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Carstensz Mountains, Papua Province, Indonesiai
Regional Level Types
Carstensz MountainsMountain Range
Papua ProvinceProvince
IndonesiaCountry

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08675450014960868997398.jpg
Quartz, etc.

Big Gossan Mine, Gunung Bijih District, Mimika Regency, Papua Province, Indonesia
08675450014960868997398.jpg
Quartz, etc.

Big Gossan Mine, Gunung Bijih District, Mimika Regency, Papua Province, Indonesia
08675450014960868997398.jpg
Quartz, etc.

Big Gossan Mine, Gunung Bijih District, Mimika Regency, Papua Province, Indonesia
Locality type:
Mountain Range


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Standard Detailed Gallery Strunz Chemical Elements

Commodity List

This is a list of exploitable or exploited mineral commodities recorded from this region.


Mineral List

Mineral list contains entries from the region specified including sub-localities

59 valid minerals. 1 (TL) - type locality of valid minerals.

Rock Types Recorded

Note: data is currently VERY limited. Please bear with us while we work towards adding this information!

Rock list contains entries from the region specified including sub-localities

Select Rock List Type

Alphabetical List Tree Diagram

Detailed Mineral List:

β“˜ Acanthite
Formula: Ag2S
Reference: Econ Geol (1997) 92:535-550
β“˜ Actinolite
Formula: ◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Reference: Econ Geol (1997) 92:509-534; Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ Altaite
Formula: PbTe
Reference: Prendergast, K., Clarke, G. W., Pearson, N. J., & Harris, K. (2005). Genesis of Pyrite-Au-As-Zn-Bi-Te Zones Associated with Cu-Au Skarns: Evidence from the Big Gossan and Wanagon Gold Deposits, Ertsberg District, Papua, Indonesia. Economic Geology, 100(5), 1021-1050.
β“˜ Amesite
Formula: Mg2Al(AlSiO5)(OH)4
Reference: Bailey, S.W., Banfield, J.F., Barker, W.W., Katchan, G. (1995) Dozyite, a 1:1 regular interstratification of serpentine and chlorite. American Mineralogist: 80: 65-77.
β“˜ Andalusite
Formula: Al2(SiO4)O
Reference: Setiawan, B., de Jong, G., Soeldjana, A., Aloysius, C., Webb, B., Issel, A., & Lasito, S. Mineralogy and Chemical Characteristics of the Waripi–hosted Cu-Au Skarn System at the Big Gossan Underground Mine, Papua, Indonesia–Determining the host rocks using XRD and XRF Analysis.
β“˜ Andradite
Formula: Ca3Fe3+2(SiO4)3
Reference: Richard W. Henley; Frank J. Brink; Penelope L. King; Clyde Leys; Jibamitra Ganguly; Terrance Mernagh; Jill Middleton; Christian J. Renggli; Melanie Sieber; Ulrike Troitzsch; Michael Turner (2017): High temperature gas–solid reactions in calc–silicate Cu–Au skarn formation; Ertsberg, Papua Province, Indonesia. Contributions to Mineralogy and Petrology 172, 106. Sieber, M. J., Brink, F. J., Leys, C., King, P. L., & Henley, R. W. (2020). Prograde and retrograde metasomatic reactions in mineralised magnesium-silicate skarn in the Cu-Au Ertsberg East Skarn System, Ertsberg, Papua Province, Indonesia. Ore Geology Reviews, 125, 103697.
β“˜ 'Andradite-Grossular Series'
Reference: Econ Geol (1997) 92:509-534; Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ Anhydrite
Formula: CaSO4
Reference: Amer.Min.(1995) 80, 65-77; LEDVINA, M. D. and KYLE, J. R. (2014), Investigating the Pathways and P-T-X Conditions of Hydrothermal Fluid Flow responsible for Cu-Au Mineralization in the Ertsberg East Skarn System, Papua, Indonesia. Acta Geologica Sinica, 88: 578–579; Richard W. Henley; Frank J. Brink; Penelope L. King; Clyde Leys; Jibamitra Ganguly; Terrance Mernagh; Jill Middleton; Christian J. Renggli; Melanie Sieber; Ulrike Troitzsch; Michael Turner (2017): High temperature gas–solid reactions in calc–silicate Cu–Au skarn formation; Ertsberg, Papua Province, Indonesia. Contributions to Mineralogy and Petrology 172, 106. Sieber, M. J., Brink, F. J., Leys, C., King, P. L., & Henley, R. W. (2020). Prograde and retrograde metasomatic reactions in mineralised magnesium-silicate skarn in the Cu-Au Ertsberg East Skarn System, Ertsberg, Papua Province, Indonesia. Ore Geology Reviews, 125, 103697.
β“˜ Ankerite
Formula: Ca(Fe2+,Mg)(CO3)2
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ Anorthite
Formula: Ca(Al2Si2O8)
Reference: Richard W. Henley; Frank J. Brink; Penelope L. King; Clyde Leys; Jibamitra Ganguly; Terrance Mernagh; Jill Middleton; Christian J. Renggli; Melanie Sieber; Ulrike Troitzsch; Michael Turner (2017): High temperature gas–solid reactions in calc–silicate Cu–Au skarn formation; Ertsberg, Papua Province, Indonesia. Contributions to Mineralogy and Petrology 172, 106. Sieber, M. J., Brink, F. J., Leys, C., King, P. L., & Henley, R. W. (2020). Prograde and retrograde metasomatic reactions in mineralised magnesium-silicate skarn in the Cu-Au Ertsberg East Skarn System, Ertsberg, Papua Province, Indonesia. Ore Geology Reviews, 125, 103697.
β“˜ Antigorite
Formula: Mg3(Si2O5)(OH)4
