Coro Mining Marimaca District Exploration Update: La At??mica Drilling and Underground Sampling Results Highlighted by 98 metres at 0.63%CuT

2019-01-16 / @nasdaq

 

VANCOUVER, British Columbia, Jan. 16, 2019 (GLOBE NEWSWIRE) -- Coro Mining Corp. (“Coro” or the “Company”) (TSX: COP) is pleased to announce an update at the Company’s Marimaca project in the Antofagasta region of Chile.  

Figure 1
La Atómica updated drill hole locations


Figure 2
La Atómica underground workings location and sampling results


Figure 4a
La Atómica underground workings and drilling


Figure 4b
La Atómica underground workings and drilling (zoomed)


At La Atómica, the area that was acquired after Marimaca 1-23, drilling has been completed and confirms the continuation of copper oxide mineralization to the northwest.

Highlights

  • Results from 27 of the 64 RC drill holes completed, including 9 more holes than originally planned, for 6,530 metres of a total 15,100 metres, drilled on a 100 x100 metre grid. Highlights include:
    Hole LAR 44
    °  
    From 132 to 176 metres, 44 metres of copper oxide mineralization averaging 0.79% CuT, including 26 metres, from 150 to 176 metres, averaging 1.49% CuT.
    °  From 182 to 228 metres, 46 metres of copper oxide mineralization averaging 1.49% CuT, including 30 metres, from 198 to 228 metres, averaging 2.16% CuT.
    °  From 232 to 258 metres, 26 metres of mixed copper oxide chalcocite mineralization averaging 2.05% CuT.
    Hole LAR 63
    °  
    From 42 to 140 metres, 98 metres of copper oxide mineralization averaging 0.63% CuT.
    °  From 104 to 130 metres, 26 metres of copper oxide mineralization averaging 1.34% CuT.
    Hole LAR 66
    °  
    From 52 to 84 metres s, 32 metres of copper oxide mineralization averaging 0.56 %CuT, including 10 metres, from 62 to 72 metres, averaging 1.28 %CuT.
  • A total of 2,648 metres of chip channel samples has been collected from underground workings, averaging 0.66% CuT, with highlights including:
    °  96 metres at 0.49% CuT
    °  46 metres at 0.53% CuT
    °  52 metres at 0.61% CuT
    °  48 metres at 0.92% CuT
    °  26 metres at 1.32% CuT
  • Current work suggests total horizontal extension of the outcropping copper oxide mineralization from Marimaca to La Atómica now reaches 800 metres in a north-west direction, however, this could extend further.
  • Drilling program was expanded to confirm copper oxide mineralization towards the southwestern part of the La Atómica property, with an additional 9 holes for 2,120 metres have been drilled with assay results pending.

Further Information
Figure 1 below illustrates the location of the completed Phase I drilling which established the resource at Marimaca 1-23 and the Phase II drill holes at La Atómica. The location of the underground workings at La Atómica is also shown. It is worth noting that due to the designed 100 x 100 metre grid spacing, just a few holes intercepted the underground working area. Included below are tables showing the drill intercepts and a drill hole collar location data (UTM PSAD 56 coordinate system).  

Figure 1: La Atómica updated drill hole locations

Underground workings at La Atómica extend 370 metres from the Marimaca 1-23 resource drill grid and are located 50 to 100 metres from the previously released Atahualpa underground working results. These historic and easily accessible sub-horizontal workings extend over a 200 x 150 metre area in a north-south direction to a depth of 70 to 100 metres below surface.

Figure 2 shows the distribution of copper in the underground workings and the location of selected intervals. This demonstrates consistent grades of 0.6-0.8% CuT and above. It also indicates the continuation of the mineralization to the north west from the Marimaca 1-23 resource.

Figure 2: La Atómica underground workings location and sampling results

Underground workings are easily accessible and display good rock quality conditions.  Although no reports from earlier mining activities exist, it is believed from sampling and the continuous copper oxide mineralization exposed in the declines and adits, that the workings were developed to mine material estimated to contain above 2% copper. Copper mineralization is chiefly brochantite and its occurrence is controlled by low to moderately parallel fracturing of the intrusive host rock.

