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Zolotaya Gora Au deposit (Zlataya Gora; Zlatoya Gora), Soimon Valley, Karabash, Chelyabinsk Oblast, Russiai
Regional Level Types
Zolotaya Gora Au deposit (Zlataya Gora; Zlatoya Gora)Deposit
Soimon ValleyValley
KarabashTown
Chelyabinsk OblastOblast
RussiaCountry

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Key
Latitude & Longitude (WGS84):
55° 30' North , 60° 0' East
Latitude & Longitude (decimal):
Locality type:
Nearest Settlements:
PlacePopulationDistance
Karabash15,630 (2012)13.7km
Magnitka5,784 (2012)25.6km
Turgoyak2,275 (2012)39.6km
Zlatoust191,366 (2012)42.7km
Nizhniy Ufaley2,818 (2012)46.2km


Gold deposit in rodingite surrounded by serpentinites. Discovered 1891, mined from 1902-1946


Select Mineral List Type

Standard Detailed Strunz Dana Chemical Elements

Commodity List

This is a list of exploitable or exploited mineral commodities recorded at this locality.


Mineral List


54 valid minerals. 2 (TL) - type locality of 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:

Agardite-(Ce)
Formula: CeCu6(AsO4)3(OH)6 · 3H2O
Reference: Vladimir Yu. Karpenko data
'Allanite Group'
Formula: {A12+REE3+}{M3+2M32+}(Si2O7)(SiO4)O(OH)
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
'Ancylite'
Reference: Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Andradite
Formula: Ca3Fe3+2(SiO4)3
Reference: http://www.lagerstaetten.tu-berlin.de/staff/mschmitz/Zolotaya%20Gora.html; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Andradite var: Hydroandradite
Formula: Ca3Fe3+2(SiO4)3-x(OH)4x
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Antigorite
Formula: Mg3(Si2O5)(OH)4
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Antimony
Formula: Sb
Reference: http://maurice.strahlen.org/ural/srednji.htm; Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
'Apatite'
Formula: Ca5(PO4)3(Cl/F/OH)
Reference: Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Auricupride (TL)
Formula: Cu3Au
Type Locality:
Reference: Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Auricupride var: Rozhkovite
Formula: Cu3Au
Reference: Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Baddeleyite
Formula: ZrO2
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Bornite
Formula: Cu5FeS4
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Breithauptite
Formula: NiSb
Reference: Gritsenko, Y.D., and Spiridonov, E.M. (2008): Geology of Ore Deposits 50(7), 590-598.; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
'Calcioancylite'
Reference: Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Calcioancylite-(Ce)
Formula: (Ce,Ca,Sr)CO3(OH,H2O)
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.
Calcite
Formula: CaCO3
Reference: Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Chalcocite
Formula: Cu2S
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Chalcopyrite
Formula: CuFeS2
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
'Chlorite Group'
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
'Chrome-Spinel (of Dana)'
Reference: Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Chrysocolla
Formula: Cu2-xAlx(H2-xSi2O5)(OH)4 · nH2O
Reference: Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
Clinochlore
Formula: Mg5Al(AlSi3O10)(OH)8
Reference: Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Clinochlore var: Pennine
Formula: Mg5Al(AlSi3O10)(OH)8
Reference: Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
'Clinopyroxene Subgroup'
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Copper
Formula: Cu
Reference: Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Cuprite
Formula: Cu2O
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Cuprostibite
Formula: Cu2(Sb,Tl)
Reference: http://maurice.strahlen.org/ural/srednji.htm; Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Bryzgalov, I. A., Krivitskaya, N. N., & Spiridonov, E. M. (2007, November). First finding of nisbite and aurostibite in the eastern Transbaikal region. In Doklady Earth Sciences (Vol. 417, No. 1, pp. 1265-1267). MAIK Nauka/Interperiodica.; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Diopside
Formula: CaMgSi2O6
Reference: Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Dolomite
Formula: CaMg(CO3)2
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Epidote
Formula: {Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Reference: Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Fluorapatite
Formula: Ca5(PO4)3F
Galena
Formula: PbS
Reference: Bryzgalov, I. A., Krivitskaya, N. N., & Spiridonov, E. M. (2007, November). First finding of nisbite and aurostibite in the eastern Transbaikal region. In Doklady Earth Sciences (Vol. 417, No. 1, pp. 1265-1267). MAIK Nauka/Interperiodica.; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
'Garnet Group'
Formula: X3Z2(SiO4)3
Reference: Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Godlevskite
Formula: (Ni,Fe)9S8
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Gold
Formula: Au
Reference: Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Greenockite
Formula: CdS
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Grossular
Formula: Ca3Al2(SiO4)3
Reference: Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Gudmundite
Formula: FeSbS
