Los Andes Announces the Second Batch of Results for the 2017 Drill Program at the Vizcachitas Deposit

Base Metals Investing
Copper Investing

Los Andes Copper Ltd. (TSXV:LA) , is very pleased to announce the results of the bottom portion of drill hole V2017-01A and all of V2017-02. Following the initial results published on June 30, 2017, these results further confirm the presence of higher grade mineralization in the project’s central core. The key results from the drill hole …

Los Andes Copper Ltd. (TSXV:LA, is very pleased to announce the results of the bottom portion of drill hole V2017-01A and all of V2017-02. Following the initial results published on June 30, 2017, these results further confirm the presence of higher grade mineralization in the project’s central core.
The key results from the drill hole V2017-02 are:

  • 88.0 m @ 0.60 % Cu, 389 ppm Mo and 1.5 g/t Ag (0.72 % CuEq) from 680.0 m downhole

Including:
44.0 m @ 0.66 % Cu, 449 ppm Mo and 1.6 g/t Ag (0.79 % CuEq) from 724.0 m downhole

  • 22.0 m @ 0.53 % Cu, 103 ppm Mo and 1.0 g/t Ag (0.57 % CuEq) from 138.0 m downhole
  • 54.0 m @ 0.55 % Cu, 126 ppm Mo and 1.7 g/t Ag (0.60 % CuEq) from 222.0 m downhole

Including:
20.0 m @ 0.72 % Cu, 86 ppm Mo and 2.2 g/t Ag (0.77 % CuEq) from 222.0 m downhole
As reported on June 30, 2017, drill hole V2015-01A demonstrated the continuity of the higher grade mineralization intersected during the successful 2015/2016 drilling campaign. Hole V2015-01A is 150 metres to the north of drill holes V2015-03 and V2015-05.
Drill hole V2017-02 is located on the same section as drill hole V2015-05 and V2015-03 and is 100 metres south of section for V2017-01A. The hole was drilled in a northwestern direction at an inclination of -65 degrees so that the hole is approximately 200 metres below drill hole V2015-05 on the section.
The drill hole has demonstrated the continuity of grade between the drill holes and the importance of the early diorite porphyry in the mineralisation of the deposit. The drilling results to date now demonstrate the continuity of the higher grade early diorite porphyry over a strike length of 200 metres from drill hole V2017-02 to V2015-08.
Cautionary Statement: All thicknesses from intersections from drill holes are down-hole drilled thicknesses. True widths cannot be determined from the information available.
Background
Historical drilling was carried out on the Vizcachitas project in three campaigns during 1993, 1996/1997 and 2007/2008. However, the higher grade central core had only been drilled in the 1990’s campaigns and with generally shallower drill holes, therefore not properly reflecting the potential of this core area.
During 2014, a complete review of the historical information was performed to better understand the project, including re-logging all of the 146 drill holes located within the property. The re-logging was led by Gonzalo Saldias, a Chilean geologist and one of the most recognized experts in Chilean porphyry systems. This detailed review showed that the historical logging and geological model had not properly identified the importance of the higher grade early diorite porphyry and hydrothermal breccias. The re-logging showed that these higher grade geological units extend over a distance of 1,400 metres north-south and 700 metres east-west. The mapping showed that these breccias have grades increasing with depth and demonstrates the potential for higher grades below the historical drilling.
In 2015, Los Andes began a drill program to confirm a new geological model and to demonstrate the extent of the central core mineralisation. A first stage of this campaign was completed in 2015/2016, with eight diamond drill holes totaling 3,661 metres. During 2017, Los Andes has carried out a second stage of this campaign with the purpose of demonstrating the northern and southern extension of the high grade core.
Location of Drill Holes:

HoleEastingNorthingElevation(metres)Azimut(degrees)Inclination(degrees)Final depth(metres)
V2017-01365,7786,413,5442,003110-60(69.90) Abandoned
V2017-01A365,7866,413,5342,003105-60851.25
V2017-02366,2786,413,2552,090290-651,030.60
V2017-03365,9366,413,8562,049290-80(62.00) Abandoned
V2017-04366.2006,413,0561,978110-70653.00
V2015-08 Ex365.1596,413,5422,154290-751,001.00
V2017-05365,9966,413,8792,080270-80931.90
V2017-06366,0376,413,5382,073110-65857.00
V2017-07366,0996,413,3372,046110-60721.10
V2017-08365,9966,413,8792,08015-70400.25
V2017-09365,7856,413,3771,993120-70(85.50) Abandoned
V2017-09B365,7856,413,3821,993120-75804.20
V2017-10365,6826,413,8782,04065-751,001.00
V2017-11365,7456,413,7452,02485-75735.90

