Agnew Complex

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Mine TypeOpen Pit & Underground
  • Gold
Mining Method
  • Truck & Shovel / Loader
  • Sub-level stoping
  • Longhole open stoping
  • Room-and-pillar
Backfill type
  • Cemented paste backfill
Production Start1980
Mine Life2028
SnapshotAgnew comprises the amalgamated Agnew and (former) Lawlers mines. Agnew currently operates two underground mines, namely Waroonga and New Holland.

Mining in the Barren Lands open pit was completed in 2023 and portal development for the underground operations commenced.

Agnew is one of the first gold mines in the world to generate over half of its electricity requirements from renewable sources.

LOM extension remained a key focus area for Agnew in 2023. Further early-stage exploration continues across the broader tenement package on prioritised prospects.
Related Asset


Gold Fields Ltd. 100 % Indirect
The Agnew Gold Mining Company Proprietary Limited (AGMC), was incorporated as the legal entity holding and conducting mining activity on the Agnew mineral leases. Gold Fields holds 100% of the issued shares of AGMC through its 100% holding in the issued shares of Orogen Holding (BVI) Limited.


ContractorContractDescriptionRef. DateExpirySource
Barminco Holdings Pty Ltd. Mining Agnew mine is made up of both Waroonga and New Holland underground operations. Barminco provides diamond drilling to both sites and, underground production mining and underground development services at Waroonga operations. Approximately 190 people work across both sites, with production rates of approximately 0.5Mt per year. Under the contract extension, Perenti will continue underground development and production works at the Agnew underground gold mine for a period of 12 months. Jan 18, 2024
EDL Power supply The Agnew Hybrid Renewable Project has delivered Australia’s largest hybrid renewable energy microgrid—the first in the country to utilise wind generation on a large scale at a mine site. EDL delivered this innovative hybrid renewable energy system under a 10-year agreement with Gold Fields. Start of operation: May 2020 The microgrid at Agnew comprises four key components managed by an advanced control system: • five 110m wind turbines, each with a rotor diameter of 140m, delivering 18MW • a 10,710-panel solar farm generating 4MW • a 13MW/4MWh battery system • off-grid 21MW gas/diesel engine power plant. Apr 19, 2024 2030
MLG Oz Ltd. Haulage The renewal and extension of contracts with Gold Fields, meanwhile, will see MLG’s current Agnew operations continue, with the term extended for a minimum three-year period with an additional optional extension period of two years at Gold Fields’ discretion. This award extends MLG’s delivery of integrated site services and haulage activities to Gold Fields’ Agnew operation out to 16 years. At Barren Lands, the open-pit mining contract award with Gold Fields will see MLG Oz develop a new pit through the provision of heavy earthworks. Included within this is a Liebherr 9150 excavator. Nov 30, 2022 16

Deposit type

  • Vein / narrow vein
  • Breccia pipe / Stockwork
  • Hydrothermal


Agnew is located in the northern portion of the north-northwest trending Archean Norseman-Wiluna Greenstone Belt, which forms part of the Yilgarn Craton, a 2.7 Ga granite-greenstone terrain in southern Western Australia.

Gold deposits along the Norseman-Wiluna Greenstone Belt are hosted within a diverse range of rocks, including basalts and dolerites, fine to coarse-grained sedimentary rocks, and felsic to intermediate intrusives. Host rocks are commonly metamorphosed to greenschist or lower amphibolite facies. Gold mineralisation is typically structurally controlled, occurring within a network of shear zones proximal to major regional faults. The most important gold mineralisation styles are shear hosted quartz-carbonate bearing breccia lodes and associated quartz vein arrays, together with finely disseminated gold associated with zones of strong hydrothermal alteration. Alteration comprises silica or albite-rich zones, associated with ankerite, sericite, biotite or amphibole, together with pyrite, pyrrhotite or arsenopyrite as sulphide-bearing phases.