Figure 3: La Atómica underground workings; selected intersections

WorkingFrom (m)To (m)Length (m)% CuT% CuS
LAS-03104192880.300.16
LAS-N10621160880.450.28
including10621092300.630.40
LAS-N
including
11561252960.490.33
11761206300.640.41
LAS-N12921340480.740.39
LAS-B244290460.530.41
LAS-F444470260.600.50
LAS-L838890520.610.48
including838872340.830.67
LAS-02048480.920.55
including2248261.301.09
LAS-A27096261.321.12
LAS-056892240.440.14

Figures 4a and 4b below show a long NNW – SSW section at different scales, containing the resource block model generated with the original drilling at Marimaca on the right, and the recent drilling conducted in La Atómica and the sampled underground workings on the left; these in general present higher copper grades than the drilling itself.

Figure 4a: La Atómica underground workings and drilling

Figure 4b: La Atómica underground workings and drilling (zoomed)

Phase II Program Upcoming Milestones
At La Atómica, due to the addition of 9 holes to test for the southwestern extension of mineralization, a potentially larger resource will take additional weeks to estimate, however, this is still anticipated to be available in the first quarter of 2019.  Two RC drill rigs have moved to Atahualpa and first drill results are anticipated in the coming weeks.  A third RC drill and the first diamond drill will arrive on site soon, ensuring that the Phase II program remains on track.

Sampling and Assay Protocol
True widths cannot be determined with the information available at this time. Coro RC holes were sampled on a 2 metre continuous basis, with dry samples riffle split on site and one quarter sent to the Andes Analytical Assay preparation laboratory in Calama and the pulps then sent to the same company laboratory in Santiago for assaying. A second quarter was stored on site for reference. Samples were prepared using the following standard protocol: drying; crushing to better than 85% passing -10#; homogenizing; splitting; pulverizing a 500-700g subsample to 95% passing -150#; and a 125g split of this sent for assaying. All samples were assayed for CuT (total copper), CuS (acid soluble copper), CuCN (cyanide soluble copper) by AAS and for acid consumption. A full QA/QC program, involving insertion of appropriate blanks, standards and duplicates was employed with acceptable results. Pulps and sample rejects are stored by Coro for future reference.

Underground samples were taken as 2 metres continuous chip channel samples in previously carefully cleaned surface walls. Both adit walls were sampled by Coro personnel. The samples were transported to the Andes Analytical Assays (“AAA”) preparation laboratory in Calama. Samples were prepared and assayed as for the drill samples. No standards, blanks or duplicates were employed. After sampling, underground workings were geologically mapped in detail following a protocol adapted from that used for drill hole logging, with emphasis on mineralization and its structural and litohologic controls.

Figure 5: La Atómica intersections

HoleTD (m) FromTom%CuTType
LAR-43250 7290180.37Oxide
136190540.38Oxide
LAR-44300 3040100.40Oxide
 62116540.43Oxide
including647280.72Oxide
and10811460.75Oxide
 132176440.79Oxide
including150176261.24Oxide
 182228461.49Oxide
including198228302.16Oxide
 232258262.05Enriched-Mixed
258294360.41Primary
LAR-45350 50130800.40Oxide
including5270180.64Oxide
and86110240.52Oxide
 148158100.34Enriched
166180140.67Enriched
LAR-46190No Significant Results
LAR-47150 3468340.22Oxide
LAR-48150No Significant Results
LAR-49220 1878600.47Oxide
including2444200.80Oxide
 7082120.57Oxide
 92118260.86Mixed
including92108161.23Mixed
LAR-50250 5468140.71Oxide
17818460.28Oxide
LAR-51210 201321120.29Oxide
including104126220.46Oxide
 178196180.35Oxide
LAR-52300 224238140.31Oxide
 254296420.41Oxide
including25426280.60Oxide
and26627260.73Oxide
276296200.37Oxide
LAR-53160 84110260.67Oxide
LAR-54200No Significant Results
LAR-55200 707880.67Oxide

La Atómica intersections continued,

LAR-56150No Significant Results
LAR-57200No Significant Results
LAR-58250 11612040.42Oxide
 18419280.63Enriched
LAR-59250No Significant Results
LAR-60250 1026160.51Oxide
and132222900.42Oxide
including138186480.55Oxide
and200210100.51Mixed
LAR-61300 1236240.32Oxide
including11812460.52Oxide
 146156100.42Oxide
 24024880.51Mixed
LAR-62250 7696200.36Oxide
184200160.60Mixed
LAR-63250 42140980.63Oxide
including5066160.77Oxide
and104130261.34Oxide
 160194340.46Mixed - Enriched
including162174120.80Mixed - Enriched
LAR-64250 218160.34Oxide
and6880120.31Oxide
22423060.40Primary
LAR-65250 430260.57Oxide
including81681.18Oxide
LAR-66300 5284320.56Oxide
including6272101.28Oxide
and16417280.48Primary
LAR-67250and8296140.32Oxide
LAR-68350 270680.24Oxide
including224220.28Oxide
and3856180.33Oxide
627080.31Oxide
92110180.22Oxide
LAR-69300 2040200.71Oxide
and4870220.50Oxide
106144380.27Oxide
166192260.36Oxide
248260120.39Enriched