 
All coordinates are in UTM WGS84
A drill hole location plan is available on our website: www.losandescopper.com
Summary of Drill Holes
Drill Hole V2017-01A
This hole was drilled on the southwestern part of the central core with a southeastern direction. The drill hole is 150 metres north the 2015 drill holes V2015-03 and V2015-05. The drill hole is also 100 metres south of the 2015 drill hole V2015-08.
The top of bedrock was intersected at 71.9 metres in diorite porphyry with disseminated chalcopyrite which continued to a depth of 238.0 metres. Within this sequence there was secondary enrichment from 134 to 162 metres where the average grade was 0.61 % Cu, 42 ppm Mo and 1.6 g/t Ag. At a depth of 238 metres the rock type changed to medium grained diorite and continued to a depth of 513.15 metres. Within this sequence there is a well mineralised sequence running from 226 metres to 360 with 0.60 % Cu, 150 ppm and 1.5 g/t Ag. From a depth of 513.15 to the end of the drill hole at depth of 851.25 metres the drill hole is primarily in igneous breccias and hydrothermal breccias.
This drill hole has demonstrated the continuity of the mineralisation between the drill holes 2015/2016 drill holes to the north and south. This near surface mineralisation would be mined during the first few years of an operating mine. It also shows the high primary grades within the medium grained diorites. These early phase diorites consistently have grades above 0.5 % Cu and are the target of this drilling campaign.
Key intersections from drill hole V2017-01A:

Hole NumberDepth From (m)Depth To (m)Length (m)Cu %Mo ppmAg g/tCuEq %
V2017-01A71.9374.0302.10.551151.40.59
including134.0162.028.00.61421.60.63
including226.0360.0134.00.601501.50.65
V2017-01A702.0720.018.00.413671.00.51

 
Copper equivalent grade has been calculated using the following expression: Cu Eq (%) = CuT (%) + 2.5 x Mo (%) + 110.55 x Ag (%), using the metal prices: $ 2.2 / lb. Cu, $5.5 / lb. Mo and $15.2 / Oz (same reference prices as in reporting of 2015/2016 results). All thicknesses from intersections from drill holes are down-hole drilled thicknesses. True widths cannot be determined from the information available.
Drill Hole V2017-02
Drill hole V2017-02 is located on the same section as drill hole V2015-05 and V2015-03 and is 100 metres to the south of section for V2017-01A. The hole was drilled in a northwestern direction at an inclination of -65 degrees so that the hole is approximately 200 metres below drill hole V2015-05 on the section. The hole was drilled to test the vertical extent of the mineralisation identified in V2015-05 and the north-south strike length of the early diorite porphyry intersected in V2015-08.
The top of bedrock was intersected at a depth of 63 metres in a hydrothermal breccia with a high pyrite to chalcopyrite ratio. At a depth of 138 metres a well mineralised andesite was intersected. The assay results for the top of this unit are from a depth of 138 metres 0.53 % Cu, 103 ppm Mo and 1.0 g/t Ag (0.57 % CuEq) over a length of 22 metres.
From depth of 205 metres the drill hole intersected a long sequence of andesites and hydrothermal breccias down to a depth of 428 metres. This demonstrates the vertical extent of a similar sequence of rock types intersected in the drill hole V2015-05. The significant assay results within this sequence are shown in the table below.
At a depth of 683 metres the drill hole intersected the early diorite porphyry as proposed by the updated geological model. This early diorite porphyry had assay results from a depth of 680 metres of 0.60 % Cu, 389 ppm Mo, 1.5 g/t Ag (0.72 % CuEq) over a length of 88 metres. This further demonstrates the importance of this early stage porphyry unit in mineralisation of the deposit and confirms the north-south continuity from the drill hole V2015-08 200 metres to the north.
The drill hole then continued in a sequence of later stage tonalities, granodiorites and diorites to a final depth of 1030.6 metres.
Key intersections from drill hole V2017-02:

Hole NumberDepth From (m)Depth To (m)Length (m)Cu %Mo ppmAg g/tCuEq %
V2017-02138.0160.022.00.531031.00.57
V2017-02222.0276.054.00.551261.70.60
including222.0242.020.00.72862.20.77
V2017-02310.0326.016.00.502641.40.58
V2017-02402.0428.026.00.501361.40.55
V2017-02680.0768.088.00.603891.50.72
including724.0768.044.00.664491.60.79

