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Pascua Lama project, Alto del Carmen, Huasco Province, Atacama, Chilei
Regional Level Types
Pascua Lama projectProject
Alto del Carmen- not defined -
Huasco ProvinceProvince
AtacamaRegion
ChileCountry

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Key
Latitude & Longitude (WGS84):
29° 19' 23'' South , 70° 1' 23'' West
Latitude & Longitude (decimal):
Locality type:
Köppen climate type:


Open-pit gold-silver-copper project owned (as of 2007) by Barrick Gold Corp. Mineralization, both disseminated and of stockwork type, is hosted in late Paleozoic and mid-Tertiary intrusive and volcanic rocks, extending across the border into Argentina too (http://www.mindat.org/loc-156889.html). Located at around 4,600 meters elevation. Estimated 225 million tonnes of ore with an average grade of 1.98 g/t Au and 66 g/t Ag.

The project is controversial because of its economic and environmental consequences.

Regions containing this locality

South America PlateTectonic Plate
South AmericaContinent

Select Mineral List Type

Standard Detailed Strunz Dana Chemical Elements

Mineral List


34 valid minerals.

Detailed Mineral List:

Alunite
Formula: KAl3(SO4)2(OH)6
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Anglesite
Formula: PbSO4
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148; Chouinard, A., Paquette, J., & Williams-Jones, A. E. (2005). Crystallographic controls on trace-element incorporation in auriferous pyrite from the Pascua epithermal high-sulfidation deposit, Chile–Argentina. The Canadian Mineralogist, 43(3), 951-963.
Arsenopyrite
Formula: FeAsS
Reference: Maurizio Dini data from Sernageomin (Chilean National MIne Service); Scott Werschky personal comunications
Baryte
Formula: BaSO4
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148; Chouinard, A., Paquette, J., & Williams-Jones, A. E. (2005). Crystallographic controls on trace-element incorporation in auriferous pyrite from the Pascua epithermal high-sulfidation deposit, Chile–Argentina. The Canadian Mineralogist, 43(3), 951-963.
Calaverite
Formula: AuTe2
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Cassiterite
Formula: SnO2
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Chalcanthite
Formula: CuSO4 · 5H2O
Reference: Chouinard, A., Paquette, J., & Williams-Jones, A. E. (2005). Crystallographic controls on trace-element incorporation in auriferous pyrite from the Pascua epithermal high-sulfidation deposit, Chile–Argentina. The Canadian Mineralogist, 43(3), 951-963.
Chalcopyrite
Formula: CuFeS2
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Chlorargyrite
Formula: AgCl
Reference: Chouinard, A., Paquette, J., & Williams-Jones, A. E. (2005). Crystallographic controls on trace-element incorporation in auriferous pyrite from the Pascua epithermal high-sulfidation deposit, Chile–Argentina. The Canadian Mineralogist, 43(3), 951-963.
Coquimbite
Formula: Fe2-xAlx(SO4)3 · 9H2O, x ~0.5
Reference: Chouinard, A., Paquette, J., & Williams-Jones, A. E. (2005). Crystallographic controls on trace-element incorporation in auriferous pyrite from the Pascua epithermal high-sulfidation deposit, Chile–Argentina. The Canadian Mineralogist, 43(3), 951-963.
Covellite
Formula: CuS
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Cristobalite
Formula: SiO2
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Diaspore
Formula: AlO(OH)
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Dickite
Formula: Al2(Si2O5)(OH)4
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
'Electrum'
Formula: (Au, Ag)
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Enargite
Formula: Cu3AsS4
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148; Chouinard, A., Paquette, J., & Williams-Jones, A. E. (2005). Crystallographic controls on trace-element incorporation in auriferous pyrite from the Pascua epithermal high-sulfidation deposit, Chile–Argentina. The Canadian Mineralogist, 43(3), 951-963.