Reference: Bailey, S.W., Banfield, J.F., Barker, W.W., Katchan, G. (1995) Dozyite, a 1:1 regular interstratification of serpentine and chlorite. American Mineralogist: 80: 65-77.
β“˜ 'Apatite'
Formula: Ca5(PO4)3(Cl/F/OH)
Reference: Econ Geol (1997) 92:535-550
β“˜ Arsenopyrite
Formula: FeAsS
Reference: Econ Geol (1997) 92:509-534; Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ 'Biotite'
Formula: K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ Bismuth
Formula: Bi
Reference: Econ Geol (1997) 92:535-550
β“˜ Bismuthinite
Formula: Bi2S3
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).; Prendergast, K., Clarke, G. W., Pearson, N. J., & Harris, K. (2005). Genesis of Pyrite-Au-As-Zn-Bi-Te Zones Associated with Cu-Au Skarns: Evidence from the Big Gossan and Wanagon Gold Deposits, Ertsberg District, Papua, Indonesia. Economic Geology, 100(5), 1021-1050.
β“˜ Bornite
Formula: Cu5FeS4
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ Brucite
Formula: Mg(OH)2
Reference: Bailey, S.W., Banfield, J.F., Barker, W.W., Katchan, G. (1995) Dozyite, a 1:1 regular interstratification of serpentine and chlorite. American Mineralogist: 80: 65-77.
β“˜ Calcite
Formula: CaCO3
Reference: Amer.Min.(1995) 80, 65-77; Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).; Kyle, J. R., Gandler, L., Mertig, H., Rubin, J. and Ledvina, M. (2014), Stratigraphic Inheritance Controls of Skarn-hosted Metal Concentrations: Ore controls for Ertsberg-Grasberg District Cu-Au skarns, Papua, Indonesia. Acta Geologica Sinica
β“˜ Celestine
Formula: SrSO4
Reference: Setiawan, B., de Jong, G., Soeldjana, A., Aloysius, C., Webb, B., Issel, A., & Lasito, S. Mineralogy and Chemical Characteristics of the Waripi–hosted Cu-Au Skarn System at the Big Gossan Underground Mine, Papua, Indonesia–Determining the host rocks using XRD and XRF Analysis.
β“˜ Chalcocite
Formula: Cu2S
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ Chalcopyrite
Formula: CuFeS2
Reference: Bailey, S.W., Banfield, J.F., Barker, W.W., Katchan, G. (1995) Dozyite, a 1:1 regular interstratification of serpentine and chlorite. American Mineralogist: 80: 65-77.; Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ 'Chlorite Group'
Reference: Bailey, S.W., Banfield, J.F., Barker, W.W., Katchan, G. (1995) Dozyite, a 1:1 regular interstratification of serpentine and chlorite. American Mineralogist: 80: 65-77.
β“˜ Chrysotile
Formula: Mg3(Si2O5)(OH)4
Reference: Bailey, S.W., Banfield, J.F., Barker, W.W., Katchan, G. (1995) Dozyite, a 1:1 regular interstratification of serpentine and chlorite. American Mineralogist: 80: 65-77.
β“˜ Clinochlore
Formula: Mg5Al(AlSi3O10)(OH)8
Reference: Bailey, S.W., Banfield, J.F., Barker, W.W., Katchan, G. (1995) Dozyite, a 1:1 regular interstratification of serpentine and chlorite. American Mineralogist: 80: 65-77.
β“˜ Clinozoisite
Formula: {Ca2}{Al3}(Si2O7)(SiO4)O(OH)
Reference: Setiawan, B., de Jong, G., Soeldjana, A., Aloysius, C., Webb, B., Issel, A., & Lasito, S. Mineralogy and Chemical Characteristics of the Waripi–hosted Cu-Au Skarn System at the Big Gossan Underground Mine, Papua, Indonesia–Determining the host rocks using XRD and XRF Analysis.
β“˜ Cosalite
Formula: Pb2Bi2S5
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).; Prendergast, K., Clarke, G. W., Pearson, N. J., & Harris, K. (2005). Genesis of Pyrite-Au-As-Zn-Bi-Te Zones Associated with Cu-Au Skarns: Evidence from the Big Gossan and Wanagon Gold Deposits, Ertsberg District, Papua, Indonesia. Economic Geology, 100(5), 1021-1050.
β“˜ Covellite
Formula: CuS
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ Cubanite
Formula: CuFe2S3
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ Cummingtonite
Formula: ◻{Mg2}{Mg5}(Si8O22)(OH)2
Reference: Econ Geol (1997) 92:509-534
β“˜ Digenite
Formula: Cu9S5
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ Diopside
Formula: CaMgSi2O6
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).; Kyle, J. R., Gandler, L., Mertig, H., Rubin, J. and Ledvina, M. (2014), Stratigraphic Inheritance Controls of Skarn-hosted Metal Concentrations: Ore controls for Ertsberg-Grasberg District Cu-Au skarns, Papua, Indonesia. Acta Geologica Sinica Sieber, M. J., Brink, F. J., Leys, C., King, P. L., & Henley, R. W. (2020). Prograde and retrograde metasomatic reactions in mineralised magnesium-silicate skarn in the Cu-Au Ertsberg East Skarn System, Ertsberg, Papua Province, Indonesia. Ore Geology Reviews, 125, 103697.
β“˜ Dolomite
Formula: CaMg(CO3)2
Reference: Amer.Min.(1995) 80, 65-77; Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).; Kyle, J. R., Gandler, L., Mertig, H., Rubin, J. and Ledvina, M. (2014), Stratigraphic Inheritance Controls of Skarn-hosted Metal Concentrations: Ore controls for Ertsberg-Grasberg District Cu-Au skarns, Papua, Indonesia. Acta Geologica Sinica
β“˜ Dozyite (TL)
Formula: Mg7Al2(Al2Si4O15)(OH)12
Type Locality:
Reference: Bailey, S.W., Banfield, J.F., Barker, W.W., Katchan, G. (1995) Dozyite, a 1:1 regular interstratification of serpentine and chlorite. American Mineralogist: 80: 65-77.; The Mineralogical Record: 27: 301.
β“˜ Epidote
