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Pobeda-1 hydrothermal field, Mid-Atlantic Ridge complex, Atlantic Oceani
Regional Level Types
Pobeda-1 hydrothermal field- not defined -
Mid-Atlantic Ridge complexMid-Ocean Ridge
Atlantic OceanOcean

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Key
Latitude & Longitude (WGS84):
17° 8' 42'' North , 46° 23' 30'' West
Latitude & Longitude (decimal):
Age:
.0096 to .0064 Ma
Geologic Time:
Dating method:
C14
Reference for age:
Kuksa, K. A., Tabuns, E. V., Bich, A. S., Petrov, A. Y., & Maksimov, F. E. (2017). Metalliferous sediments of the hydrothermal field Pobeda-1, Mid-Atlantic Ridge: key to the geochemical and temporal evolution of the venting system. In Magmatism of the Ear


Four sulfide ore bodies composed of several ~10 m high edifices and ore talus.

Select Mineral List Type

Standard Detailed Strunz Dana Chemical Elements

Mineral List


41 valid minerals.

Rock Types Recorded

Note: this is a very new system on mindat.org and data is currently VERY limited. Please bear with us while we work towards adding this information!

Select Rock List Type

Alphabetical List Tree Diagram

Detailed Mineral List:

Åkermanite
Formula: Ca2Mg(Si2O7)
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Anhydrite
Formula: CaSO4
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Aragonite
Formula: CaCO3
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Atacamite
Formula: Cu2(OH)3Cl
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
'Biotite'
Formula: K(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Bornite
Formula: Cu5FeS4
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Calcite
Formula: CaCO3
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Chalcopyrite
Formula: CuFeS2
Reference: Kuksa, K. A., Tabuns, E. V., Bich, A. S., Petrov, A. Y., & Maksimov, F. E. (2017). Metalliferous sediments of the hydrothermal field Pobeda-1, Mid-Atlantic Ridge: key to the geochemical and temporal evolution of the venting system. In Magmatism of the Earth and related strategic metal deposits (pp. 127-129).; Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
'Chlorite Group'
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
'Clinoptilolite'
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Cobaltite
Formula: CoAsS
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Covellite
Formula: CuS
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Dolomite
Formula: CaMg(CO3)2
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Eriochalcite
Formula: CuCl2 · 2H2O
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Ferricopiapite
Formula: Fe5(SO4)6O(OH) · 20H2O
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Gallite
Formula: CuGaS2
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Goethite
Formula: α-Fe3+O(OH)
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Gold
Formula: Au
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Gypsum
Formula: CaSO4 · 2H2O
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Isocubanite
Formula: CuFe2S3
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Lizardite
Formula: Mg3(Si2O5)(OH)4
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Magnesite
Formula: MgCO3
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Marcasite
Formula: FeS2
Reference: Kuksa, K. A., Tabuns, E. V., Bich, A. S., Petrov, A. Y., & Maksimov, F. E. (2017). Metalliferous sediments of the hydrothermal field Pobeda-1, Mid-Atlantic Ridge: key to the geochemical and temporal evolution of the venting system. In Magmatism of the Earth and related strategic metal deposits (pp. 127-129).; Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Muscovite
Formula: KAl2(AlSi3O10)(OH)2
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Natrojarosite
Formula: NaFe3(SO4)2(OH)6
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Nepheline
Formula: Na3K(Al4Si4O16)
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Nesquehonite
Formula: MgCO3 · 3H2O
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Opal
Formula: SiO2 · nH2O
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Palygorskite
Formula: (Mg,Al)5(Si,Al)8O20(OH)2 · 8H2O
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Parabutlerite
Formula: Fe3+(SO4)(OH) · 2H2O
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Phlogopite
Formula: KMg3(AlSi3O10)(OH)2
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Plagionite
Formula: Pb5Sb8S17
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Pyrite
Formula: FeS2
Reference: Kuksa, K. A., Tabuns, E. V., Bich, A. S., Petrov, A. Y., & Maksimov, F. E. (2017). Metalliferous sediments of the hydrothermal field Pobeda-1, Mid-Atlantic Ridge: key to the geochemical and temporal evolution of the venting system. In Magmatism of the Earth and related strategic metal deposits (pp. 127-129).; Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Pyrrhotite
Formula: Fe7S8
Reference: Kuksa, K. A., Tabuns, E. V., Bich, A. S., Petrov, A. Y., & Maksimov, F. E. (2017). Metalliferous sediments of the hydrothermal field Pobeda-1, Mid-Atlantic Ridge: key to the geochemical and temporal evolution of the venting system. In Magmatism of the Earth and related strategic metal deposits (pp. 127-129).; Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Quartz
Formula: SiO2
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
'Serpentine Subgroup'
Formula: D3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Sideronatrite
Formula: Na2Fe(SO4)2(OH) · 3H2O
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Silver
Formula: Ag
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Sphalerite
Formula: ZnS
Reference: Kuksa, K. A., Tabuns, E. V., Bich, A. S., Petrov, A. Y., & Maksimov, F. E. (2017). Metalliferous sediments of the hydrothermal field Pobeda-1, Mid-Atlantic Ridge: key to the geochemical and temporal evolution of the venting system. In Magmatism of the Earth and related strategic metal deposits (pp. 127-129).; Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Stromeyerite
Formula: AgCuS
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Sulphur
Formula: S8
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Szomolnokite
Formula: FeSO4 · H2O
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Talc
Formula: Mg3Si4O10(OH)2
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Tarbuttite
Formula: Zn2(PO4)(OH)
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
Troilite
Formula: FeS
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.
'Wad'
Reference: Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.