Reference: http://maurice.strahlen.org/ural/srednji.htm; Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Bryzgalov, I. A., Krivitskaya, N. N., & Spiridonov, E. M. (2007, November). First finding of nisbite and aurostibite in the eastern Transbaikal region. In Doklady Earth Sciences (Vol. 417, No. 1, pp. 1265-1267). MAIK Nauka/Interperiodica.; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Heazlewoodite
Formula: Ni3S2
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Hydroxylapatite
Formula: Ca5(PO4)3(OH)
Reference: Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Hydroxylapatite var: Carbonate-rich Hydroxylapatite
Formula: Ca5(PO4,CO3)3(OH,O)
Reference: Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Ilmenite
Formula: Fe2+TiO3
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Lead
Formula: Pb
Reference: http://maurice.strahlen.org/ural/srednji.htm; Bryzgalov, I. A., Krivitskaya, N. N., & Spiridonov, E. M. (2007, November). First finding of nisbite and aurostibite in the eastern Transbaikal region. In Doklady Earth Sciences (Vol. 417, No. 1, pp. 1265-1267). MAIK Nauka/Interperiodica.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Lizardite
Formula: Mg3(Si2O5)(OH)4
Reference: http://maurice.strahlen.org/ural/srednji.htm
Magnetite
Formula: Fe2+Fe3+2O4
Reference: Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Maucherite
Formula: Ni11As8
Reference: Gritsenko, Y.D., and Spiridonov, E.M. (2008): Geology of Ore Deposits 50(7), 590-598.; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Millerite
Formula: NiS
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Mundite
Formula: Al(UO2)3(PO4)2(OH)3 · 5.5H2O
Reference: Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Nickeline
Formula: NiAs
Reference: Gritsenko, Y.D., and Spiridonov, E.M. (2008): Geology of Ore Deposits 50(7), 590-598.; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Nisbite
Formula: NiSb2
Reference: http://maurice.strahlen.org/ural/srednji.htm; Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Bryzgalov, I. A., Krivitskaya, N. N., & Spiridonov, E. M. (2007, November). First finding of nisbite and aurostibite in the eastern Transbaikal region. In Doklady Earth Sciences (Vol. 417, No. 1, pp. 1265-1267). MAIK Nauka/Interperiodica.; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Orcelite
Formula: Ni5-xAs2, x ~ 0.25
Reference: Gritsenko, Y.D., and Spiridonov, E.M. (2008): Geology of Ore Deposits 50(7), 590-598.; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Pentlandite
Formula: (FexNiy)Σ9S8
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Perovskite
Formula: CaTiO3
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Quartz
Formula: SiO2
Reference: Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Rutile
Formula: TiO2
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Seinäjokite
Formula: (Fe,Ni)(Sb,As)2
Reference: http://maurice.strahlen.org/ural/srednji.htm; Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Bryzgalov, I. A., Krivitskaya, N. N., & Spiridonov, E. M. (2007, November). First finding of nisbite and aurostibite in the eastern Transbaikal region. In Doklady Earth Sciences (Vol. 417, No. 1, pp. 1265-1267). MAIK Nauka/Interperiodica.; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
'Serpentine Subgroup'
Formula: D3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
Reference: Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow
Silver
Formula: Ag
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.
Spinel
Formula: MgAl2O4
Reference: Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
'Spinel Group'
Formula: AE2O4
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.
Tetra-auricupride
Formula: AuCu
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Thorianite
Formula: ThO2
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Titanite
Formula: CaTi(SiO4)O
Reference: http://www.lagerstaetten.tu-berlin.de/staff/mschmitz/Zolotaya%20Gora.html; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Ullmannite
Formula: NiSbS
Reference: http://maurice.strahlen.org/ural/srednji.htm; Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Bryzgalov, I. A., Krivitskaya, N. N., & Spiridonov, E. M. (2007, November). First finding of nisbite and aurostibite in the eastern Transbaikal region. In Doklady Earth Sciences (Vol. 417, No. 1, pp. 1265-1267). MAIK Nauka/Interperiodica.; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Uraninite
Formula: UO2
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Vesuvianite
Formula: (Ca,Na,☐)19(Al,Mg,Fe3+)13(☐,B,Al,Fe3+)5(Si2O7)4(SiO4)10(OH,F,O)10
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
'Wolframite'
Formula: (Fe2+)WO4 to (Mn2+)WO4
Reference: Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Zircon
Formula: Zr(SiO4)
Reference: Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Zlatogorite (TL)
Formula: NiCuSb2
Type Locality:
Reference: Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Bryzgalov, I. A., Krivitskaya, N. N., & Spiridonov, E. M. (2007, November). First finding of nisbite and aurostibite in the eastern Transbaikal region. In Doklady Earth Sciences (Vol. 417, No. 1, pp. 1265-1267). MAIK Nauka/Interperiodica.; Murzin, V. V., Chudnenko, K. V., Palyanova, G. A., Varlamov, D. A., Naumov, E. A., & Pirajno, F. (2018). Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.; Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.

