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Peru

La Arena Mine

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Overview

Mine TypeOpen Pit
StatusActive
Commodities
  • Gold
  • Silver
Mining Method
  • Truck & Shovel / Loader
Production Start... Lock
SnapshotLa Arena is an open-pit, heap leach gold mine producing doré, where exploration success has extended the mine’s life.

A preliminary economic assessment (PEA) was released in February 2018 on the sulphide expansion, La Arena II.

Owners

SourceSource
CompanyInterestOwnership
Pan American Silver Corp. 100 % Indirect
Pan American Silver Corp. has 100% ownership of the La Arena mine, through its wholly-owned Peruvian subsidiary La Arena S.A.

On November 05, 2024, Pan American Silver Corp. announced the sale of its 100% interest in La Arena S.A., which owns the La Arena gold mine as well as the La Arena II project in Peru, to Jinteng (Singapore) Mining Pte. Ltd., a subsidiary of Zijin Mining Group Co., Ltd. (collectively, "Zijin"), has received approval from the Government of Canada under the Investment Canada Act.

The transaction now has all of the necessary regulatory approvals and is expected to close by the end of the fourth quarter of 2024.

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Contractors

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Deposit type

  • Sandstone hosted
  • Porphyry
  • Epithermal

Summary:

Two types of mineralized deposits are recognized at the La Arena property – high-sulfidation epithermal gold deposits and porphyry-hosted copper-gold deposits. The epithermal gold deposits are hosted in sediments of the Lower Cretaceous Chimu Formation and the copper-gold deposit is hosed in Oligocene-age multi-stage intermediate intrusions.

Both deposits are characterized by alteration and mineralization occurrences as defined and described by Hedenquist (1987), Hedenquist and Lowenstern (1994), Arribas (1995) and Sillitoe (2010), among others. The epithermal gold deposit currently being mined is characterized by supergene oxidized high-sulfidation mineralization, which occurs in fractured sandstones and hydrothermal breccia zones. The porphyry deposit is dominated by primary copper sulfides with gold and lesser molybdenum.

High sulfidation epithermal gold deposits form in geothermal systems where hot acidic hydrothermal fluids emanate directly from an intrusive source and generally remain undiluted by ground water. As is the case at La Arena, these deposits often represent the upper parts of porphyry systems where the two types of mineralization often overlap. High-sulfidation deposits can display a wide variety of mineralization styles, including veins, hydrothermal breccias, stockwork, and disseminations or replacements.

In porphyry deposits, the sulfide ore minerals are dominantly structurally-controlled, with most mineralization occurring as close-spaced and cross-cutting vein stockwork, vein arrays, fractures, breccias and disseminations. In the hypogene portions of copper porphyry deposits, the copper occurs predominantly as chalcopyrite; other important copper ore minerals may include bornite and enargite. Supergene copper mineralization is generally dominated by chalcocite and lesser covellite.

The La Arena project area contains epithermal-style gold mineralization in sandstone-hosted oxidized fractures and breccia, and porphyry copper-gold (±molybdenum) mineralization. Both styles of mineralization are spatially and genetically linked as they likely emanated from the same residual magmatic activity related to intrusions of intermediate composition.

The mineralization at La Arena as currently defined extends over a length of 2.2 kilometers north-south and 1.1 kilometers east-west, with a vertical extent of mineralization in the porphyry exceeding 1,200 meters. Drilling in the porphyry has not defined the lower limits of mineralization, as analytical results from the deepest drill holes in the deposit do not indicated a decrease in copper and gold grades at depth.

High-Sulfidation Epithermal Gold Mineralization
Four separate zones of breccias containing anomalous gold have been recognized around the western and northern margins of the La Arena Porphyry, two of which have demonstrated economic viability. The Ethel oxide gold deposit was exhausted by the property’s previous owner, Rio Alto, who also initiated mining of the Calaorco oxide gold deposit; Tahoe continues operations at the Calaorco pit.

High-sulfidation epithermal gold mineralization currently being mined in the Calaorco open pit occurs partly in the Calaorco Breccia located at the contact between well-fractured Chimu quartz sandstones and the overlying intrusive, within un-brecciated fractured sandstones, and within the intrusive along its contact with the sediment package. Located to the north of the Calaorco open pit, the Ethel breccia is a similar but smaller oxidized epithermal gold deposit.

Gold mineralization is both lithologically and structurally controlled, and occurs primarily in silicified fractured sandstones and locally in hydrothermal breccias. Structural control is mainly associated to the principle northwestsoutheast Andean orientation and secondary to tensional fracturing, as well as to bedding planes. Tensional fracturing has acted as a principal fluid channel way, containing oxidized high sulfidation epithermal gold mineralization. Fine grained native gold is free in small proportions as is electrum.