The most substantial gold deposits and the focus of most previous exploration and mining activity at Agnew are located along the western limb of the Lawlers anticline (Waroonga, Redeemer and New Holland complexes) spatially related to the north-northwest trending Waroonga and EMU shears.

Although all Agnew deposits broadly occur at the intersections between structures and stratigraphy, there are subtle differences in alteration and mineralisation that are controlled in part by the local host rock chemistry. Mineralisation zones are discontinuous with short range predictability.

Significant deposits are also found on the eastern limb (e.g. McCaffery, Fairyland) and associated with late-stage geological cross-structures (Lawlers). These deposits were explored and mined by previous owners of the Property.

While most of the western limb deposits are broadly related to intersections between structures and mafic-ultramafic stratigraphy, there are subtle differences in alteration and mineralisation controlled in part by the local host rock chemistry. Songvang is unusual in its relatively high lead, silver and fluorine content, possibly reflecting input from tonalite and porphyry intrusions. There also appears to be a slight decline in mineralisation temperatures from south to north, associated with the north plunge of the Lawlers anticline and resultant erosion of the overlying, lower temperature rocks to the south. This temperature change is reflected in the changing mineralisation styles from south to north, with biotite-garnet alteration assemblages dominating to the south and quartz veining to the north.

The New Holland complex is located between the Waroonga and EMU shears within a locally mineralized zone known as the Glasgow Lass trend, hosted by sedimentary rocks of the Scotty Creek Formation. The sedimentary rocks at this locality strike north-south and dip steeply to the west. Gold mineralisation is largely confined to quartz veins wil n sandstone and siltstone. Ore zones occur in discrete veins at low angles, dipping predominantly to the east. Higher grade westerly dipping quartz veins are also present in sandstone. The eastern contact of the sandstone is erosional and sharp, resting on siltstone. The western contact is gradational, fining to very fine-grained sand and siltstone.

Reserves at December 31, 2023

Mineral Reserves cut-off for underground 3.0 – 4.8 g/t and for open pit 0.97 g/t.

Mineral Resources cut-off for underground 2.3 – 4.2 g/t and for open pit 0.84 – 1.00 g/t.
CategoryOre TypeTonnage CommodityGradeContained Metal
Proven Stockpiles 29 kt Gold 7.7 g/t 7 koz
Probable In-Situ (OP) 91 kt Gold 3.4 g/t 10 koz
Probable In-Situ (UG) 3,858 kt Gold 6.9 g/t 855 koz
Probable Total 3,949 kt Gold 6.8 g/t 865 koz
Proven & Probable Total 3,978 kt Gold 6.8 g/t 872 koz
Measured In-Situ (UG) 93 kt Gold 5.5 g/t 17 koz
Indicated In-Situ (OP) 1,310 kt Gold 2.5 g/t 105 koz
Indicated In-Situ (UG) 4,874 kt Gold 5 g/t 777 koz
Indicated Total 6,184 kt Gold 4.4 g/t 883 koz
Measured & Indicated In-Situ (UG) 4,967 kt Gold 5 g/t 794 koz
Measured & Indicated Total 6,277 kt Gold 4.5 g/t 899 koz
Inferred In-Situ (OP) 282 kt Gold 4.6 g/t 42 koz
Inferred In-Situ (UG) 3,825 kt Gold 4.3 g/t 523 koz
Inferred Total 4,108 kt Gold 4.3 g/t 564 koz

Mining Methods

  • Truck & Shovel / Loader
  • Sub-level stoping
  • Longhole open stoping
  • Room-and-pillar


The mining process and methods comprises two principal activities: (i) developing access to the orebody: and (ii) extracting the orebody once accessed. These two processes apply to both surface and underground mines.

Open pit
In open pit mining, access to the orebody is achieved by stripping the overburden in benches of fixed height to expose the ore below. This is most typically achieved by drilling and blasting an area, loading the broken rock with excavators into dump trucks and hauling the rock and/or soil to dumps. The overburden material is placed on designated waste rock dumps.