List of minerals arranged by Strunz 10th Edition classification

Group 1 - Elements
Antimony1.CA.05Sb
Auricupride (TL)1.AA.10aCu3Au
var: Rozhkovite1.AA.10aCu3Au
Copper1.AA.05Cu
Gold1.AA.05Au
Lead1.AA.05Pb
Silver1.AA.05Ag
Tetra-auricupride1.AA.10bAuCu
Group 2 - Sulphides and Sulfosalts
Bornite2.BA.15Cu5FeS4
Breithauptite2.CC.05NiSb
Chalcocite2.BA.05Cu2S
Chalcopyrite2.CB.10aCuFeS2
Cuprostibite2.AA.20Cu2(Sb,Tl)
Galena2.CD.10PbS
Godlevskite2.BB.15(Ni,Fe)9S8
Greenockite2.CB.45CdS
Gudmundite2.EB.20FeSbS
Heazlewoodite2.BB.05Ni3S2
Maucherite2.AB.15Ni11As8
Millerite2.CC.20NiS
Nickeline2.CC.05NiAs
Nisbite2.EB.15aNiSb2
Orcelite2.AB.10Ni5-xAs2, x ~ 0.25
Pentlandite2.BB.15(FexNiy)Σ9S8
Seinäjokite2.EB.15b(Fe,Ni)(Sb,As)2
Ullmannite2.EB.25NiSbS
Zlatogorite (TL)2.CC.05NiCuSb2
Group 4 - Oxides and Hydroxides
Baddeleyite4.DE.35ZrO2
Cuprite4.AA.10Cu2O
Ilmenite4.CB.05Fe2+TiO3
Magnetite4.BB.05Fe2+Fe3+2O4
Perovskite4.CC.30CaTiO3
Quartz4.DA.05SiO2
Rutile4.DB.05TiO2
Spinel4.BB.05MgAl2O4
Thorianite4.DL.05ThO2
Uraninite4.DL.05UO2
Group 5 - Nitrates and Carbonates
Calcioancylite-(Ce)5.DC.05(Ce,Ca,Sr)CO3(OH,H2O)
Calcite5.AB.05CaCO3
Dolomite5.AB.10CaMg(CO3)2
Group 8 - Phosphates, Arsenates and Vanadates
Agardite-(Ce)8.DL.15CeCu6(AsO4)3(OH)6 · 3H2O
Fluorapatite8.BN.05Ca5(PO4)3F
Hydroxylapatite8.BN.05Ca5(PO4)3(OH)
var: Carbonate-rich Hydroxylapatite8.BN.05Ca5(PO4,CO3)3(OH,O)
Mundite8.EC.30Al(UO2)3(PO4)2(OH)3 · 5.5H2O
Group 9 - Silicates
Andradite9.AD.25Ca3Fe3+2(SiO4)3
var: Hydroandradite9.AD.25Ca3Fe3+2(SiO4)3-x(OH)4x
Antigorite9.ED.15Mg3(Si2O5)(OH)4
Chrysocolla9.ED.20Cu2-xAlx(H2-xSi2O5)(OH)4 · nH2O
Clinochlore9.EC.55Mg5Al(AlSi3O10)(OH)8
var: Pennine9.EC.55Mg5Al(AlSi3O10)(OH)8
Diopside9.DA.15CaMgSi2O6
Epidote9.BG.05a{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Grossular9.AD.25Ca3Al2(SiO4)3
Lizardite9.ED.15Mg3(Si2O5)(OH)4
Titanite9.AG.15CaTi(SiO4)O
Vesuvianite9.BG.35(Ca,Na,☐)19(Al,Mg,Fe3+)13(☐,B,Al,Fe3+)5(Si2O7)4(SiO4)10(OH,F,O)10
Zircon9.AD.30Zr(SiO4)
Unclassified Minerals, Rocks, etc.
'Allanite Group'-{A12+REE3+}{M3+2M32+}(Si2O7)(SiO4)O(OH)
'Ancylite'-
'Apatite'-Ca5(PO4)3(Cl/F/OH)
'Calcioancylite'-
'Chlorite Group'-
'Chrome-Spinel (of Dana)'-
'Clinopyroxene Subgroup'-
'Garnet Group'-X3Z2(SiO4)3
'Serpentine Subgroup'-D3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
'Spinel Group'-AE2O4
'Wolframite'-(Fe2+)WO4to (Mn2+)WO4