 
Copper equivalent grade has been calculated using the following expression: Cu Eq (%) = CuT (%) + 2.5 x Mo (%) + 110.55 x Ag (%), using the metal prices: $ 2.2 / lb. Cu, $5.5 / lb. Mo and $15.2 / Oz (same reference prices as in reporting of 2015/2016 results). All thicknesses from intersections from drill holes are down-hole drilled thicknesses. True widths cannot be determined from the information available.
QA/QC
Quality assurance and quality control procedures include the systematic insertion of duplicate and standard samples in to the sample stream. Drill core samples were sawn in half, labelled, placed in sealed bags and were shipped directly to the preparatory laboratory of ALS Minerals in Coquimbo, Chile. All geochemical analyses were performed by ALS Minerals in Lima Peru. All samples were assayed using the method ME-MS61, a four-acid digestion with an ICP-MS finish. Copper samples with grades above 0.6 % Cu were reanalysed using ALS method Cu-OG62, a four-acid digestion with an AAS finish.
Mr. Amberg MSc CGeol FGS is the Qualified Person responsible for the preparation of this news release.
Team Credentials
Mr. Amberg MSc CGeol FGS is a geologist who is a graduate of the Royal School of Mines, London, has an MSc. from University College and is also a Chartered Geologist with the Geological Society of London. He has close to 30 years of diverse experience having worked in Asia, Africa and South America for both multinational and junior companies. He began his career in 1986 working with Anglo American in South Africa before moving on to an exploration position with Severin-Southern Sphere. In 1990 Mr. Amberg moved to Chile where he first worked with Bema Gold on the Refugio project before taking up a position with Rio Tinto. At Rio Tinto he was involved in exploration programs in the Atacama and Magallanes Regions and managed the Barreal Seco (now part of Las Cenizas) exploration program. In 1996 he joined Kazakhstan Minerals Corporation in Kazakhstan, setting up and managing offices for the drilling and resource estimation for JORC compliant feasibility studies on three large projects that are now operating mines. He became General Director for two joint ventures in KazMinCo where he managed all technical and local issues. In 2001 he returned to Chile where he started a geological consulting firm specialising in project evaluation and NI 43-101 technical reports. Mr. Amberg’s clients included Rio Tinto, Barrick, Codelco, Anglo American, Pan Pacific Copper and various junior mining companies. He joined Los Andes Copper in 2012 as Chief Geologist and is now also the President and Chief Executive Officer.
Mr. Amberg MSc CGeol FGS is a Qualified Person under NI 43-101.
Gonzalo Saldias is a geologist who is a graduate of Universidad Católica del Norte, Chile. He has over 35 years of experience working within Chile and internationally; mainly on copper porphyry, epithermal gold silver and iron-oxide copper gold systems. For the last seven years, he worked for Antofagasta Minerals evaluating copper porphyry projects within Chile, assessing their geological and economical potential. Prior to that he had worked for ten years with Placer Dome Latin America, generating and evaluating exploration projects within the region. Prior to Placer Dome, he worked for Codelco as head of exploration geology for the El Salvador Division, developing the prospective areas near to the mine. He also worked for Northern Resources, Homestake, Utah, Anaconda and as an independent consultant.
For more information please contact:
Antony J. Amberg, President & CEO
Tel: +56 2 2954-0450
Aurora Davidson, CFO
Tel: 604-697-6207
E-Mail: info@losandescopper.com or visit our website at: www.losandescopper.com
Certain of the information and statements contained herein that are not historical facts, constitute “forward-looking information” within the meaning of the Securities Act (British Columbia), Securities Act (Ontario) and the Securities Act (Alberta) (“Forward-Looking Information”). Forward-Looking Information is often, but not always, identified by the use of words such as “seek”, “anticipate”, “believe”, “plan”, “estimate”, “expect” and “intend”; statements that an event or result is “due” on or “may”, “will”, “should”, “could”, or might” occur or be achieved; and, other similar expressions. More specifically, Forward-Looking Information involves known and unknown risks, uncertainties and other factors which may cause the actual results, performance or achievements of the Company, or industry results, to be materially different from any future results, performance or achievements expressed or implied by such Forward-Looking Information; including, without limitation, the achievement and maintenance of planned production rates, the evolving legal and political policies of Chile, the volatility in the Chilean economy, military unrest or terrorist actions, metal and energy price fluctuations, favourable governmental relations, the availability of financing for activities when required and on acceptable terms, the estimation of mineral resources and reserves, current and future environmental and regulatory requirements, the availability and timely receipt of permits, approvals and licenses, industrial or environmental accidents, equipment breakdowns, availability of and competition for future acquisition opportunities, availability and cost of insurance, labour disputes, land claims, the inherent uncertainty of production and cost estimates, currency fluctuations, expectations and beliefs of management and other risks and uncertainties, including those described in Management’s Discussion and Analysis in the Company’s financial statements. Such Forward-Looking Information is based upon the Company’s assumptions regarding global and Chilean economic, political and market conditions and the price of metals and energy, and the Company’s production. Among the factors that have a direct bearing on the Company’s future results of operations and financial conditions are changes in project parametres as plans continue to be refined, a change in government policies, competition, currency fluctuations and restrictions and technological changes, among other things. Should one or more of any of the aforementioned risks and uncertainties materialize, or should underlying assumptions prove incorrect, actual results may vary materially from any conclusions, forecasts or projections described in the Forward-Looking Information. Accordingly, readers are advised not to place undue reliance on Forward-Looking Information. Except as required under applicable securities legislation, the Company undertakes no obligation to publicly update or revise Forward-Looking Information, whether as a result of new information, future events or otherwise.
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.
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Source: www.newsfilecorp.com

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