List of minerals arranged by Strunz 10th Edition classification

Group 1 - Elements
Gold1.AA.05Au
Silver1.AA.05Ag
Sulphur1.CC.05S8
Group 2 - Sulphides and Sulfosalts
Bornite2.BA.15Cu5FeS4
Chalcopyrite2.CB.10aCuFeS2
Cobaltite2.EB.25CoAsS
Covellite2.CA.05aCuS
Gallite2.CB.10aCuGaS2
Isocubanite2.CB.55bCuFe2S3
Marcasite2.EB.10aFeS2
Plagionite2.HC.10bPb5Sb8S17
Pyrite2.EB.05aFeS2
Pyrrhotite2.CC.10Fe7S8
Sphalerite2.CB.05aZnS
Stromeyerite2.BA.40AgCuS
Troilite2.CC.10FeS
Group 3 - Halides
Atacamite3.DA.10aCu2(OH)3Cl
Eriochalcite3.BB.05CuCl2 · 2H2O
Group 4 - Oxides and Hydroxides
Goethite4.00.α-Fe3+O(OH)
Opal4.DA.10SiO2 · nH2O
Quartz4.DA.05SiO2
Group 5 - Nitrates and Carbonates
Aragonite5.AB.15CaCO3
Calcite5.AB.05CaCO3
Dolomite5.AB.10CaMg(CO3)2
Magnesite5.AB.05MgCO3
Nesquehonite5.CA.05MgCO3 · 3H2O
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
Anhydrite7.AD.30CaSO4
Ferricopiapite7.DB.35Fe5(SO4)6O(OH) · 20H2O
Gypsum7.CD.40CaSO4 · 2H2O
Natrojarosite7.BC.10NaFe3(SO4)2(OH)6
Parabutlerite7.DC.10Fe3+(SO4)(OH) · 2H2O
Sideronatrite7.DF.20Na2Fe(SO4)2(OH) · 3H2O
Szomolnokite7.CB.05FeSO4 · H2O
Group 8 - Phosphates, Arsenates and Vanadates
Tarbuttite8.BB.35Zn2(PO4)(OH)
Group 9 - Silicates
Lizardite9.ED.15Mg3(Si2O5)(OH)4
Muscovite9.EC.15KAl2(AlSi3O10)(OH)2
Nepheline9.FA.05Na3K(Al4Si4O16)
Palygorskite9.EE.20(Mg,Al)5(Si,Al)8O20(OH)2 · 8H2O
Phlogopite9.EC.20KMg3(AlSi3O10)(OH)2
Talc9.EC.05Mg3Si4O10(OH)2
Åkermanite9.BB.10Ca2Mg(Si2O7)
Unclassified Minerals, Rocks, etc.
'Biotite'-K(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
'Chlorite Group'-
'Clinoptilolite'-
'Serpentine Subgroup'-D3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
'Wad'-