List of minerals arranged by Dana 8th Edition classification

Group 1 - NATIVE ELEMENTS AND ALLOYS
Metals, other than the Platinum Group
Auricupride (TL)1.1.2.1Cu3Au
Copper1.1.1.3Cu
Gold1.1.1.1Au
Lead1.1.1.4Pb
Silver1.1.1.2Ag
Tetra-auricupride1.1.2.2AuCu
Semi-metals and non-metals
Antimony1.3.1.2Sb
Group 2 - SULFIDES
AmBnXp, with (m+n):p = 5:2
Orcelite2.3.2.1Ni5-xAs2, x ~ 0.25
AmBnXp, with (m+n):p = 2:1
Chalcocite2.4.7.1Cu2S
Cuprostibite2.4.11.1Cu2(Sb,Tl)
AmBnXp, with (m+n):p = 3:2
Bornite2.5.2.1Cu5FeS4
Heazlewoodite2.5.3.1Ni3S2
AmBnXp, with (m+n):p = 9:8
Godlevskite2.7.4.1(Ni,Fe)9S8
Pentlandite2.7.1.1(FexNiy)Σ9S8
AmXp, with m:p = 1:1
Breithauptite2.8.11.2NiSb
Galena2.8.1.1PbS
Greenockite2.8.7.2CdS
Millerite2.8.16.1NiS
Nickeline2.8.11.1NiAs
AmBnXp, with (m+n):p = 1:1
Chalcopyrite2.9.1.1CuFeS2
AmBnXp, with (m+n):p = 1:2
Gudmundite2.12.4.2FeSbS
Nisbite2.12.2.13NiSb2
Seinäjokite2.12.2.10(Fe,Ni)(Sb,As)2
Ullmannite2.12.3.3NiSbS
Miscellaneous
Maucherite2.16.16.1Ni11As8
Group 4 - SIMPLE OXIDES
A2X
Cuprite4.1.1.1Cu2O
A2X3
Ilmenite4.3.5.1Fe2+TiO3
Perovskite4.3.3.1CaTiO3
AX2
Baddeleyite4.4.14.1ZrO2
Rutile4.4.1.1TiO2
Group 5 - OXIDES CONTAINING URANIUM OR THORIUM
AXO2·xH2O
Thorianite5.1.1.2ThO2
Uraninite5.1.1.1UO2
Group 7 - MULTIPLE OXIDES
AB2X4
Magnetite7.2.2.3Fe2+Fe3+2O4
Spinel7.2.1.1MgAl2O4
Group 14 - ANHYDROUS NORMAL CARBONATES
A(XO3)
Calcite14.1.1.1CaCO3
AB(XO3)2
Dolomite14.2.1.1CaMg(CO3)2
Group 16b - HYDRATED CARBONATES CONTAINING HYDROXYL OR HALOGEN
Calcioancylite-(Ce)16b.1.1.2(Ce,Ca,Sr)CO3(OH,H2O)
Group 41 - ANHYDROUS PHOSPHATES, ETC.CONTAINING HYDROXYL OR HALOGEN
A5(XO4)3Zq
Fluorapatite41.8.1.1Ca5(PO4)3F
Hydroxylapatite41.8.1.3Ca5(PO4)3(OH)
Group 42 - HYDRATED PHOSPHATES, ETC.CONTAINING HYDROXYL OR HALOGEN
(AB)2(XO4)Zq·xH2O
Mundite42.7.13.1Al(UO2)3(PO4)2(OH)3 · 5.5H2O
Group 51 - NESOSILICATES Insular SiO4 Groups Only
Insular SiO4 Groups Only with cations in [6] and >[6] coordination
Andradite51.4.3b.1Ca3Fe3+2(SiO4)3
Grossular51.4.3b.2Ca3Al2(SiO4)3