Formula: {Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ 'Fayalite-Forsterite Series'
Reference: Setiawan, B., de Jong, G., Soeldjana, A., Aloysius, C., Webb, B., Issel, A., & Lasito, S. Mineralogy and Chemical Characteristics of the Waripi–hosted Cu-Au Skarn System at the Big Gossan Underground Mine, Papua, Indonesia–Determining the host rocks using XRD and XRF Analysis.
β“˜ Forsterite
Formula: Mg2SiO4
Reference: Econ Geol (1997) 92:535-550; Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).; Kyle, J. R., Gandler, L., Mertig, H., Rubin, J. and Ledvina, M. (2014), Stratigraphic Inheritance Controls of Skarn-hosted Metal Concentrations: Ore controls for Ertsberg-Grasberg District Cu-Au skarns, Papua, Indonesia. Acta Geologica Sinica Sieber, M. J., Brink, F. J., Leys, C., King, P. L., & Henley, R. W. (2020). Prograde and retrograde metasomatic reactions in mineralised magnesium-silicate skarn in the Cu-Au Ertsberg East Skarn System, Ertsberg, Papua Province, Indonesia. Ore Geology Reviews, 125, 103697.
β“˜ Galena
Formula: PbS
Reference: Econ Geol (1997) 92:535-550; Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ 'Garnet Group'
Formula: X3Z2(SiO4)3
Reference: Sieber, M. J., Brink, F. J., Leys, C., King, P. L., & Henley, R. W. (2020). Prograde and retrograde metasomatic reactions in mineralised magnesium-silicate skarn in the Cu-Au Ertsberg East Skarn System, Ertsberg, Papua Province, Indonesia. Ore Geology Reviews, 125, 103697.
β“˜ Gold
Formula: Au
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).; LEDVINA, M. D. and KYLE, J. R. (2014), Investigating the Pathways and P-T-X Conditions of Hydrothermal Fluid Flow responsible for Cu-Au Mineralization in the Ertsberg East Skarn System, Papua, Indonesia. Acta Geologica Sinica, 88: 578–579
β“˜ Gold var. Electrum
Formula: (Au,Ag)
Reference: LEDVINA, M. D. and KYLE, J. R. (2014), Investigating the Pathways and P-T-X Conditions of Hydrothermal Fluid Flow responsible for Cu-Au Mineralization in the Ertsberg East Skarn System, Papua, Indonesia. Acta Geologica Sinica, 88: 578–579
β“˜ Grossular
Formula: Ca3Al2(SiO4)3
Reference: Sieber, M. J., Brink, F. J., Leys, C., King, P. L., & Henley, R. W. (2020). Prograde and retrograde metasomatic reactions in mineralised magnesium-silicate skarn in the Cu-Au Ertsberg East Skarn System, Ertsberg, Papua Province, Indonesia. Ore Geology Reviews, 125, 103697.
β“˜ Gypsum
Formula: CaSO4 · 2H2O
Reference: Econ Geol (1997) 92:535-550
β“˜ Hedenbergite
Formula: CaFe2+Si2O6
Reference: Econ Geol (1997) 92:509-534; Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ Hematite
Formula: Fe2O3
Reference: Econ Geol (1997) 92:509-534; Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ Hessite
Formula: Ag2Te
Reference: Prendergast, K., Clarke, G. W., Pearson, N. J., & Harris, K. (2005). Genesis of Pyrite-Au-As-Zn-Bi-Te Zones Associated with Cu-Au Skarns: Evidence from the Big Gossan and Wanagon Gold Deposits, Ertsberg District, Papua, Indonesia. Economic Geology, 100(5), 1021-1050.
β“˜ Idaite
Formula: Cu5FeS6
Reference: Econ Geol (1997) 92:535-550; Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ 'K Feldspar'
Formula: KAlSi3O8
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ Lizardite
Formula: Mg3(Si2O5)(OH)4
Reference: Bailey, S.W., Banfield, J.F., Barker, W.W., Katchan, G. (1995) Dozyite, a 1:1 regular interstratification of serpentine and chlorite. American Mineralogist: 80: 65-77.
β“˜ Magnetite
Formula: Fe2+Fe3+2O4
Reference: Amer.Min.(1995) 80, 65-77; Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).; Kyle, J. R., Gandler, L., Mertig, H., Rubin, J. and Ledvina, M. (2014), Stratigraphic Inheritance Controls of Skarn-hosted Metal Concentrations: Ore controls for Ertsberg-Grasberg District Cu-Au skarns, Papua, Indonesia. Acta Geologica Sinica Sieber, M. J., Brink, F. J., Leys, C., King, P. L., & Henley, R. W. (2020). Prograde and retrograde metasomatic reactions in mineralised magnesium-silicate skarn in the Cu-Au Ertsberg East Skarn System, Ertsberg, Papua Province, Indonesia. Ore Geology Reviews, 125, 103697.
β“˜ Marcasite
Formula: FeS2
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ Monticellite
Formula: CaMgSiO4
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ Nontronite
Formula: Na0.3Fe2((Si,Al)4O10)(OH)2 · nH2O
Reference: Econ Geol (1997) 92:509-534
β“˜ Petzite
Formula: Ag3AuTe2
Reference: Prendergast, K., Clarke, G. W., Pearson, N. J., & Harris, K. (2005). Genesis of Pyrite-Au-As-Zn-Bi-Te Zones Associated with Cu-Au Skarns: Evidence from the Big Gossan and Wanagon Gold Deposits, Ertsberg District, Papua, Indonesia. Economic Geology, 100(5), 1021-1050.
β“˜ Phlogopite
Formula: KMg3(AlSi3O10)(OH)2
Reference: Econ Geol (1997) 92:535-550
β“˜ Pyrite
Formula: FeS2
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ 'Pyroxene Group'
Formula: ADSi2O6
Reference: Econ Geol (1997) 92:509-534
β“˜ Pyrrhotite
Formula: Fe1-xS
Reference: Econ Geol (1997) 92:509-534; Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
trans.png
Quartz, etc.

