miguel Mine	0.65	1.055	123	43	96	75
815895	288616	2821825	880	Surface	San Miguel Mine	0.55	0.97	295	182	339	114
814733	292490	2824846	1465	Surface	El Jabalí NW	0.50	0.005	<0.5	7	12	78
814734	292487	2824820	1460	Surface	Jabali mine II	0.65	15.95	####	50	17	42
814735	292487	2824820	1460	Surface	Jabali mine II	0.55	0.998	641	43	12	45
814736	292486	2824819	1461	Surface	Jabali mine II	0.50	0.033	12	19	12	46
814737	292486	2824819	1461	Surface	Jabali mine II	0.60	0.025	3.1	9	16	72
814738	292487	2824822	1460	Surface	Jabali mine II	0.50	0.037	5.1	14	14	54
814739	292450	2824837	1458	Underground	Jabali mine II	1.15	4.59	396	51	20	34
814741	292454	2824840	1458	Underground	Jabali mine II	0.75	6.54	157	36	17	58
814742	292455	2824834	1458	Underground	Jabali mine II	0.50	0.487	3.7	31	12	43
814743	292466	2824837	1442	Underground	Jabali mine I	1.00	2.52	126	29	18	20
814744	292466	2824837	1442	Underground	Jabali mine I	1.00	2.69	56	30	13	38
814745	292470	2824842	1442	Underground	Jabali mine I	0.90	0.368	29	16	10	31
814746	292470	2824842	1442	Underground	Jabali mine I	0.85	0.43	32	14	11	34
814747	292473	2824846	1442	Underground	Jabali mine I	1.00	0.16	1.2	13	12	58
814748	292509	2824826	1442	Underground	Jabali mine I	1.00	0.125	4.7	13	9	32
814749	292508	2824820	1442	Underground	Jabali mine I	0.65	0.854	50	6	21	26
814852	292508	2824814	1442	Underground	Jabali mine I	0.60	2.01	201	9	9	21
814853	292508	2824814	1442	Underground	Jabali mine I	0.60	1.995	119	34	50	56
814854	292510	2824802	1442	Underground	Jabali mine I	0.50	1.475	19	15	17	20
814855	292512	2824792	1442	Surface	Jabali mine I	0.50	2.62	6.9	14	47	47
814856	292480	2824724	1374	Surface	El Jabalí W	0.50	0.092	4.9	11	11	32
814857	292480	2824722	1374	Surface	El Jabalí W	0.60	0.213	1.6	15	5	14
814809	291222	2824933	1458	Surface	NE of Los Reyes	1	0.009	<0.5	3	10	14
814810	291225	2824918	1458	Surface	NE of Los Reyes	0.5	0.032	0.6	7	21	19
814811	291221	2824914	1459	Surface	NE of Los Reyes	1	0.008	0.9	6	26	18
814812	291235	2824868	1445	Surface	NE of Los Reyes	1	0.018	1.9	5	27	36
814813	291248	2824804	1406	Surface	NE of Los Reyes	0.5	<0.005	<0.5	2	16	60
814814	291247	2824800	1407	Surface	NE of Los Reyes	1	<0.005	<0.5	2	8	27
814816	290502	2824428	1076	Surface	NE of Los Reyes	0.8	<0.005	<0.5	5	12	10
814817	290502	2824420	1076	Surface	NE of Los Reyes	0.7	0.296	3.4	7	16	44
814818	290502	2024420	1076	Surface	NE of Los Reyes	0.9	0.014	<0.5	4	9	15
814861	294738	2823013	1755	Surface	Desecho Perú	0.50	<0.005	<0.5	2	15	17
814862	294733	2823015	1747	Surface	Desecho Perú	0.50	<0.005	<0.5	1	15	22
814863	294733	2823015	1747	Surface	Desecho Perú	0.50	<0.005	<0.5	3	15	23
814864	294893	2822934	1869	Surface	Desecho Perú	0.50	<0.005	<0.5	4	12	32
814761	290361	2823150	904	Surface	Copalquin East	0.50	0.005	0.7	58	39	86
814762	290365	2823150	905	Surface	Copalquin East	0.80	0.15	12	146	136	152
814763	290367	2823151	905	Surface	Copalquin East	0.70	0.189	17	175	88	86
814764	290368	2823153	905	Surface	Copalquin East	0.50	0.038	11	159	143	164
814765	290384	2823160	911	Surface	Copalquin East	0.50	0.005	1.1	74	30	32
814766	290424	2823181	934	Surface	Copalquin East	0.60	0.023	0.6	25	27	50
814767	290502	2823173	967	Surface	Copalquin East	0.50	0.009	1.2	37	148	9
814768	290269	2823165	880	Surface	Copalquin East	0.80	1.01	770	2730	209	729
814769	290270	2823166	880	Surface	Copalquin East	0.50	0.077	13	131	80	113
814770	290273	2823163	880	Surface	Copalquin East	0.50	0.106	7.2	76	233	92