Insular SiO4 Groups Only with cations in >[6] coordination
Zircon51.5.2.1Zr(SiO4)
Group 52 - NESOSILICATES Insular SiO4 Groups and O,OH,F,H2O
Insular SiO4 Groups and O, OH, F, and H2O with cations in [6] and/or >[6] coordination
Titanite52.4.3.1CaTi(SiO4)O
Group 58 - SOROSILICATES Insular, Mixed, Single, and Larger Tetrahedral Groups
Insular, Mixed, Single, and Larger Tetrahedral Groups with cations in [6] and higher coordination; single and double groups (n = 1, 2)
Epidote58.2.1a.7{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Vesuvianite58.2.4.1(Ca,Na,☐)19(Al,Mg,Fe3+)13(☐,B,Al,Fe3+)5(Si2O7)4(SiO4)10(OH,F,O)10
Group 65 - INOSILICATES Single-Width,Unbranched Chains,(W=1)
Single-Width Unbranched Chains, W=1 with chains P=2
Diopside65.1.3a.1CaMgSi2O6
Group 71 - PHYLLOSILICATES Sheets of Six-Membered Rings
Sheets of 6-membered rings with 1:1 layers
Antigorite71.1.2a.1Mg3(Si2O5)(OH)4
Lizardite71.1.2b.2Mg3(Si2O5)(OH)4
Sheets of 6-membered rings interlayered 1:1, 2:1, and octahedra
Clinochlore71.4.1.4Mg5Al(AlSi3O10)(OH)8
Group 74 - PHYLLOSILICATES Modulated Layers
Modulated Layers with joined strips
Chrysocolla74.3.2.1Cu2-xAlx(H2-xSi2O5)(OH)4 · nH2O
Group 75 - TECTOSILICATES Si Tetrahedral Frameworks
Si Tetrahedral Frameworks - SiO2 with [4] coordinated Si
Quartz75.1.3.1SiO2
Unclassified Minerals, Mixtures, etc.
Agardite-(Ce)-CeCu6(AsO4)3(OH)6 · 3H2O
'Allanite Group'-{A12+REE3+}{M3+2M32+}(Si2O7)(SiO4)O(OH)
'Ancylite'-
Andradite
var: Hydroandradite
-Ca3Fe3+2(SiO4)3-x(OH)4x
'Apatite'-Ca5(PO4)3(Cl/F/OH)
Auricupride
var: Rozhkovite
-Cu3Au
'Calcioancylite'-
'Chlorite Group'-
'Chrome-Spinel (of Dana)'-
Clinochlore
var: Pennine
-Mg5Al(AlSi3O10)(OH)8
'Clinopyroxene Subgroup'-
'Garnet Group'-X3Z2(SiO4)3
Hydroxylapatite
var: Carbonate-rich Hydroxylapatite
-Ca5(PO4,CO3)3(OH,O)
'Serpentine Subgroup'-D3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
'Spinel Group'-AE2O4
'Wolframite'-(Fe2+)WO4 to (Mn2+)WO4
Zlatogorite (TL)-NiCuSb2