Big Gossan Mine, Gunung Bijih District, Mimika Regency, Papua Province, Indonesia
β“˜ Quartz
Formula: SiO2
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).; Kyle, J. R., Gandler, L., Mertig, H., Rubin, J. and Ledvina, M. (2014), Stratigraphic Inheritance Controls of Skarn-hosted Metal Concentrations: Ore controls for Ertsberg-Grasberg District Cu-Au skarns, Papua, Indonesia. Acta Geologica Sinica; LEDVINA, M. D. and KYLE, J. R. (2014), Investigating the Pathways and P-T-X Conditions of Hydrothermal Fluid Flow responsible for Cu-Au Mineralization in the Ertsberg East Skarn System, Papua, Indonesia. Acta Geologica Sinica, 88: 578–579 Sieber, M. J., Brink, F. J., Leys, C., King, P. L., & Henley, R. W. (2020). Prograde and retrograde metasomatic reactions in mineralised magnesium-silicate skarn in the Cu-Au Ertsberg East Skarn System, Ertsberg, Papua Province, Indonesia. Ore Geology Reviews, 125, 103697.
β“˜ Quartz var. Plasma
Formula: SiO2
Reference: Wafforn, S., Seman, S., Kyle, J. R., Stockli, D., Leys, C., Sonbait, D., & Cloos, M. (2018). Andradite garnet U-Pb geochronology of the Big Gossan skarn, Ertsberg-Grasberg mining district, Indonesia. Economic Geology, 113(3), 769-778.
β“˜ Scheelite
Formula: Ca(WO4)
Reference: Econ Geol (1997) 92:509-534; Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ 'Serpentine Subgroup'
Formula: D3[Si2O5](OH)4
Reference: Econ Geol (1997) 92:509-534; Setiawan, B., de Jong, G., Soeldjana, A., Aloysius, C., Webb, B., Issel, A., & Lasito, S. Mineralogy and Chemical Characteristics of the Waripi–hosted Cu-Au Skarn System at the Big Gossan Underground Mine, Papua, Indonesia–Determining the host rocks using XRD and XRF Analysis.
β“˜ Siderite
Formula: FeCO3
Reference: Econ Geol (1997) 92:509-534; Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).; Setiawan, B., de Jong, G., Soeldjana, A., Aloysius, C., Webb, B., Issel, A., & Lasito, S. Mineralogy and Chemical Characteristics of the Waripi–hosted Cu-Au Skarn System at the Big Gossan Underground Mine, Papua, Indonesia–Determining the host rocks using XRD and XRF Analysis.
β“˜ Sphalerite
Formula: ZnS
Reference: Econ Geol (1997) 92:509-534; Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).; Setiawan, B., de Jong, G., Soeldjana, A., Aloysius, C., Webb, B., Issel, A., & Lasito, S. Mineralogy and Chemical Characteristics of the Waripi–hosted Cu-Au Skarn System at the Big Gossan Underground Mine, Papua, Indonesia–Determining the host rocks using XRD and XRF Analysis.
β“˜ Sulphur
Formula: S8
Reference: Sieber, M. J., Brink, F. J., Leys, C., King, P. L., & Henley, R. W. (2020). Prograde and retrograde metasomatic reactions in mineralised magnesium-silicate skarn in the Cu-Au Ertsberg East Skarn System, Ertsberg, Papua Province, Indonesia. Ore Geology Reviews, 125, 103697.
β“˜ Talc
Formula: Mg3Si4O10(OH)2
Reference: Econ Geol (1997) 92:535-550
β“˜ 'Tennantite Subgroup'
Formula: Cu6(Cu4C2+2)As4S12S
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).; Prendergast, K., Clarke, G. W., Pearson, N. J., & Harris, K. (2005). Genesis of Pyrite-Au-As-Zn-Bi-Te Zones Associated with Cu-Au Skarns: Evidence from the Big Gossan and Wanagon Gold Deposits, Ertsberg District, Papua, Indonesia. Economic Geology, 100(5), 1021-1050.
β“˜ Tetradymite
Formula: Bi2Te2S
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).; Prendergast, K., Clarke, G. W., Pearson, N. J., & Harris, K. (2005). Genesis of Pyrite-Au-As-Zn-Bi-Te Zones Associated with Cu-Au Skarns: Evidence from the Big Gossan and Wanagon Gold Deposits, Ertsberg District, Papua, Indonesia. Economic Geology, 100(5), 1021-1050.
β“˜ 'Tetrahedrite Subgroup'
Formula: Cu6(Cu4C2+2)Sb4S12S
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).; Prendergast, K., Clarke, G. W., Pearson, N. J., & Harris, K. (2005). Genesis of Pyrite-Au-As-Zn-Bi-Te Zones Associated with Cu-Au Skarns: Evidence from the Big Gossan and Wanagon Gold Deposits, Ertsberg District, Papua, Indonesia. Economic Geology, 100(5), 1021-1050.
β“˜ Tremolite
Formula: ◻{Ca2}{Mg5}(Si8O22)(OH)2
Reference: Prendergast, K. (2003). Porphyry-related hydrothermal systems in the Estberg District, Papua, Indonesia (Doctoral dissertation, James Cook University).
β“˜ Vesuvianite
Formula: Ca19Fe3+Al4(Al6Mg2)(◻4)◻[Si2O7]4[(SiO4)10]O(OH)9
Reference: Econ Geol (1997) 92:509-534
β“˜ Zircon
Formula: Zr(SiO4)
Reference: Wafforn, S., Seman, S., Kyle, J. R., Stockli, D., Leys, C., Sonbait, D., & Cloos, M. (2018). Andradite garnet U-Pb geochronology of the Big Gossan skarn, Ertsberg-Grasberg mining district, Indonesia. Economic Geology, 113(3), 769-778.