'Florencite'
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Galena
Formula: PbS
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Gold
Formula: Au
Reference: Maksaev, V., Townley, B., Palacios, C., and Camus, F. (2007): Metallic ore deposits. In: Moreno, T., and Gibbons, W. (editors): The Geology of Chile. The Geological Society (London), pp. 414.; Economic Geology; January 2005; v. 100; no. 1; p. 131-148; Chouinard, A., Paquette, J., & Williams-Jones, A. E. (2005). Crystallographic controls on trace-element incorporation in auriferous pyrite from the Pascua epithermal high-sulfidation deposit, Chile–Argentina. The Canadian Mineralogist, 43(3), 951-963.
Goldfieldite
Formula: (Cu102)Te4S12S
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Hematite
Formula: Fe2O3
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Iodargyrite
Formula: AgI
Reference: Chouinard, A., Paquette, J., & Williams-Jones, A. E. (2005). Crystallographic controls on trace-element incorporation in auriferous pyrite from the Pascua epithermal high-sulfidation deposit, Chile–Argentina. The Canadian Mineralogist, 43(3), 951-963.
Jarosite
Formula: KFe3+ 3(SO4)2(OH)6
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148; Chouinard, A., Paquette, J., & Williams-Jones, A. E. (2005). Crystallographic controls on trace-element incorporation in auriferous pyrite from the Pascua epithermal high-sulfidation deposit, Chile–Argentina. The Canadian Mineralogist, 43(3), 951-963.
Kaolinite
Formula: Al2(Si2O5)(OH)4
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Opal
Formula: SiO2 · nH2O
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Pyrite
Formula: FeS2
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148; Chouinard, A., Paquette, J., & Williams-Jones, A. E. (2005). Crystallographic controls on trace-element incorporation in auriferous pyrite from the Pascua epithermal high-sulfidation deposit, Chile–Argentina. The Canadian Mineralogist, 43(3), 951-963.
Pyrophyllite
Formula: Al2Si4O10(OH)2
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Quartz
Formula: SiO2
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148; Chouinard, A., Paquette, J., & Williams-Jones, A. E. (2005). Crystallographic controls on trace-element incorporation in auriferous pyrite from the Pascua epithermal high-sulfidation deposit, Chile–Argentina. The Canadian Mineralogist, 43(3), 951-963.
Quartz var: Chalcedony
Formula: SiO2
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Stibnite
Formula: Sb2S3
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Sulphur
Formula: S8
Reference: Maksaev, V., Townley, B., Palacios, C., and Camus, F. (2007): Metallic ore deposits. In: Moreno, T., and Gibbons, W. (editors): The Geology of Chile. The Geological Society (London), pp. 414.; Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Svanbergite
Formula: SrAl3(PO4)(SO4)(OH)6
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Szomolnokite
Formula: FeSO4 · H2O
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148; Chouinard, A., Paquette, J., & Williams-Jones, A. E. (2005). Crystallographic controls on trace-element incorporation in auriferous pyrite from the Pascua epithermal high-sulfidation deposit, Chile–Argentina. The Canadian Mineralogist, 43(3), 951-963.
Voltaite
Formula: K2Fe2+5Fe3+3Al(SO4)12 · 18H2O
Reference: Chouinard, A., Paquette, J., & Williams-Jones, A. E. (2005). Crystallographic controls on trace-element incorporation in auriferous pyrite from the Pascua epithermal high-sulfidation deposit, Chile–Argentina. The Canadian Mineralogist, 43(3), 951-963.
Walthierite
Formula: Ba0.5Al3(SO4)2(OH)6
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Woodhouseite
Formula: CaAl3(PO4)(SO4)(OH)6
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Zunyite
Formula: Al13Si5O20(OH,F)18Cl
Reference: Economic Geology; January 2005; v. 100; no. 1; p. 131-148