Extraction of the orebody involves a similar activity as in stripping the overburden. Lines are established on the pit floor demarcating ore from waste material and the rock is then drilled and blasted. Post blasting, the ore is loaded into dump trucks, based on a defined ‘dig plan® demarcating the position of the ore and waste boundaries post the heave and throw movement caused by the blasting, and hauled to interim stockpiles or directly to the crusher at the process plant, while the waste is hauled to waste rock dumps.

There has been no open pit mining at Agnew since 2012, but this will change in H2 2022 with Barren Lands Open pit planned to start.

Open pit mining will be by conventional drill and blast, with truck and shovel operations. Overall, the pits represent 4 % of the total reserve ounces for Agnew.

The open pits are seen as a consolidated approximate 12-month duration opportunity to ensure critical mass in mobilizing a contractor to complete all the open pits then de-mobilize. The drill, blast, truck and shovel equipment supplied will be supportive of mining the narrow orebodies with minimum dilution.

The open pits will be sequenced together to optimize the waste strip and expedite the ore to the processing facility. Agnew is not expecting to build significant stockpiles for future processing.

Mining in the Barren Lands open pit was completed in 2023 and portal development for the underground operations commenced.

For Agnew’s underground mines, access is through single or multiple decline haulages extending from surface portals. Horizontal and decline development at various intervals from the main decline, known as levels, extend laterally and provide access to the ore horizons for mining.

Once an orebody is accessed for mining (or stoping), production activities consisting of drilling, blasting, cleaning, ground support and transporting rock, which are carried out on a daily basis.

Broken ore is loaded straight from the stope face into trucks, using mechanical loaders, and hauled to the surface by underground dump trucks via the declines. Application of backfill or paste fill to the mined-out areas to support the ground is based on local conditions and is not always required in shallow underground mining areas.

Both Waroonga and New Holland are established mines with existing infrastructure. The Redeemer Complex is proximal to the historic underground, and includes establishment of a new portal, surface infrastructure, declines, and underground infrastructure.

Mining operations at Agnew are carried out by a mixture of owner-operators and contractors, with equipment replacement schedules and leasing requirements considered in the mine plans. The reserves life of mine plan and associated financial models include sufficient infrastructure and sustaining capital investment for all mines to execute the life of mine plan.

The primary mining method at Waroonga is long-hole sublevel stoping with paste fill.

Waroonga is predominantly mined using open stoping with cemented paste fill where required. The underground mining is carried out under contract to Barminco including the supply of all equipment.

The mining method at Waroonga involves development of a hangingwall access drives parallel to the orebody, from which crosscuts are mined into the mineralized lode. Ore drives are mined north and south, with long-hole open stopes of 15 m to 25 m strike lengths. The level spacing is 20 m to 25 m floor to floor. Stopes, once complete, are backfilled with cemented paste fill where required, produced from screened dry tailings with the addition of sand and cement as a binder. Backfill is used for regional stability, minimize mining spans and to increase ore extraction ratios.

The general sequence for most of the mine is top-down, maintaining a 45° advancing front, retreat mining along strike under exposed paste fill from the mined-out levels. In some areas, including the upper parts of the FBH orebody and Waroonga North, a bottom-up mining sequence was introduced to provide additional mining areas.

The Edmunds orebody sits in the footwall of the Kim South lode and is generally accessed from the Kim South crosscuts after paste filling on the level that has been completed. The Edmunds mining method is similar to the Kim South orebody, with a retreat stoping sequence. Edmunds strike lengths are between 15 m to 20 m, and all stopes are paste filled allowing improved extraction of the ore.

The mining method employed for the Main orebody evolved considerably over previous years. Modifications and redesigns to both on-level development and stoping extraction are made as the geological and geotechnical understanding improves.

The FBH mining area is located approximately 350 m along strike to the south of the Kim South orebody, and consists of multiple north-south narrow lodes dipping 65° to the west. The mining method for FBH is long-hole open stoping with paste fill. Stoping is top-down or bottom-up. FBH uses parallel developed tunnels with stoping retreating to the central accesses. Stope sizes are adjusted depending on competent or poor ground conditions.