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
Silver1.1.1.2Ag
Semi-metals and non-metals
Sulphur1.3.5.1S8
Group 2 - SULFIDES
AmBnXp, with (m+n):p = 2:1
Stromeyerite2.4.6.1AgCuS
AmBnXp, with (m+n):p = 3:2
Bornite2.5.2.1Cu5FeS4
AmXp, with m:p = 1:1
Covellite2.8.12.1CuS
Pyrrhotite2.8.10.1Fe7S8
Sphalerite2.8.2.1ZnS
Troilite2.8.9.1FeS
AmBnXp, with (m+n):p = 1:1
Chalcopyrite2.9.1.1CuFeS2
Gallite2.9.1.3CuGaS2
Isocubanite2.9.13.3CuFe2S3
AmBnXp, with (m+n):p = 1:2
Cobaltite2.12.3.1CoAsS
Marcasite2.12.2.1FeS2
Pyrite2.12.1.1FeS2
Group 3 - SULFOSALTS
2 < ø < 2.49
Plagionite3.6.20.2Pb5Sb8S17
Group 6 - HYDROXIDES AND OXIDES CONTAINING HYDROXYL
XO(OH)
Goethite6.1.1.2α-Fe3+O(OH)
Group 9 - NORMAL HALIDES
AX2
Eriochalcite9.2.8.1CuCl2 · 2H2O
Group 10 - OXYHALIDES AND HYDROXYHALIDES
A2(O,OH)3Xq
Atacamite10.1.1.1Cu2(OH)3Cl
Group 13 - ACID CARBONATES
Miscellaneous
Nesquehonite13.1.5.1MgCO3 · 3H2O
Group 14 - ANHYDROUS NORMAL CARBONATES
A(XO3)
Calcite14.1.1.1CaCO3
Magnesite14.1.1.2MgCO3
AB(XO3)2
Dolomite14.2.1.1CaMg(CO3)2
Group 28 - ANHYDROUS ACID AND NORMAL SULFATES
AXO4
Anhydrite28.3.2.1CaSO4
Group 29 - HYDRATED ACID AND NORMAL SULFATES
AXO4·xH2O
Gypsum29.6.3.1CaSO4 · 2H2O
Szomolnokite29.6.2.2FeSO4 · H2O
Group 31 - HYDRATED SULFATES CONTAINING HYDROXYL OR HALOGEN
(AB)3(XO4)2Zq·xH2O
Sideronatrite31.8.3.1Na2Fe(SO4)2(OH) · 3H2O
(AB)(XO4)Zq·xH2O
Parabutlerite31.9.2.1Fe3+(SO4)(OH) · 2H2O
Miscellaneous
Ferricopiapite31.10.5.4Fe5(SO4)6O(OH) · 20H2O
Group 41 - ANHYDROUS PHOSPHATES, ETC.CONTAINING HYDROXYL OR HALOGEN
A2(XO4)Zq
Tarbuttite41.6.7.1Zn2(PO4)(OH)
Group 55 - SOROSILICATES Si2O7 Groups,Generally with no Additional Anions
Si2O7 Groups, Generally with No Additional Anions with cations in [8] and lower coordination
Åkermanite55.4.1.1Ca2Mg(Si2O7)
Group 71 - PHYLLOSILICATES Sheets of Six-Membered Rings
Sheets of 6-membered rings with 1:1 layers
Lizardite71.1.2b.2Mg3(Si2O5)(OH)4
Sheets of 6-membered rings with 2:1 layers
Muscovite71.2.2a.1KAl2(AlSi3O10)(OH)2
Phlogopite71.2.2b.1KMg3(AlSi3O10)(OH)2
Talc71.2.1.3Mg3Si4O10(OH)2
Group 74 - PHYLLOSILICATES Modulated Layers
Modulated Layers with joined strips
Palygorskite74.3.1a.1(Mg,Al)5(Si,Al)8O20(OH)2 · 8H2O
Group 75 - TECTOSILICATES Si Tetrahedral Frameworks
Si Tetrahedral Frameworks - SiO2 with [4] coordinated Si
Quartz75.1.3.1SiO2
Si Tetrahedral Frameworks - SiO2 with H2O and organics
Opal75.2.1.1SiO2 · nH2O
Group 76 - TECTOSILICATES Al-Si Framework
Al-Si Framework Feldspathoids and related species
Nepheline76.2.1.2Na3K(Al4Si4O16)
Unclassified Minerals, Mixtures, etc.
Aragonite-CaCO3
'Biotite'-K(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
'Chlorite Group'-
'Clinoptilolite'-
Natrojarosite-NaFe3(SO4)2(OH)6
'Serpentine Subgroup'-D3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
'Wad'-