List of minerals arranged by Strunz 10th Edition classification

Group 1 - Elements
'Electrum'1.AA.05(Au, Ag)
Gold1.AA.05Au
Sulphur1.CC.05S8
Group 2 - Sulphides and Sulfosalts
Arsenopyrite2.EB.20FeAsS
Calaverite2.EA.10AuTe2
Chalcopyrite2.CB.10aCuFeS2
Covellite2.CA.05aCuS
Enargite2.KA.05Cu3AsS4
Galena2.CD.10PbS
Goldfieldite2.GB.05(Cu102)Te4S12S
Pyrite2.EB.05aFeS2
Stibnite2.DB.05Sb2S3
Group 3 - Halides
Chlorargyrite3.AA.15AgCl
Iodargyrite3.AA.10AgI
Group 4 - Oxides and Hydroxides
Cassiterite4.DB.05SnO2
Cristobalite4.DA.15SiO2
Diaspore4.FD.10AlO(OH)
Hematite4.CB.05Fe2O3
Opal4.DA.10SiO2 · nH2O
Quartz4.DA.05SiO2
var: Chalcedony4.DA.05SiO2
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
Alunite7.BC.10KAl3(SO4)2(OH)6
Anglesite7.AD.35PbSO4
Baryte7.AD.35BaSO4
Chalcanthite7.CB.20CuSO4 · 5H2O
Coquimbite7.CB.55Fe2-xAlx(SO4)3 · 9H2O, x ~0.5
Jarosite7.BC.10KFe3+ 3(SO4)2(OH)6
Szomolnokite7.CB.05FeSO4 · H2O
Voltaite7.CC.25K2Fe2+5Fe3+3Al(SO4)12 · 18H2O
Walthierite7.BC.10Ba0.5Al3(SO4)2(OH)6
Group 8 - Phosphates, Arsenates and Vanadates
Svanbergite8.BL.05SrAl3(PO4)(SO4)(OH)6
Woodhouseite8.BL.05CaAl3(PO4)(SO4)(OH)6
Group 9 - Silicates
Dickite9.ED.05Al2(Si2O5)(OH)4
Kaolinite9.ED.05Al2(Si2O5)(OH)4
Pyrophyllite9.EC.10Al2Si4O10(OH)2
Zunyite9.BJ.55Al13Si5O20(OH,F)18Cl
Unclassified Minerals, Rocks, etc.
'Florencite'-

List of minerals arranged by Dana 8th Edition classification

Group 1 - NATIVE ELEMENTS AND ALLOYS
Metals, other than the Platinum Group
Gold1.1.1.1Au
Semi-metals and non-metals
Sulphur1.3.5.1S8
Group 2 - SULFIDES
AmXp, with m:p = 1:1
Covellite2.8.12.1CuS
Galena2.8.1.1PbS
AmBnXp, with (m+n):p = 1:1
Chalcopyrite2.9.1.1CuFeS2
AmBnXp, with (m+n):p = 2:3
Stibnite2.11.2.1Sb2S3
AmBnXp, with (m+n):p = 1:2
Arsenopyrite2.12.4.1FeAsS
Calaverite2.12.13.2AuTe2
Pyrite2.12.1.1FeS2
Group 3 - SULFOSALTS
ø = 4
Enargite3.2.1.1Cu3AsS4
3 <ø < 4
Goldfieldite3.3.6.6(Cu102)Te4S12S
Group 4 - SIMPLE OXIDES
A2X3
Hematite4.3.1.2Fe2O3
AX2
Cassiterite4.4.1.5SnO2
Group 6 - HYDROXIDES AND OXIDES CONTAINING HYDROXYL
XO(OH)
Diaspore6.1.1.1AlO(OH)
Group 9 - NORMAL HALIDES
AX
Chlorargyrite9.1.4.1AgCl
Iodargyrite9.1.5.1AgI
Group 28 - ANHYDROUS ACID AND NORMAL SULFATES
AXO4
Anglesite28.3.1.3PbSO4
Baryte28.3.1.1BaSO4
Group 29 - HYDRATED ACID AND NORMAL SULFATES
AXO4·xH2O
Chalcanthite29.6.7.1CuSO4 · 5H2O
Szomolnokite29.6.2.2FeSO4 · H2O
A2(XO4)3·H2O
Coquimbite29.8.3.1Fe2-xAlx(SO4)3 · 9H2O, x ~0.5
Miscellaneous
Voltaite29.9.1.1K2Fe2+5Fe3+3Al(SO4)12 · 18H2O
Group 30 - ANHYDROUS SULFATES CONTAINING HYDROXYL OR HALOGEN
(AB)2(XO4)Zq
Alunite30.2.4.1KAl3(SO4)2(OH)6
Jarosite30.2.5.1KFe3+ 3(SO4)2(OH)6
Walthierite30.2.4.7Ba0.5Al3(SO4)2(OH)6
Group 43 - COMPOUND PHOSPHATES, ETC.
Anhydrous Compound Phosphates, etc·, Containing Hydroxyl or Halogen
Svanbergite43.4.1.6SrAl3(PO4)(SO4)(OH)6
Woodhouseite43.4.1.8CaAl3(PO4)(SO4)(OH)6
Group 57 - SOROSILICATES Si3O10 Groups and Larger Noncyclic Groups
Insular Si3O10 and Larger Noncyclic Groups with [Si5O16] groups
Zunyite57.3.1.1Al13Si5O20(OH,F)18Cl
Group 71 - PHYLLOSILICATES Sheets of Six-Membered Rings
Sheets of 6-membered rings with 1:1 layers
Dickite71.1.1.1Al2(Si2O5)(OH)4
Sheets of 6-membered rings with 2:1 layers
Pyrophyllite71.2.1.1Al2Si4O10(OH)2
Group 75 - TECTOSILICATES Si Tetrahedral Frameworks
Si Tetrahedral Frameworks - SiO2 with [4] coordinated Si
Cristobalite75.1.1.1SiO2
Quartz75.1.3.1SiO2
Si Tetrahedral Frameworks - SiO2 with H2O and organics
Opal75.2.1.1SiO2 · nH2O
Unclassified Minerals, Mixtures, etc.
'Electrum'-(Au, Ag)
'Florencite'-
Kaolinite-Al2(Si2O5)(OH)4
Quartz
var: Chalcedony
-SiO2