List of minerals for each chemical element

HHydrogen
H Clinochlore (var: Pennine)Mg5Al(AlSi3O10)(OH)8
H Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
H ChrysocollaCu2-xAlx(H2-xSi2O5)(OH)4 · nH2O
H LizarditeMg3(Si2O5)(OH)4
H Vesuvianite(Ca,Na,☐)19(Al,Mg,Fe3+)13(☐,B,Al,Fe3+)5(Si2O7)4(SiO4)10(OH,F,O)10
H Agardite-(Ce)CeCu6(AsO4)3(OH)6 · 3H2O
H ApatiteCa5(PO4)3(Cl/F/OH)
H Andradite (var: Hydroandradite)Ca3Fe23+(SiO4)3-x(OH)4x
H Calcioancylite-(Ce)(Ce,Ca,Sr)CO3(OH,H2O)
H ClinochloreMg5Al(AlSi3O10)(OH)8
H AntigoriteMg3(Si2O5)(OH)4
H Allanite Group{A12+REE3+}{M23+M32+}(Si2O7)(SiO4)O(OH)
H Hydroxylapatite (var: Carbonate-rich Hydroxylapatite)Ca5(PO4,CO3)3(OH,O)
H Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
H HydroxylapatiteCa5(PO4)3(OH)
H MunditeAl(UO2)3(PO4)2(OH)3 · 5.5H2O
BBoron
B Vesuvianite(Ca,Na,☐)19(Al,Mg,Fe3+)13(☐,B,Al,Fe3+)5(Si2O7)4(SiO4)10(OH,F,O)10
CCarbon
C CalciteCaCO3
C DolomiteCaMg(CO3)2
C Calcioancylite-(Ce)(Ce,Ca,Sr)CO3(OH,H2O)
C Hydroxylapatite (var: Carbonate-rich Hydroxylapatite)Ca5(PO4,CO3)3(OH,O)
OOxygen
O IlmeniteFe2+TiO3
O ZirconZr(SiO4)
O DiopsideCaMgSi2O6
O Garnet GroupX3Z2(SiO4)3
O Clinochlore (var: Pennine)Mg5Al(AlSi3O10)(OH)8
O Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
O MagnetiteFe2+Fe23+O4
O CalciteCaCO3
O FluorapatiteCa5(PO4)3F
O ChrysocollaCu2-xAlx(H2-xSi2O5)(OH)4 · nH2O
O Spinel GroupAE2O4
O LizarditeMg3(Si2O5)(OH)4
O AndraditeCa3Fe23+(SiO4)3
O TitaniteCaTi(SiO4)O
O Vesuvianite(Ca,Na,☐)19(Al,Mg,Fe3+)13(☐,B,Al,Fe3+)5(Si2O7)4(SiO4)10(OH,F,O)10
O DolomiteCaMg(CO3)2
O Agardite-(Ce)CeCu6(AsO4)3(OH)6 · 3H2O
O BaddeleyiteZrO2
O ThorianiteThO2
O ApatiteCa5(PO4)3(Cl/F/OH)
O Andradite (var: Hydroandradite)Ca3Fe23+(SiO4)3-x(OH)4x
O RutileTiO2
O Calcioancylite-(Ce)(Ce,Ca,Sr)CO3(OH,H2O)
O CupriteCu2O
O ClinochloreMg5Al(AlSi3O10)(OH)8
O PerovskiteCaTiO3
O AntigoriteMg3(Si2O5)(OH)4
O Allanite Group{A12+REE3+}{M23+M32+}(Si2O7)(SiO4)O(OH)
O UraniniteUO2
O Wolframite(Fe2+)WO4 to (Mn2+)WO4
O Hydroxylapatite (var: Carbonate-rich Hydroxylapatite)Ca5(PO4,CO3)3(OH,O)
O Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
O GrossularCa3Al2(SiO4)3
O HydroxylapatiteCa5(PO4)3(OH)