List of minerals for each chemical element

HHydrogen
H OpalSiO2 · nH2O
H Goethiteα-Fe3+O(OH)
H TalcMg3Si4O10(OH)2
H Palygorskite(Mg,Al)5(Si,Al)8O20(OH)2 · 8H2O
H AtacamiteCu2(OH)3Cl
H BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
H EriochalciteCuCl2 · 2H2O
H FerricopiapiteFe5(SO4)6O(OH) · 20H2O
H GypsumCaSO4 · 2H2O
H LizarditeMg3(Si2O5)(OH)4
H MuscoviteKAl2(AlSi3O10)(OH)2
H NatrojarositeNaFe3(SO4)2(OH)6
H NesquehoniteMgCO3 · 3H2O
H ParabutleriteFe3+(SO4)(OH) · 2H2O
H PhlogopiteKMg3(AlSi3O10)(OH)2
H Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
H SideronatriteNa2Fe(SO4)2(OH) · 3H2O
H TarbuttiteZn2(PO4)(OH)
H SzomolnokiteFeSO4 · H2O
CCarbon
C CalciteCaCO3
C AragoniteCaCO3
C DolomiteCaMg(CO3)2
C MagnesiteMgCO3
C NesquehoniteMgCO3 · 3H2O
OOxygen
O QuartzSiO2
O OpalSiO2 · nH2O
O Goethiteα-Fe3+O(OH)
O CalciteCaCO3
O TalcMg3Si4O10(OH)2
O Palygorskite(Mg,Al)5(Si,Al)8O20(OH)2 · 8H2O
O ÅkermaniteCa2Mg(Si2O7)
O AtacamiteCu2(OH)3Cl
O AnhydriteCaSO4
O AragoniteCaCO3
O BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
O DolomiteCaMg(CO3)2
O EriochalciteCuCl2 · 2H2O
O FerricopiapiteFe5(SO4)6O(OH) · 20H2O
O GypsumCaSO4 · 2H2O
O LizarditeMg3(Si2O5)(OH)4
O MagnesiteMgCO3
O MuscoviteKAl2(AlSi3O10)(OH)2
O NatrojarositeNaFe3(SO4)2(OH)6
O NesquehoniteMgCO3 · 3H2O
O ParabutleriteFe3+(SO4)(OH) · 2H2O
O PhlogopiteKMg3(AlSi3O10)(OH)2
O Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
O SideronatriteNa2Fe(SO4)2(OH) · 3H2O
O TarbuttiteZn2(PO4)(OH)
O NephelineNa3K(Al4Si4O16)
O SzomolnokiteFeSO4 · H2O
FFluorine
F BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
NaSodium
Na NatrojarositeNaFe3(SO4)2(OH)6
Na SideronatriteNa2Fe(SO4)2(OH) · 3H2O
Na NephelineNa3K(Al4Si4O16)
MgMagnesium
Mg TalcMg3Si4O10(OH)2
Mg Palygorskite(Mg,Al)5(Si,Al)8O20(OH)2 · 8H2O
Mg ÅkermaniteCa2Mg(Si2O7)
Mg BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
Mg DolomiteCaMg(CO3)2
Mg LizarditeMg3(Si2O5)(OH)4
Mg MagnesiteMgCO3
Mg NesquehoniteMgCO3 · 3H2O
Mg PhlogopiteKMg3(AlSi3O10)(OH)2
Mg Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
AlAluminium
Al Palygorskite(Mg,Al)5(Si,Al)8O20(OH)2 · 8H2O
Al BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
Al MuscoviteKAl2(AlSi3O10)(OH)2
Al PhlogopiteKMg3(AlSi3O10)(OH)2
Al Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
Al NephelineNa3K(Al4Si4O16)
SiSilicon
Si QuartzSiO2
Si OpalSiO2 · nH2O
Si TalcMg3Si4O10(OH)2
Si Palygorskite(Mg,Al)5(Si,Al)8O20(OH)2 · 8H2O
Si ÅkermaniteCa2Mg(Si2O7)
Si BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
Si LizarditeMg3(Si2O5)(OH)4
Si MuscoviteKAl2(AlSi3O10)(OH)2
Si PhlogopiteKMg3(AlSi3O10)(OH)2
Si Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
Si NephelineNa3K(Al4Si4O16)