JORC Code, 2012 Edition – Table 1

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 representativity 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.	Drill core samples are cut lengthwise with a diamond saw. Intervals are nominally 1 m but may vary between 0.5 m to 1.5 m based on geologic criteria. The same side of the core is always sent to sample (left side of saw). Reported intercepts are calculated as either potentially underground mineable (100m down hole) or as potentially open-pit mineable (near surface). Potentially underground mineable intercepts are calculated as length weighted averages of material greater than or equal to 1 g/t AuEQ_70 allowing up to 2m of internal dilution. Potentially open-pit mineable intercepts are calculated as length weighted averages of material greater than or equal to 0.25 g/t AuEQ_70 allowing for up to 2m of internal dilution. Rock Sawn Channel samples underground and surface are collected with the assistance of a handheld portable saw. The channels are 2.5 to 3cm deep and 6-8 cm wide along continuous lines oriented perpendicular to the mineralized structure. The samples are as representative as possible Rock Sawn Channel surface samples were surveyed with a Handheld GPS then permanently mark with an aluminium tag and red colour spray across the strike of the outcrop over 1 metre. Samples are as representative as possible Rock Sawn Channel underground samples were located after a compass and tape with the mine working having a surveyed control point at the portal, then permanently marked with an aluminium tag and red colour spray oriented perpendicular to the mineralized structure. Samples are as representative as possible Soil sampling has been carried out by locating pre-planned points by handheld GPS and digging to below the first colour-change in the soil (or a maximum of 50 cm). In the arid environment there is a 1 – 10 cm organic horizon and a 10 – 30 cm B horizon above the regolith. Samples are sieved to -80 mesh in the field. Samples are collected on a 20 m x 50 m grid or every 20 m on N–S lines 50 m apart. These samples are considered representative of the medium being sampled and lines are appropriately oriented to the nearly E–W structural trend.
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).	Drilling is done with MP500 man-portable core rigs capable of drilling HQ size core to depths of 350-400m (depending on ground conditions), reducing to NQ size core for greater depths. Core is recovered in a standard tube.
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.	Drill recovery is measured based on measured length of core divided by length of drill run. Recovery in holes CDH-001 through CDH-025 and holes CDH-032 through CDH-077 was always above 90% in the mineralized zones. Detailed core recovery data are maintained in the project database. Holes CDH-026 through CDH-031 had problems with core recovery in highly fractured, clay rich breccia zones. There is no adverse relationship between recovery and grade identified to date.
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.	Geotechnical and geological logging of the drill core takes place on racks in the company core shed. Core samples have been geologically and geotechnically logged to a level of detail to support appropriate Mineral Resource estimation, mining studies and metallurgical studies. Core logging is both qualitative or quantitative in nature. Photos are taken of each box of core before samples are cut. Photos of cut core intervals are taken after sampling. Core is wetted to improve visibility of features in the photos. All core has been logged and photographed. Rock sawn channel samples are marked, measured and photographed at location Soil samples are recorded at location, logged and described
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 representativity 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 material being sampled.	Core is sawn and half core is taken for sample. Samples are prepared using ALS Minerals Prep-31 crushing, splitting and pulverizing. This is appropriate for the type of deposit being explored. Visual review to assure that the cut core is ½ of the core is performed to assure representativity of samples. Crushed core duplicates are split/collected by the laboratory and submitted for assay (1 in 30 samples) Sample sizes are appropriate to the grain size of the material being sampled. Rock sawn channel samples and soil samples are prepared using ALS Minerals Prep-31 crushing, splitting and pulverizing. This is appropriate for the type of deposit being explored.
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 (eg standards, blanks, duplicates, external laboratory checks) and whether acceptable levels of accuracy (ie lack of bias) and precision have been established.	Samples are assayed for gold using ALS Minerals Au-AA25 method a 30 g fire assay with an AA finish. This is considered a total assay technique. Samples are assayed for silver using ALS Minerals ME-ICP61 method. Over limits are assayed by silverOG63 and silverGRAV21. These are considered a total assay technique. Standards and blanks are inserted at a rate of one per every 25 samples and one per every 40 samples, respectively. Pulp duplicate sampling is undertaken for 3% of all samples (see above). External laboratory checks will be conducted as sufficient samples are collected. Levels of accuracy (ie lack of bias) and precision have not yet been established. Certified Reference Materials – Rock Labs and CDN CRMs have been used throughout the project including, low (~2 g/t Au), medium (~9 g/t Au) and high (~18g/t Au and ~40 g/t Au). Results are automatically checked on data import into the BEDROCK database to fall within 2 standard deviations of the expected value. Samples with significant amounts of observed visible gold are also assayed by AuSCR21, a screen assay that analyses gold in both the milled pulp and in the residual oversize from pulverization. This has been done for holes CDH-075 and CDH-077.
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.	The verification of significant intersections by either independent or alternative company personnel has not been conducted. A re-assay program of pulp duplicates is currently in progress. MTH has drilled one twin hole. Hole CDH-072, reported in the 15/6/2021 announcement, is a twin of holes EC-002 and UC-03. Results are comparable. Documentation of primary data, data entry procedures, data verification, data storage (physical and electronic) protocols are maintained in the company’s core facility. Assay data have not been adjusted other than applying length weighted averages to reported intercepts.
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.	Drill collar coordinates are currently located by handheld GPS. Precise survey of hole locations is planned. Downhole surveys of hole deviation are recorded using a Reflex Multishot tool for all holes. A survey measurement is first collected at 15 meters downhole, and then every 50 meters until the end of the hole. Locations for holes have been surveyed with differential GPS to a sub 10 cm precision. UTM/UPS WGS 84 zone 13 N High quality topographic control from LiDAR imagery and orthophotos covers the entire project area.
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.	Data spacing is appropriate for the reporting of Exploration Results. The Resource estimation re-printed in this announcement was originally released on 17 Nov 2021 No sample compositing has been applied.
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.	Cut lines are marked on the core by the geologists to assure that the orientation of sampling achieves unbiased sampling of possible structures. This is reasonably well observed in the core and is appropriate to the deposit type. The relationship between the drilling orientation and the orientation of key mineralised structures is not considered to have introduced a sampling bias. Rock sawn channel samples are cut perpendicular to the observed vein orientation wherever possible
Sample security	The measures taken to ensure sample security.	Samples are stored in a secure core storage facility until they are shipped off site by small aircraft and delivered directly to ALS Global sample preparation facility in Chihuahua, Mexico. ALS airfreights the sample pulps to their assaying facility in North Vancouver, BC, Canada
Audits or reviews	The results of any audits or reviews of sampling techniques and data.	A review with spot checks was conducted by AMC in conjunction with the resource estimate published 17 Nov 2021. Results were satisfactory to AMC.