O MunditeAl(UO2)3(PO4)2(OH)3 · 5.5H2O
O QuartzSiO2
O SpinelMgAl2O4
FFluorine
F FluorapatiteCa5(PO4)3F
F Vesuvianite(Ca,Na,☐)19(Al,Mg,Fe3+)13(☐,B,Al,Fe3+)5(Si2O7)4(SiO4)10(OH,F,O)10
F ApatiteCa5(PO4)3(Cl/F/OH)
NaSodium
Na Vesuvianite(Ca,Na,☐)19(Al,Mg,Fe3+)13(☐,B,Al,Fe3+)5(Si2O7)4(SiO4)10(OH,F,O)10
MgMagnesium
Mg DiopsideCaMgSi2O6
Mg Clinochlore (var: Pennine)Mg5Al(AlSi3O10)(OH)8
Mg Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
Mg LizarditeMg3(Si2O5)(OH)4
Mg Vesuvianite(Ca,Na,☐)19(Al,Mg,Fe3+)13(☐,B,Al,Fe3+)5(Si2O7)4(SiO4)10(OH,F,O)10
Mg DolomiteCaMg(CO3)2
Mg ClinochloreMg5Al(AlSi3O10)(OH)8
Mg AntigoriteMg3(Si2O5)(OH)4
Mg SpinelMgAl2O4
AlAluminium
Al Clinochlore (var: Pennine)Mg5Al(AlSi3O10)(OH)8
Al Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
Al ChrysocollaCu2-xAlx(H2-xSi2O5)(OH)4 · nH2O
Al Vesuvianite(Ca,Na,☐)19(Al,Mg,Fe3+)13(☐,B,Al,Fe3+)5(Si2O7)4(SiO4)10(OH,F,O)10
Al ClinochloreMg5Al(AlSi3O10)(OH)8
Al Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Al GrossularCa3Al2(SiO4)3
Al MunditeAl(UO2)3(PO4)2(OH)3 · 5.5H2O
Al SpinelMgAl2O4
SiSilicon
Si ZirconZr(SiO4)
Si DiopsideCaMgSi2O6
Si Garnet GroupX3Z2(SiO4)3
Si Clinochlore (var: Pennine)Mg5Al(AlSi3O10)(OH)8
Si Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
Si ChrysocollaCu2-xAlx(H2-xSi2O5)(OH)4 · nH2O
Si LizarditeMg3(Si2O5)(OH)4
Si AndraditeCa3Fe23+(SiO4)3
Si TitaniteCaTi(SiO4)O
Si Vesuvianite(Ca,Na,☐)19(Al,Mg,Fe3+)13(☐,B,Al,Fe3+)5(Si2O7)4(SiO4)10(OH,F,O)10
Si Andradite (var: Hydroandradite)Ca3Fe23+(SiO4)3-x(OH)4x
Si ClinochloreMg5Al(AlSi3O10)(OH)8
Si AntigoriteMg3(Si2O5)(OH)4
Si Allanite Group{A12+REE3+}{M23+M32+}(Si2O7)(SiO4)O(OH)
Si Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Si GrossularCa3Al2(SiO4)3
Si QuartzSiO2
PPhosphorus
P FluorapatiteCa5(PO4)3F
P ApatiteCa5(PO4)3(Cl/F/OH)
P Hydroxylapatite (var: Carbonate-rich Hydroxylapatite)Ca5(PO4,CO3)3(OH,O)
P HydroxylapatiteCa5(PO4)3(OH)
P MunditeAl(UO2)3(PO4)2(OH)3 · 5.5H2O
SSulfur
S GudmunditeFeSbS
S UllmanniteNiSbS
S GalenaPbS
S ChalcopyriteCuFeS2
S ChalcociteCu2S
S BorniteCu5FeS4
S Pentlandite(FexNiy)Σ9S8
S HeazlewooditeNi3S2
S MilleriteNiS
S GreenockiteCdS
S Godlevskite(Ni,Fe)9S8