List of minerals for each chemical element

HHydrogen
H SvanbergiteSrAl3(PO4)(SO4)(OH)6
H ZunyiteAl13Si5O20(OH,F)18Cl
H WoodhouseiteCaAl3(PO4)(SO4)(OH)6
H WalthieriteBa0.5Al3(SO4)2(OH)6
H OpalSiO2 · nH2O
H AluniteKAl3(SO4)2(OH)6
H KaoliniteAl2(Si2O5)(OH)4
H SzomolnokiteFeSO4 · H2O
H DiasporeAlO(OH)
H DickiteAl2(Si2O5)(OH)4
H PyrophylliteAl2Si4O10(OH)2
H JarositeKFe3+ 3(SO4)2(OH)6
H ChalcanthiteCuSO4 · 5H2O
H CoquimbiteFe2-xAlx(SO4)3 · 9H2O, x ~0.5
H VoltaiteK2Fe52+Fe33+Al(SO4)12 · 18H2O
OOxygen
O SvanbergiteSrAl3(PO4)(SO4)(OH)6
O ZunyiteAl13Si5O20(OH,F)18Cl
O CristobaliteSiO2
O WoodhouseiteCaAl3(PO4)(SO4)(OH)6
O WalthieriteBa0.5Al3(SO4)2(OH)6
O AnglesitePbSO4
O Quartz (var: Chalcedony)SiO2
O BaryteBaSO4
O HematiteFe2O3
O OpalSiO2 · nH2O
O CassiteriteSnO2
O AluniteKAl3(SO4)2(OH)6
O KaoliniteAl2(Si2O5)(OH)4
O SzomolnokiteFeSO4 · H2O
O QuartzSiO2
O DiasporeAlO(OH)
O DickiteAl2(Si2O5)(OH)4
O PyrophylliteAl2Si4O10(OH)2
O JarositeKFe3+ 3(SO4)2(OH)6
O ChalcanthiteCuSO4 · 5H2O
O CoquimbiteFe2-xAlx(SO4)3 · 9H2O, x ~0.5
O VoltaiteK2Fe52+Fe33+Al(SO4)12 · 18H2O
FFluorine
F ZunyiteAl13Si5O20(OH,F)18Cl
AlAluminium
Al SvanbergiteSrAl3(PO4)(SO4)(OH)6
Al ZunyiteAl13Si5O20(OH,F)18Cl
Al WoodhouseiteCaAl3(PO4)(SO4)(OH)6
Al WalthieriteBa0.5Al3(SO4)2(OH)6
Al AluniteKAl3(SO4)2(OH)6
Al KaoliniteAl2(Si2O5)(OH)4
Al DiasporeAlO(OH)
Al DickiteAl2(Si2O5)(OH)4
Al PyrophylliteAl2Si4O10(OH)2
Al VoltaiteK2Fe52+Fe33+Al(SO4)12 · 18H2O
SiSilicon
Si ZunyiteAl13Si5O20(OH,F)18Cl
Si CristobaliteSiO2
Si Quartz (var: Chalcedony)SiO2
Si OpalSiO2 · nH2O
Si KaoliniteAl2(Si2O5)(OH)4
Si QuartzSiO2
Si DickiteAl2(Si2O5)(OH)4
Si PyrophylliteAl2Si4O10(OH)2
PPhosphorus
P SvanbergiteSrAl3(PO4)(SO4)(OH)6
P WoodhouseiteCaAl3(PO4)(SO4)(OH)6
SSulfur
S SvanbergiteSrAl3(PO4)(SO4)(OH)6
S GalenaPbS
S ChalcopyriteCuFeS2
S WoodhouseiteCaAl3(PO4)(SO4)(OH)6
S WalthieriteBa0.5Al3(SO4)2(OH)6
S AnglesitePbSO4
S BaryteBaSO4
S CovelliteCuS
S Goldfieldite(Cu102)Te4S12S
S ArsenopyriteFeAsS
S AluniteKAl3(SO4)2(OH)6
S EnargiteCu3AsS4
S SzomolnokiteFeSO4 · H2O
S SulphurS8
S StibniteSb2S3
S JarositeKFe3+ 3(SO4)2(OH)6
S PyriteFeS2
S ChalcanthiteCuSO4 · 5H2O