Figure 6: La Atómica Drill Collars

HoleEastingNorthingElevationAzimuthInclinationDepth
LAR-43374708.57435612.71090.8310-60250
LAR-44374704.77435599.51090.1355-60300
LAR-45374862.77435726.41103.8265-60350
LAR-46374593.47435657.61018.0220-60190
LAR-47374590.07435669.41017.6310-60150
LAR-48374455.07435795.8993.3310-60150
LAR-49374709.77435464.31052.1220-60220
LAR-50374713.27435469.31052.3310-60250
LAR-51374619.67435517.91057.5220-60210
LAR-52374616.27435522.41057.2310-60300
LAR-53374538.17435587.81026.0220-60160
LAR-54374536.27435591.51026.0310-60200
LAR-55374473.57435628.71004.6220-60200
LAR-57374388.97435713.8953.5220-60200
LAR-56374355.97435866.4956.2310-60150
LAR-58374709.37435857.41022.0220-60250
LAR-59374700.67435861.01021.7310-60250
LAR-60374724.97435739.71092.7220-60250
LAR-61374722.77435745.81092.5310-60300
LAR-62374661.57435806.71059.5310-60250
LAR-63374666.67435801.01059.8220-60250
LAR-64374663.37435670.31055.0310-60250
LAR-65374663.07435664.81055.0220-60250
LAR-66374596.07435731.21041.4310-60300
LAR-67374598.37435729.41041.3220-60250
LAR-68374614.47435517.81057.0265-60350
LAR-69374713.27435464.81052.1265-60300


Qualified Persons

The technical information in this news release, including the information that relates to geology, drilling and mineralization of the Marimaca Phase I and II exploration program was prepared under the supervision of, or has been reviewed by Sergio Rivera, Vice President of Exploration, Coro Mining Corp, a geologist with more than 36 years of experience and a member of the Colegio de Geologos de Chile and of the Institute of Mining Engineers of Chile, and who is the Qualified Person for the purposes of NI 43-101 responsible for the design and execution of the drilling program.

Contact Information
For further information please visit www.coromining.com or contact:
Nicholas Bias, VP Corporate Development & Investor Relations
Office:+56 2 2431 7601
Cell:+44 (0)7771 450 679
Email:nbias@coromining.com

Forward Looking Statements
This news release includes certain “forward-looking statements” under applicable Canadian securities legislation.  These statements relate to future events or the Company’s future performance, business prospects or opportunities. Forward-looking statements include, but are not limited to, statements regarding the future development and exploration potential of the Marimaca Project. Actual future results may differ materially. There can be no assurance that such statements will prove to be accurate, and actual results and future events could differ materially from those anticipated in such statements. Forward-looking statements reflect the beliefs, opinions and projections on the date the statements are made and are based upon a number of assumptions and estimates that, while considered reasonable by Coro, are inherently subject to significant business, economic, competitive, political and social uncertainties and contingencies. Many factors, both known and unknown, could cause actual results, performance or achievements to be materially different from the results, performance or achievements that are or may be expressed or implied by such forward-looking statements and the parties have made assumptions and estimates based on or related to many of these factors. Such factors include, without limitation: the inherent risks involved in the mining, exploration and development of mineral properties, the uncertainties involved in interpreting drilling results and other geological data, fluctuating metal prices, the possibility of project delays or cost overruns or unanticipated excessive operating costs and expenses, uncertainties related to the necessity of financing, the availability of and costs of financing needed in the future as well as those factors disclosed in the Company’s documents filed from time to time with the securities regulators in the Provinces of British Columbia, Alberta, Saskatchewan, Manitoba, Ontario, New Brunswick, Nova Scotia, Prince Edward Island and Newfoundland and Labrador. Accordingly, readers should not place undue reliance on forward-looking statements. Coro undertakes no obligation to update publicly or otherwise revise any forward-looking statements contained herein whether as a result of new information or future events or otherwise, except as may be required by law.

Photos accompanying this announcement are available at: 

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