Gallery:

List of minerals arranged by Strunz 10th Edition classification

Group 1 - Elements
β“˜Bismuth1.CA.05Bi
β“˜Gold1.AA.05Au
β“˜var. Electrum1.AA.05(Au,Ag)
β“˜Sulphur1.CC.05S8
Group 2 - Sulphides and Sulfosalts
β“˜Acanthite2.BA.35Ag2S
β“˜Altaite2.CD.10PbTe
β“˜Arsenopyrite2.EB.20FeAsS
β“˜Bismuthinite2.DB.05Bi2S3
β“˜Bornite2.BA.15Cu5FeS4
β“˜Chalcocite2.BA.05Cu2S
β“˜Chalcopyrite2.CB.10aCuFeS2
β“˜Cosalite2.JB.10Pb2Bi2S5
β“˜Covellite2.CA.05aCuS
β“˜Cubanite2.CB.55aCuFe2S3
β“˜Digenite2.BA.10Cu9S5
β“˜Galena2.CD.10PbS
β“˜Hessite2.BA.60Ag2Te
β“˜Idaite2.CB.15aCu5FeS6
β“˜Marcasite2.EB.10aFeS2
β“˜Petzite2.BA.75Ag3AuTe2
β“˜Pyrite2.EB.05aFeS2
β“˜Pyrrhotite2.CC.10Fe1-xS
β“˜Sphalerite2.CB.05aZnS
β“˜'Tennantite Subgroup'2.GB.05Cu6(Cu4C2+2)As4S12S
β“˜Tetradymite2.DC.05Bi2Te2S
β“˜'Tetrahedrite Subgroup'2.GB.05Cu6(Cu4C2+2)Sb4S12S
Group 4 - Oxides and Hydroxides
β“˜Brucite4.FE.05Mg(OH)2
β“˜Hematite4.CB.05Fe2O3
β“˜Magnetite4.BB.05Fe2+Fe3+2O4
β“˜Quartz4.DA.05SiO2
β“˜var. Plasma4.DA.05SiO2
Group 5 - Nitrates and Carbonates
β“˜Ankerite5.AB.10Ca(Fe2+,Mg)(CO3)2
β“˜Calcite5.AB.05CaCO3
β“˜Dolomite5.AB.10CaMg(CO3)2
β“˜Siderite5.AB.05FeCO3
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
β“˜Anhydrite7.AD.30CaSO4
β“˜Celestine7.AD.35SrSO4
β“˜Gypsum7.CD.40CaSO4 Β· 2H2O
β“˜Scheelite7.GA.05Ca(WO4)
Group 9 - Silicates
β“˜Actinolite9.DE.10β—»Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
β“˜Amesite9.ED.15Mg2Al(AlSiO5)(OH)4
β“˜Andalusite9.AF.10Al2(SiO4)O
β“˜Andradite9.AD.25Ca3Fe3+2(SiO4)3
β“˜Anorthite9.FA.35Ca(Al2Si2O8)
β“˜Antigorite9.ED.15Mg3(Si2O5)(OH)4
β“˜Chrysotile9.ED.15Mg3(Si2O5)(OH)4
β“˜Clinochlore9.EC.55Mg5Al(AlSi3O10)(OH)8
β“˜Clinozoisite9.BG.05a{Ca2}{Al3}(Si2O7)(SiO4)O(OH)
β“˜Cummingtonite9.DE.05β—»{Mg2}{Mg5}(Si8O22)(OH)2
β“˜Diopside9.DA.15CaMgSi2O6
β“˜Dozyite (TL)9.EC.60Mg7Al2(Al2Si4O15)(OH)12
β“˜Epidote9.BG.05a{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
β“˜Forsterite9.AC.05Mg2SiO4
β“˜Grossular9.AD.25Ca3Al2(SiO4)3
β“˜Hedenbergite9.DA.15CaFe2+Si2O6
β“˜Lizardite9.ED.15Mg3(Si2O5)(OH)4
β“˜Monticellite9.AC.10CaMgSiO4
β“˜Nontronite9.EC.40Na0.3Fe2((Si,Al)4O10)(OH)2 Β· nH2O
β“˜Phlogopite9.EC.20KMg3(AlSi3O10)(OH)2
β“˜Talc9.EC.05Mg3Si4O10(OH)2
β“˜Tremolite9.DE.10β—»{Ca2}{Mg5}(Si8O22)(OH)2
β“˜Vesuvianite9.BG.35Ca19Fe3+Al4(Al6Mg2)(β—»4)β—»[Si2O7]4[(SiO4)10]O(OH)9
β“˜Zircon9.AD.30Zr(SiO4)
Unclassified Minerals, Rocks, etc.
β“˜'Andradite-Grossular Series'-
β“˜'Apatite'-Ca5(PO4)3(Cl/F/OH)
β“˜'Biotite'-K(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
β“˜'Chlorite Group'-
β“˜'Fayalite-Forsterite Series'-
β“˜'Garnet Group'-X3Z2(SiO4)3
β“˜'K Feldspar'-KAlSi3O8
β“˜'Pyroxene Group'-ADSi2O6
β“˜'Serpentine Subgroup'-D3[Si2O5](OH)4