Section 2 Reporting of Exploration Results

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.

Concessions at Copalquin

No.	Concession	Concession Title number	Area (Ha)	Location
1	LA SOLEDAD	52033	6	Tamazula, Durango, Mexico
2	EL COMETA	164869	36	Tamazula, Durango, Mexico
3	SAN MANUEL	165451	36	Tamazula, Durango, Mexico
4	COPALQUIN	178014	20	Tamazula, Durango, Mexico
5	EL SOL	236130	6,000	Tamazula, Durango and Badiraguato, Sinaloa, México
6	EL CORRAL	236131	907.3243	Tamazula, Durango and Badiraguato, Sinaloa, México

Exploration done by other parties

Acknowledgment and appraisal of exploration by other parties.

Previous exploration by Bell Coast Capital Corp. and UC Resources was done in the late 1990’s and in 2005 – 2007. Work done by these companies is historic and non-JORC compliant. Mithril uses these historic data only as a general guide and will not incorporate work done by these companies in resource modelling.
Work done by the Mexican government and by IMMSA and will be used for modelling of historic mine workings which are now inaccessible (void model)

Geology

Deposit type, geological setting and style of mineralisation.

Copalquin is a low sulfidation epithermal gold-silver deposit hosted in andesite. This deposit type is common in the Sierra Madre Occidental of Mexico and is characterized by quartz veins and stockworks surrounded by haloes of argillic (illite/smectite) alteration. Veins have formed as both low-angle semi-continuous lenses parallel to the contact between granodiorite and andesite and as tabular veins in high-angle normal faults. Vein and breccia thickness has been observed up to 30 meters wide with average widths on the order of 3 to 5 meters. The overall strike length of the semi-continuous mineralized zone from El Gallo to Refugio, Cometa, Los Pinos, Los Reyes, La Montura to Constancia and Santa Cruz is almost 7 kilometres. The southern area from south west of Apomal to San Manuel and to Las Brujas-El Peru provides additional exploration potential up to 6km.

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.