S CoquimbiteFe2-xAlx(SO4)3 · 9H2O, x ~0.5
S VoltaiteK2Fe52+Fe33+Al(SO4)12 · 18H2O
ClChlorine
Cl ZunyiteAl13Si5O20(OH,F)18Cl
Cl ChlorargyriteAgCl
KPotassium
K AluniteKAl3(SO4)2(OH)6
K JarositeKFe3+ 3(SO4)2(OH)6
K VoltaiteK2Fe52+Fe33+Al(SO4)12 · 18H2O
CaCalcium
Ca WoodhouseiteCaAl3(PO4)(SO4)(OH)6
FeIron
Fe ChalcopyriteCuFeS2
Fe HematiteFe2O3
Fe ArsenopyriteFeAsS
Fe SzomolnokiteFeSO4 · H2O
Fe JarositeKFe3+ 3(SO4)2(OH)6
Fe PyriteFeS2
Fe CoquimbiteFe2-xAlx(SO4)3 · 9H2O, x ~0.5
Fe VoltaiteK2Fe52+Fe33+Al(SO4)12 · 18H2O
CuCopper
Cu ChalcopyriteCuFeS2
Cu CovelliteCuS
Cu Goldfieldite(Cu102)Te4S12S
Cu EnargiteCu3AsS4
Cu ChalcanthiteCuSO4 · 5H2O
AsArsenic
As ArsenopyriteFeAsS
As EnargiteCu3AsS4
SrStrontium
Sr SvanbergiteSrAl3(PO4)(SO4)(OH)6
AgSilver
Ag Electrum(Au, Ag)
Ag ChlorargyriteAgCl
Ag IodargyriteAgI
SnTin
Sn CassiteriteSnO2
SbAntimony
Sb StibniteSb2S3
TeTellurium
Te Goldfieldite(Cu102)Te4S12S
Te CalaveriteAuTe2
IIodine
I IodargyriteAgI
BaBarium
Ba WalthieriteBa0.5Al3(SO4)2(OH)6
Ba BaryteBaSO4
AuGold
Au Electrum(Au, Ag)
Au CalaveriteAuTe2
Au GoldAu
PbLead
Pb GalenaPbS
Pb AnglesitePbSO4

References

Sort by

Year (asc) Year (desc) Author (A-Z) Author (Z-A)
C. L. Deyell et al (2005) Alunite in the Pascua-Lama High-Sulfidation Deposit: Constraints on Alteration and Ore Deposition Using Stable Isotope Geochemistry. Economic Geology; January 2005; v. 100; no. 1; p. 131-148
Chouinard, A., Paquette, J., & Williams-Jones, A. E. (2005). Crystallographic controls on trace-element incorporation in auriferous pyrite from the Pascua epithermal high-sulfidation deposit, Chile–Argentina. The Canadian Mineralogist, 43(3), 951-963.
Chouinard, A., Williams-Jones, A.E., Leonardson, R.W., Hodgson, C.J., Silva, P., Téllez, C, Vega, J., and Rojas, F. (2005): Geology and genesis of the multistage high-sulfidation epithermal Pascua Au-Ag-Cu deposit, Chile and Argentina. Econonic Geology, 100, 463–490.
Maksaev, V., Townley, B., Palacios, C., and Camus, F. (2007): Metallic ore deposits. In: Moreno, T., and Gibbons, W. (editors): The Geology of Chile. The Geological Society (London), pp. 414.

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