List of minerals for each chemical element

HHydrogen
Hβ“˜ DozyiteMg7Al2(Al2Si4O15)(OH)12
Hβ“˜ Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Hβ“˜ LizarditeMg3(Si2O5)(OH)4
Hβ“˜ ChrysotileMg3(Si2O5)(OH)4
Hβ“˜ AntigoriteMg3(Si2O5)(OH)4
Hβ“˜ AmesiteMg2Al(AlSiO5)(OH)4
Hβ“˜ ClinochloreMg5Al(AlSi3O10)(OH)8
Hβ“˜ BruciteMg(OH)2
Hβ“˜ VesuvianiteCa19Fe3+Al4(Al6Mg2)(◻4)◻[Si2O7]4[(SiO4)10]O(OH)9
Hβ“˜ ApatiteCa5(PO4)3(Cl/F/OH)
Hβ“˜ TalcMg3Si4O10(OH)2
Hβ“˜ PhlogopiteKMg3(AlSi3O10)(OH)2
Hβ“˜ GypsumCaSO4 · 2H2O
Hβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Hβ“˜ Serpentine SubgroupD3[Si2O5](OH)4
Hβ“˜ Actinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Hβ“˜ Cummingtonite◻{Mg2}{Mg5}(Si8O22)(OH)2
Hβ“˜ NontroniteNa0.3Fe2((Si,Al)4O10)(OH)2 · nH2O
Hβ“˜ Tremolite◻{Ca2}{Mg5}(Si8O22)(OH)2
Hβ“˜ Clinozoisite{Ca2}{Al3}(Si2O7)(SiO4)O(OH)
CCarbon
Cβ“˜ DolomiteCaMg(CO3)2
Cβ“˜ CalciteCaCO3
Cβ“˜ SideriteFeCO3
Cβ“˜ AnkeriteCa(Fe2+,Mg)(CO3)2
OOxygen
Oβ“˜ DozyiteMg7Al2(Al2Si4O15)(OH)12
Oβ“˜ QuartzSiO2
Oβ“˜ MagnetiteFe2+Fe23+O4
Oβ“˜ Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Oβ“˜ LizarditeMg3(Si2O5)(OH)4
Oβ“˜ ChrysotileMg3(Si2O5)(OH)4
Oβ“˜ AntigoriteMg3(Si2O5)(OH)4
Oβ“˜ AmesiteMg2Al(AlSiO5)(OH)4
Oβ“˜ ClinochloreMg5Al(AlSi3O10)(OH)8
Oβ“˜ DolomiteCaMg(CO3)2
Oβ“˜ CalciteCaCO3
Oβ“˜ AnhydriteCaSO4
Oβ“˜ BruciteMg(OH)2
Oβ“˜ VesuvianiteCa19Fe3+Al4(Al6Mg2)(◻4)◻[Si2O7]4[(SiO4)10]O(OH)9
Oβ“˜ ApatiteCa5(PO4)3(Cl/F/OH)
Oβ“˜ TalcMg3Si4O10(OH)2
Oβ“˜ ForsteriteMg2SiO4
Oβ“˜ PhlogopiteKMg3(AlSi3O10)(OH)2
Oβ“˜ GypsumCaSO4 · 2H2O
Oβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Oβ“˜ DiopsideCaMgSi2O6
Oβ“˜ MonticelliteCaMgSiO4
Oβ“˜ AnorthiteCa(Al2Si2O8)
Oβ“˜ AndraditeCa3Fe23+(SiO4)3
Oβ“˜ Garnet GroupX3Z2(SiO4)3
Oβ“˜ GrossularCa3Al2(SiO4)3
Oβ“˜ Pyroxene GroupADSi2O6
Oβ“˜ HedenbergiteCaFe2+Si2O6
Oβ“˜ HematiteFe2O3
Oβ“˜ Serpentine SubgroupD3[Si2O5](OH)4
Oβ“˜ ScheeliteCa(WO4)
Oβ“˜ Actinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Oβ“˜ Cummingtonite◻{Mg2}{Mg5}(Si8O22)(OH)2
Oβ“˜ SideriteFeCO3
Oβ“˜ NontroniteNa0.3Fe2((Si,Al)4O10)(OH)2 · nH2O
Oβ“˜ AnkeriteCa(Fe2+,Mg)(CO3)2
Oβ“˜ K FeldsparKAlSi3O8
Oβ“˜ Tremolite◻{Ca2}{Mg5}(Si8O22)(OH)2
Oβ“˜ Clinozoisite{Ca2}{Al3}(Si2O7)(SiO4)O(OH)
Oβ“˜ AndalusiteAl2(SiO4)O
Oβ“˜ CelestineSrSO4
Oβ“˜ Quartz var. PlasmaSiO2
Oβ“˜ ZirconZr(SiO4)
FFluorine
Fβ“˜ ApatiteCa5(PO4)3(Cl/F/OH)
Fβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
NaSodium
Naβ“˜ NontroniteNa0.3Fe2((Si,Al)4O10)(OH)2 · nH2O
MgMagnesium
Mgβ“˜ DozyiteMg7Al2(Al2Si4O15)(OH)12
Mgβ“˜ LizarditeMg3(Si2O5)(OH)4
Mgβ“˜ ChrysotileMg3(Si2O5)(OH)4
Mgβ“˜ AntigoriteMg3(Si2O5)(OH)4
Mgβ“˜ AmesiteMg2Al(AlSiO5)(OH)4
Mgβ“˜ ClinochloreMg5Al(AlSi3O10)(OH)8