The Calaorco breccia lies parallel to the contact between the Chimu sandstones and the porphyry. Gold mineralization occurs within the Calaorco breccia approximately 700 meters in length (southeast-northwest) with a slight deflection to the north at depth. The width of mineralization varies from 100 to 300 meters from the contact between sandstone and porphyry. Gold mineralization is most pronounced within the oxide zone, which can extend to depths of more than 250 meters below the surface.

Higher-grade zones of gold mineralization are directly controlled by the intersection of southwest-northeast faults which transverse the mineralized trend oriented to the northwest- southeast. The northwest-trending ‘feeder’ structures, locally termed Tilsa structures have a strike length of approximately 300 meters and thicknesses ranging from a few centimeters to several meters, with a grade of 80 to 100 g/t of gold not uncommon. Lower grade gold mineralization occurs as thin stockwork and disseminations within the Chimu sandstone.

Porphyry-hosted Copper-Gold Mineralization
Copper-gold mineralization is associated with phyllic (quartz-sericite) and potassic (secondary biotite + magnetite + potassium feldspar) alterations, which is dominated principally by pyrite and chalcopyrite with lesser amounts of bornite, covellite, chalcocite and molybdenite. Mineral zoning from surface downwards below the oxidized cap is typically about 40 to 50 meters for the zone of secondary enrichment (chalcocite + covellite ± copper oxides) and ten to 40 meters for the mixed oxide-sulfide transitional zone (chalcocite + chalcopyrite ± covellite). The top of the primary sulfide mineralized zone (chalcopyrite ± bornite) which predominates at La Arena is typically located at depths in excess of 100 meters from the surface.

The copper-gold porphyry at La Arena II comprises an elongated mineralized body approximately 1,400 meters in length (oriented northwest-southeast) and 200 to 400 meters wide. Mineralization occurs as disseminations along hairline fractures as well as within larger veins. Mineralization has been identified by drilling to depths of 1,000 meters below the surface which shows the porphyry to be narrowing, but with no decrease in copper and gold grades.

Sulfide mineralization consists of pyrite, chalcopyrite and molybdenite, with accessory pyrrhotite, sphalerite, galena, arsenopyrite, marcasite and rutile. Very fine (~25 microns) particles of native gold have been observed. The FPA-2 intrusion has the most abundant copper and gold mineralization that is associated with phyllic (quartz-sericite) and potassic (secondary biotite, magnetite, K feldspar) alteration with copper grades ranging from nil to locally greater than one percent; gold grades range from nil to locally greater than one gram per tonne. Lower grade copper-gold mineralization is related to the intra-mineral FPA-3 intrusion, which locally contains copper grades up to 0.5 percent and gold grades up to 0.5 grams per tonne.

Reserves

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Mining Methods

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Comminution

Crushers and Mills

Milling equipment has not been reported.

Processing

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Production

CommodityUnits2024202320222021202020192018201720162015
Gold koz  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe123 149 196 204 230 
Silver koz  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe263424
All production numbers are expressed as metal in doré. ^ Guidance / Forecast.

Operational metrics

Metrics20232022202120202019201720162015
Ore tonnes mined  ....  Subscribe  ....  Subscribe  ....  Subscribe12,792 kt15.7 Mt12.8 Mt
Waste  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe32.5 Mt21.9 Mt
Tonnes processed  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe11,190 kt12,868 kt15.3 Mt9.68 Mt
Daily processing capacity  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe36,000 t36,000 t36,000 t
Stripping / waste ratio  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe1.9 2.07 1.85
Total tonnes mined  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe48.1 Mt34.6 Mt

Production Costs

CommodityUnits2024202320222021202020192017
Cash costs (sold) Gold USD  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe 644 / oz **  
Total cash costs Gold USD 602 / oz  
Total cash costs Gold USD 599 / oz **  
All-in sustaining costs (sold) Gold USD  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe 1,042 / oz **  
All-in sustaining costs (AISC) Gold USD 837 / oz **  
^ Guidance / Forecast.
** Net of By-Product.

Operating Costs

Currency2017
OP mining costs ($/t mined) USD  ....  Subscribe
Processing costs ($/t milled) USD  ....  Subscribe
Total operating costs ($/t milled) USD  ....  Subscribe

Financials

Units2024202320222021202020192017
Capital expenditures (planned) M USD  ....  Subscribe
Capital expenditures M USD  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe 47.6   32  
Sustaining costs M USD  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe 47.6   32  
Revenue M USD  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe 174.8   233.8  
Operating Income M USD  ....  Subscribe  ....  Subscribe  ....  Subscribe  ....  Subscribe 60   59.3  

Heavy Mobile Equipment

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Personnel

Mine Management

Job TitleNameProfileRef. Date
....................... Subscription required ....................... Subscription required Subscription required Jul 24, 2024
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EmployeesContractorsTotal WorkforceYear
...... Subscription required ...... Subscription required ...... Subscription required 2023
...... Subscription required 2022
...... Subscription required 2021
...... Subscription required ...... Subscription required 2015

Aerial view:

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