See Table 3 in the announcement for full details of the channel sample results

Data aggregation methods

In reporting Exploration Results, weighting averaging techniques, maximum and/or minimum grade truncations (eg cutting of high grades) and cut-off grades are usually Material and should be stated.
Where aggregate intercepts incorporate short lengths of high grade results and longer lengths of low grade results, the procedure used for such aggregation should be stated and some typical examples of such aggregations should be shown in detail.
The assumptions used for any reporting of metal equivalent values should be clearly stated.

Potentially underground mineable intercepts are calculated as length weighted averages of material greater than or equal to 1 g/t AuEQ_70 allowing up to 2m of internal dilution.
Potentially open-pit mineable intercepts are calculated as length weighted averages of material greater than or equal to 0.25 g/t AuEQ_70 allowing for up to 2m of internal dilution.
No upper cut-off is applied to reporting intercepts.
Length weighted averaging is used to report intercepts. The example of CDH-002 is shown. The line of zero assays is a standard which was removed from reporting.

Au Raw	silver raw	Length (m)	Au *length	silver *length
7.51	678	0.5	3.755	339
11.85	425	0.55	6.5175	233.75
0	0	0	0	0
0.306	16	1	0.306	16
0.364	31.7	1	0.364	31.7
3.15	241	0.5	1.575	120.5
10.7	709	0.5	5.35	354.5
15.6	773	0.5	7.8	386.5
					From	To	Length	Au gpt	silver gpt
		4.55	25.667	1481.9	91.95	96.5	4.55	5.64	325.7

In determining the gold equivalent (AuEq.) grade for reporting, a gold:silver price ratio of 70:1 was determined, using the formula: AuEq grade = Au grade + ((silver grade/70) x (silver recovery/Au recovery)). The metal prices used to determine the 70:1 ratio are the cumulative average prices for 2021: gold USD1,798.34 and silver: USD25.32 (actual is 71:1) from kitco.com At this early stage, the metallurgical recoveries are assumed to be equal (93%), Subsequent preliminary metallurgical test work produced recoveries of 91% for silver and 96% for gold (ASX Announcement 25 February 2022).
For Rock Saw Channel Sampling and soil sampling in the Copalquin District, silver equivalent (AgEq) is determined using the formula: AgEq grade = silver grade + ((Au grade x 70) x (Au recovery/silver recovery)). The metal prices used to determine the 70:1 ratio are the cumulative average prices for 2021: gold USD1,798.34 and silver: USD25.32 (actual is 71:1) from kitco.com At this early stage, the metallurgical recoveries for Au and silver are assumed to be equal (93%) in the absence of metallurgical test work for Targets 2, 3, 4 and 5 material. In the Company’s opinion there is reasonable potential for both gold and silver to be extracted and sold.

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 (eg ‘down hole length, true width not known’).

True widths at Refugio between sections 120 and 1,000 vary according to the hole’s dip. Holes drilled at -50 degrees may be considered to have intercept lengths equal to true-widths, Holes drilled at -70 degrees had true widths approximately 92% of the reported intercept lengths and holes drilled at -90 degrees had true widths of 77% of the reported intercept lengths.
True widths at La Soledad are not fully understood and downhole intercepts to date, are reported.
At Las Brujas in Target 2, true widths are not yet known since we are still in the early stages of target definition.
Rock sawn channel samples are cut perpendicular to the observed vein orientation wherever possible

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.

See figures in announcement

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 exploration results are reported for intercepts greater than or equal to 0.1 g/t gold equivalent (gold plus silver at 70:1 price ratio for gold:silver).

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.

No additional exploration data are substantive at this time.
Metallurgical test work on drill core composite made of crushed drill core from the El Refugio drill hole samples has been conducted.
The samples used for the test work are representative of the material that makes up the majority of the Maiden Resource Estimate for El Refugio release on 17th November 2021.
The test work was conducted by SGS laboratory Mexico using standard reagents and test equipment.

Further work

The nature and scale of planned further work (eg 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 Company drilled 148 diamond core holes from July 2020 to July 2022 for 32,712 m. The Company has stated its target to drill up to 45,000m from July 2025 until the second half of 2026
Diagrams are included in the announcements and presentations showing the drill target areas within the Copalquin District

1 See ASX announcement 16 Oct. 2025, 300 Metre T1 Extension -10.9 G/T AUEQ over 8.03m

2 See ASX announcement 28 Aug. 2025 MTH ACCELERATES EXPLORATION WITH NEW DRILLING AT TARGET 5

3 See ‘About Copalquin Gold Silver Project’ section for JORC MRE details and AuEq. calculation.