New Holland
The mining methods used for the Mineral reserves at New Holland are inclined room and pillar and long-hole open stoping. All underground mining is completed by an owner-operator team.

Long-hole open stoping is the principal ore extraction method, accounting for the majority of ore tonnes. Where necessary, rib and crown pillars are employed to maintain the stability of the stopes. Arch designed stope crowns assist stability.

Island pillars optimize extraction and are incorporated into the mine design when the dominant westerly-dipping structures are encountered. Pillar spans and spacing are based on the results of numerical stability modelling.

The undeveloped Redeemer Zone 2 and Barren Lands underground is offset to the north of the former Redeemer mine which is backfilled with tailings. Redeemer Zone 2 is 1 m to 10 m wide, with the majority of the targeted ore ranging from 1.5 m to 3.0 m wide at an inclination of 70 ° to 90 °. The mine is 200 m to 500 m below surface with an orebody horizontal extent of circa 400 m.

Redeemer Zone 2 and Barren Lands underground will be mined by long-hole open stoping with rib pillars and selective paste fill, top-down and a circa 45 ° geotechnical production front. A central access design allows for northern and southern ore drives along the orebody. Stoping retreats to the central access.


Crushers and Mills

Jaw crusher 1
Cone crusher 2
Ball mill 1200 kW 2


The crushing circuit comprises of a primary jaw crusher followed by a secondary and two tertiary crushers in closed circuit with double deck screens. Crushed product is fed from the fine ore stockpile and ground to 80 % passing 125 um using a two-stage closed circuit primary and secondary ball milling circuit with two overflow type ball mills and 1,200 kW motors.

In 2022, Agnew complete the mill crushing circuit replacement:

The construction of a new crusher was completed. It comprised a 3 Stage crushing plant. Additionally, a fine ore bin was installed for dust management within the crushing area. The mill throughput was increased to 1.4Mtpa, with future-proofing for up to 1.7Mtpa.


  • Gravity separation
  • Carbon re-activation kiln
  • Centrifugal concentrator
  • Crush & Screen plant
  • Concentrate leach
  • Agitated tank (VAT) leaching
  • Inline Leach Reactor (ILR)
  • Carbon in pulp (CIP)
  • Elution
  • Carbon adsorption-desorption-recovery (ADR)
  • Solvent Extraction & Electrowinning
  • Cyanide (reagent)


The Agnew processing plant consists of a tertiary crushing circuit, followed by a two-stage ball milling circuit with gravity and a conventional leach/CIP gold recovery circuit (1.35Mtpa capacity).

The plant capacity was increased to 1.35Mtpa at the end of 2022.

The gravity circuit comprises two 40" QS40 Knelson concentrators with dedicated InLine Leach Reactor for intensive cyanidation of the gravity concentrate.

The leach circuit is comprised of three air agitated Pachuca leach tanks each providing an effective volume of 4,100 m3. The adsorption circuit consists of six air agitated Pachuca adsorption tanks with an effective volume of 3,000 m3. Each adsorption tank is fitted with “V" style inter-stage screens and an airlift carbon advance system. Loaded carbon is recovered from the first adsorption tank via a vibrating loaded carbon screen. Loaded carbon from the adsorption circuit reports to the acid wash hopper where it undergoes a hot hydrochloric acid wash.

Acid washed carbon is loaded into a pressure Zadra elution column followed by electrowinning at approximately 130°C and 350 kPa. The elution column has a 3.0 t capacity and one elution is conducted each day. Barren carbon from the elution circuit is regenerated in a carbon regeneration kiln.

Gold sludge from both the gravity and electrowinning circuits is washed and filtered. The sludge is further refined through smelting and crude doré is poured. Gravity doré bars are approximately 90 % to 95 % gold whereas doré bars from the CIP circuit are dependent on ore feed characteristics and can vary between 65 % and 80 % gold. Doré is dispatched to the Perth Mint refinery for further processing into gold bullion.