Mgβ“˜ DolomiteCaMg(CO3)2
Mgβ“˜ BruciteMg(OH)2
Mgβ“˜ VesuvianiteCa19Fe3+Al4(Al6Mg2)(◻4)◻[Si2O7]4[(SiO4)10]O(OH)9
Mgβ“˜ TalcMg3Si4O10(OH)2
Mgβ“˜ ForsteriteMg2SiO4
Mgβ“˜ PhlogopiteKMg3(AlSi3O10)(OH)2
Mgβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Mgβ“˜ DiopsideCaMgSi2O6
Mgβ“˜ MonticelliteCaMgSiO4
Mgβ“˜ Actinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Mgβ“˜ Cummingtonite◻{Mg2}{Mg5}(Si8O22)(OH)2
Mgβ“˜ AnkeriteCa(Fe2+,Mg)(CO3)2
Mgβ“˜ Tremolite◻{Ca2}{Mg5}(Si8O22)(OH)2
AlAluminium
Alβ“˜ DozyiteMg7Al2(Al2Si4O15)(OH)12
Alβ“˜ Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Alβ“˜ AmesiteMg2Al(AlSiO5)(OH)4
Alβ“˜ ClinochloreMg5Al(AlSi3O10)(OH)8
Alβ“˜ VesuvianiteCa19Fe3+Al4(Al6Mg2)(◻4)◻[Si2O7]4[(SiO4)10]O(OH)9
Alβ“˜ PhlogopiteKMg3(AlSi3O10)(OH)2
Alβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Alβ“˜ AnorthiteCa(Al2Si2O8)
Alβ“˜ GrossularCa3Al2(SiO4)3
Alβ“˜ NontroniteNa0.3Fe2((Si,Al)4O10)(OH)2 · nH2O
Alβ“˜ K FeldsparKAlSi3O8
Alβ“˜ Clinozoisite{Ca2}{Al3}(Si2O7)(SiO4)O(OH)
Alβ“˜ AndalusiteAl2(SiO4)O
SiSilicon
Siβ“˜ DozyiteMg7Al2(Al2Si4O15)(OH)12
Siβ“˜ QuartzSiO2
Siβ“˜ Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Siβ“˜ LizarditeMg3(Si2O5)(OH)4
Siβ“˜ ChrysotileMg3(Si2O5)(OH)4
Siβ“˜ AntigoriteMg3(Si2O5)(OH)4
Siβ“˜ AmesiteMg2Al(AlSiO5)(OH)4
Siβ“˜ ClinochloreMg5Al(AlSi3O10)(OH)8
Siβ“˜ VesuvianiteCa19Fe3+Al4(Al6Mg2)(◻4)◻[Si2O7]4[(SiO4)10]O(OH)9
Siβ“˜ TalcMg3Si4O10(OH)2
Siβ“˜ ForsteriteMg2SiO4
Siβ“˜ PhlogopiteKMg3(AlSi3O10)(OH)2
Siβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Siβ“˜ DiopsideCaMgSi2O6
Siβ“˜ MonticelliteCaMgSiO4
Siβ“˜ AnorthiteCa(Al2Si2O8)
Siβ“˜ AndraditeCa3Fe23+(SiO4)3
Siβ“˜ Garnet GroupX3Z2(SiO4)3
Siβ“˜ GrossularCa3Al2(SiO4)3
Siβ“˜ Pyroxene GroupADSi2O6
Siβ“˜ HedenbergiteCaFe2+Si2O6
Siβ“˜ Serpentine SubgroupD3[Si2O5](OH)4
Siβ“˜ Actinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Siβ“˜ Cummingtonite◻{Mg2}{Mg5}(Si8O22)(OH)2
Siβ“˜ NontroniteNa0.3Fe2((Si,Al)4O10)(OH)2 · nH2O
Siβ“˜ K FeldsparKAlSi3O8
Siβ“˜ Tremolite◻{Ca2}{Mg5}(Si8O22)(OH)2
Siβ“˜ Clinozoisite{Ca2}{Al3}(Si2O7)(SiO4)O(OH)
Siβ“˜ AndalusiteAl2(SiO4)O
Siβ“˜ Quartz var. PlasmaSiO2
Siβ“˜ ZirconZr(SiO4)
PPhosphorus
Pβ“˜ ApatiteCa5(PO4)3(Cl/F/OH)
SSulfur
Sβ“˜ BorniteCu5FeS4
Sβ“˜ PyriteFeS2
Sβ“˜ ChalcopyriteCuFeS2
Sβ“˜ AnhydriteCaSO4
Sβ“˜ AcanthiteAg2S
Sβ“˜ GalenaPbS
Sβ“˜ GypsumCaSO4 · 2H2O
Sβ“˜ IdaiteCu5FeS6
Sβ“˜ ChalcociteCu2S
Sβ“˜ CovelliteCuS
Sβ“˜ DigeniteCu9S5
Sβ“˜ SulphurS8
Sβ“˜ PyrrhotiteFe1-xS
Sβ“˜ SphaleriteZnS
Sβ“˜ ArsenopyriteFeAsS
Sβ“˜ CosalitePb2Bi2S5
Sβ“˜ BismuthiniteBi2S3
Sβ“˜ TetradymiteBi2Te2S
Sβ“˜ Tetrahedrite SubgroupCu6(Cu4C22+)Sb4S12S
Sβ“˜ CubaniteCuFe2S3
Sβ“˜ MarcasiteFeS2
Sβ“˜ Tennantite SubgroupCu6(Cu4C22+)As4S12S