PPhosphorus
P TarbuttiteZn2(PO4)(OH)
SSulfur
S ChalcopyriteCuFeS2
S PyriteFeS2
S PyrrhotiteFe7S8
S SphaleriteZnS
S MarcasiteFeS2
S SulphurS8
S IsocubaniteCuFe2S3
S BorniteCu5FeS4
S CovelliteCuS
S AnhydriteCaSO4
S CobaltiteCoAsS
S FerricopiapiteFe5(SO4)6O(OH) · 20H2O
S GalliteCuGaS2
S GypsumCaSO4 · 2H2O
S NatrojarositeNaFe3(SO4)2(OH)6
S ParabutleriteFe3+(SO4)(OH) · 2H2O
S PlagionitePb5Sb8S17
S SideronatriteNa2Fe(SO4)2(OH) · 3H2O
S StromeyeriteAgCuS
S TroiliteFeS
S SzomolnokiteFeSO4 · H2O
ClChlorine
Cl AtacamiteCu2(OH)3Cl
Cl EriochalciteCuCl2 · 2H2O
KPotassium
K BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
K MuscoviteKAl2(AlSi3O10)(OH)2
K PhlogopiteKMg3(AlSi3O10)(OH)2
K NephelineNa3K(Al4Si4O16)
CaCalcium
Ca CalciteCaCO3
Ca ÅkermaniteCa2Mg(Si2O7)
Ca AnhydriteCaSO4
Ca AragoniteCaCO3
Ca DolomiteCaMg(CO3)2
Ca GypsumCaSO4 · 2H2O
MnManganese
Mn Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
FeIron
Fe ChalcopyriteCuFeS2
Fe PyriteFeS2
Fe PyrrhotiteFe7S8
Fe MarcasiteFeS2
Fe Goethiteα-Fe3+O(OH)
Fe IsocubaniteCuFe2S3
Fe BorniteCu5FeS4
Fe BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg)([Si/Al]Si2O10)(OH/F)2
Fe FerricopiapiteFe5(SO4)6O(OH) · 20H2O
Fe NatrojarositeNaFe3(SO4)2(OH)6
Fe ParabutleriteFe3+(SO4)(OH) · 2H2O
Fe Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
Fe SideronatriteNa2Fe(SO4)2(OH) · 3H2O
Fe TroiliteFeS
Fe SzomolnokiteFeSO4 · H2O
CoCobalt
Co CobaltiteCoAsS
NiNickel
Ni Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
CuCopper
Cu ChalcopyriteCuFeS2
Cu IsocubaniteCuFe2S3
Cu BorniteCu5FeS4
Cu CovelliteCuS
Cu AtacamiteCu2(OH)3Cl
Cu EriochalciteCuCl2 · 2H2O
Cu GalliteCuGaS2
Cu StromeyeriteAgCuS
ZnZinc
Zn SphaleriteZnS
Zn Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
Zn TarbuttiteZn2(PO4)(OH)
GaGallium
Ga GalliteCuGaS2
AsArsenic
As CobaltiteCoAsS
AgSilver
Ag SilverAg
Ag StromeyeriteAgCuS
SbAntimony
Sb PlagionitePb5Sb8S17
AuGold
Au GoldAu
PbLead
Pb PlagionitePb5Sb8S17

References

Sort by

Year (asc) Year (desc) Author (A-Z) Author (Z-A)
Kuksa, K.A., Tabuns, E.V., Bich, A.S., Petrov, A.Y., Maksimov, F.E. (2017) Metalliferous sediments of the hydrothermal field Pobeda-1, Mid-Atlantic Ridge: key to the geochemical and temporal evolution of the venting system. In Magmatism of the Earth and related strategic metal deposits, Proceedings of XXXIV International conference, Miass, 4-9 August 2017 (pp. 127-129).
Gablina, I. F., Dobretzova, I. G., Laiba, A. A., Narkevsky, E. V., Maksimov, F. E., & Kuznetsov, V. Y. (2018). Specific Features of Sulfide Ores in the Pobeda Hydrothermal Cluster, Mid-Atlantic Rise 17° 07′–17° 08′ N. Lithology and Mineral Resources, 53(6), 431-454.

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