Recoveries & Grades:

Gold Recovery Rate, % 95959594.694.294.294.493.694.8
Gold Head Grade, g/t

Pipelines and Water Supply

Tailings pipeline 15.7 km


All water used at Agnew is sourced from groundwater. The primary and largest use of groundwater is for ore processing, followed by dust suppression, paste plant operations and potable water.

Mine dewatering is reused within the underground mine for dust suppression, the paste plant and to supplement process water. Return water return from the tailings storage facilities is the largest source of water for the process plant. A water supply of up to 4,900 kl/day is required for processing.

Additional water is supplied from the Fairyland borefield (located approximately 22km from the process plant) and the Daisy Queen borefield (located approximately 12km from the process plant), EMU borefield (approximately 2km from process plant) and the former Hidden Secret open pit at New Holland.

The current operation is utilizing 50 percent of the licenced allocation (3,377,980 kl/annum of 6,810,000 kl/annum) across three GWLs. 2 Gl/annum is required for mine make-up water requirements.


Gold koz 235 ^245239223233219238241229237
All production numbers are expressed as metal in doré. ^ Guidance / Forecast.

Operational metrics

Plant annual capacity 1.35 Mt1.35 Mt1.35 Mt1.3 Mt1.3 Mt1.3 Mt1.3 Mt1.3 Mt1.3 Mt
Waste 4,037 kt1,450 kt
Ore tonnes mined 1,326 kt1,108 kt1,048 kt1,294 kt1,284 kt1,216 kt1,174 kt1,208 kt1,199 kt
Total tonnes mined 5,363 kt2,559 kt1,941 kt2,044 kt1,961 kt1,955 kt1,905 kt1,983 kt1,939 kt
Tonnes processed 1,342 kt1,198 kt1,254 kt1,357 kt1,231 kt1,178 kt1,235 kt1,176 kt1,218 kt
Waste UG 893 kt750 kt678 kt739 kt731 kt774 kt740 kt

Production Costs

All-in sustaining costs (sold) Gold USD 1,257 / oz ^ **   1,182 / oz **   1,130 / oz **   1,164 / oz **   1,017 / oz **   1,152 / oz **   1,026 / oz **   977 / oz **  
All-in costs Gold USD 1,393 / oz ^ **   1,288 / oz **   1,298 / oz **   1,308 / oz **   1,053 / oz **   1,152 / oz **   1,026 / oz **   977 / oz **  
^ Guidance / Forecast.
** Net of By-Product.


Capital expenditures (planned) M USD 78  
Growth Capital M USD 16  31  32  9   41  
Sustaining costs M USD 54.5  54.4  56.3  43   35.5  
Capital expenditures M USD 70.4  85.1  88.2  52   76.1   73   74  
Revenue M USD 473.6  427.9  402  411.5   304.6   301.1   302.6  
Operating Income M USD
Gross profit M USD

Heavy Mobile Equipment

Ref. Date: July 14, 2014

HME TypeModelQuantity
Drill Atlas Copco 2
Drill 2
Jumbo Sandvik 2
Jumbo Sandvik 2
Loader Caterpillar 4
Loader Caterpillar 4
Truck (underground) Atlas Copco 8
Truck (underground) 4


Mine Management

Job TitleNamePhoneProfileRef. Date
General Manager Operations Craig Bradshaw LinkedIn Apr 18, 2024
Maintenance Superintendent Jim Innes LinkedIn Apr 18, 2024
Process Manager Matt McKee-Duff LinkedIn Apr 18, 2024
Underground Mine Manager Nick Tait LinkedIn Apr 18, 2024
Vice President of Mining Jason Sander +61 (0) 8 9088-3801 LinkedIn Apr 18, 2024

EmployeesContractorsTotal WorkforceYear
314 473 787 2023
308 503 811 2022
605 2021
605 2020
605 2019
605 2018
605 2017
620 2016

Aerial view:


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