Sβ“˜ CelestineSrSO4
ClChlorine
Clβ“˜ ApatiteCa5(PO4)3(Cl/F/OH)
KPotassium
Kβ“˜ PhlogopiteKMg3(AlSi3O10)(OH)2
Kβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Kβ“˜ K FeldsparKAlSi3O8
CaCalcium
Caβ“˜ Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Caβ“˜ DolomiteCaMg(CO3)2
Caβ“˜ CalciteCaCO3
Caβ“˜ AnhydriteCaSO4
Caβ“˜ VesuvianiteCa19Fe3+Al4(Al6Mg2)(◻4)◻[Si2O7]4[(SiO4)10]O(OH)9
Caβ“˜ ApatiteCa5(PO4)3(Cl/F/OH)
Caβ“˜ GypsumCaSO4 · 2H2O
Caβ“˜ DiopsideCaMgSi2O6
Caβ“˜ MonticelliteCaMgSiO4
Caβ“˜ AnorthiteCa(Al2Si2O8)
Caβ“˜ AndraditeCa3Fe23+(SiO4)3
Caβ“˜ GrossularCa3Al2(SiO4)3
Caβ“˜ HedenbergiteCaFe2+Si2O6
Caβ“˜ ScheeliteCa(WO4)
Caβ“˜ Actinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Caβ“˜ AnkeriteCa(Fe2+,Mg)(CO3)2
Caβ“˜ Tremolite◻{Ca2}{Mg5}(Si8O22)(OH)2
Caβ“˜ Clinozoisite{Ca2}{Al3}(Si2O7)(SiO4)O(OH)
TiTitanium
Tiβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
FeIron
Feβ“˜ BorniteCu5FeS4
Feβ“˜ PyriteFeS2
Feβ“˜ ChalcopyriteCuFeS2
Feβ“˜ MagnetiteFe2+Fe23+O4
Feβ“˜ Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Feβ“˜ VesuvianiteCa19Fe3+Al4(Al6Mg2)(◻4)◻[Si2O7]4[(SiO4)10]O(OH)9
Feβ“˜ IdaiteCu5FeS6
Feβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Feβ“˜ AndraditeCa3Fe23+(SiO4)3
Feβ“˜ HedenbergiteCaFe2+Si2O6
Feβ“˜ HematiteFe2O3
Feβ“˜ PyrrhotiteFe1-xS
Feβ“˜ ArsenopyriteFeAsS
Feβ“˜ Actinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Feβ“˜ SideriteFeCO3
Feβ“˜ NontroniteNa0.3Fe2((Si,Al)4O10)(OH)2 · nH2O
Feβ“˜ AnkeriteCa(Fe2+,Mg)(CO3)2
Feβ“˜ CubaniteCuFe2S3
Feβ“˜ MarcasiteFeS2
CuCopper
Cuβ“˜ BorniteCu5FeS4
Cuβ“˜ ChalcopyriteCuFeS2
Cuβ“˜ IdaiteCu5FeS6
Cuβ“˜ ChalcociteCu2S
Cuβ“˜ CovelliteCuS
Cuβ“˜ DigeniteCu9S5
Cuβ“˜ Tetrahedrite SubgroupCu6(Cu4C22+)Sb4S12S
Cuβ“˜ CubaniteCuFe2S3
Cuβ“˜ Tennantite SubgroupCu6(Cu4C22+)As4S12S
ZnZinc
Znβ“˜ SphaleriteZnS
AsArsenic
Asβ“˜ ArsenopyriteFeAsS
Asβ“˜ Tennantite SubgroupCu6(Cu4C22+)As4S12S
SrStrontium
Srβ“˜ CelestineSrSO4
ZrZirconium
Zrβ“˜ ZirconZr(SiO4)
AgSilver
Agβ“˜ AcanthiteAg2S
Agβ“˜ Gold var. Electrum(Au,Ag)
Agβ“˜ PetziteAg3AuTe2
Agβ“˜ HessiteAg2Te
SbAntimony
Sbβ“˜ Tetrahedrite SubgroupCu6(Cu4C22+)Sb4S12S
TeTellurium
Teβ“˜ TetradymiteBi2Te2S
Teβ“˜ PetziteAg3AuTe2
Teβ“˜ HessiteAg2Te
Teβ“˜ AltaitePbTe
WTungsten
Wβ“˜ ScheeliteCa(WO4)
AuGold
Auβ“˜ GoldAu
Auβ“˜ Gold var. Electrum(Au,Ag)
Auβ“˜ PetziteAg3AuTe2
PbLead
Pbβ“˜ GalenaPbS
Pbβ“˜ CosalitePb2Bi2S5
Pbβ“˜ AltaitePbTe
BiBismuth
Biβ“˜ BismuthBi
Biβ“˜ CosalitePb2Bi2S5
Biβ“˜ BismuthiniteBi2S3
Biβ“˜ TetradymiteBi2Te2S

Localities in this Region

Indonesia

Other Regions, Features and Areas that Intersect

Australia
Indonesia
Maoke PlateTectonic Plate
New GuineaIsland

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