ClChlorine
Cl ApatiteCa5(PO4)3(Cl/F/OH)
CaCalcium
Ca DiopsideCaMgSi2O6
Ca CalciteCaCO3
Ca FluorapatiteCa5(PO4)3F
Ca AndraditeCa3Fe23+(SiO4)3
Ca TitaniteCaTi(SiO4)O
Ca Vesuvianite(Ca,Na,☐)19(Al,Mg,Fe3+)13(☐,B,Al,Fe3+)5(Si2O7)4(SiO4)10(OH,F,O)10
Ca DolomiteCaMg(CO3)2
Ca ApatiteCa5(PO4)3(Cl/F/OH)
Ca Andradite (var: Hydroandradite)Ca3Fe23+(SiO4)3-x(OH)4x
Ca Calcioancylite-(Ce)(Ce,Ca,Sr)CO3(OH,H2O)
Ca PerovskiteCaTiO3
Ca Hydroxylapatite (var: Carbonate-rich Hydroxylapatite)Ca5(PO4,CO3)3(OH,O)
Ca Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Ca GrossularCa3Al2(SiO4)3
Ca HydroxylapatiteCa5(PO4)3(OH)
TiTitanium
Ti IlmeniteFe2+TiO3
Ti TitaniteCaTi(SiO4)O
Ti RutileTiO2
Ti PerovskiteCaTiO3
MnManganese
Mn Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
Mn Wolframite(Fe2+)WO4 to (Mn2+)WO4
FeIron
Fe IlmeniteFe2+TiO3
Fe Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
Fe MagnetiteFe2+Fe23+O4
Fe GudmunditeFeSbS
Fe Seinäjokite(Fe,Ni)(Sb,As)2
Fe AndraditeCa3Fe23+(SiO4)3
Fe ChalcopyriteCuFeS2
Fe Vesuvianite(Ca,Na,☐)19(Al,Mg,Fe3+)13(☐,B,Al,Fe3+)5(Si2O7)4(SiO4)10(OH,F,O)10
Fe BorniteCu5FeS4
Fe Pentlandite(FexNiy)Σ9S8
Fe Andradite (var: Hydroandradite)Ca3Fe23+(SiO4)3-x(OH)4x
Fe Godlevskite(Ni,Fe)9S8
Fe Wolframite(Fe2+)WO4 to (Mn2+)WO4
Fe Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
NiNickel
Ni ZlatogoriteNiCuSb2
Ni Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
Ni NisbiteNiSb2
Ni UllmanniteNiSbS
Ni Pentlandite(FexNiy)Σ9S8
Ni MaucheriteNi11As8
Ni NickelineNiAs
Ni BreithauptiteNiSb
Ni OrceliteNi5-xAs2, x ~ 0.25
Ni HeazlewooditeNi3S2
Ni MilleriteNiS
Ni Godlevskite(Ni,Fe)9S8
CuCopper
Cu ZlatogoriteNiCuSb2
Cu AuricuprideCu3Au
Cu CopperCu
Cu ChrysocollaCu2-xAlx(H2-xSi2O5)(OH)4 · nH2O
Cu CuprostibiteCu2(Sb,Tl)
Cu ChalcopyriteCuFeS2
Cu Agardite-(Ce)CeCu6(AsO4)3(OH)6 · 3H2O
Cu ChalcociteCu2S
Cu BorniteCu5FeS4
Cu CupriteCu2O
Cu Tetra-auricuprideAuCu
Cu Auricupride (var: Rozhkovite)Cu3Au
ZnZinc
Zn Serpentine SubgroupD3[Si2O5](OH)4 D = Mg, Fe, Ni, Mn, Al, Zn
AsArsenic
As Agardite-(Ce)CeCu6(AsO4)3(OH)6 · 3H2O
As MaucheriteNi11As8
As NickelineNiAs
As OrceliteNi5-xAs2, x ~ 0.25
SrStrontium
Sr Calcioancylite-(Ce)(Ce,Ca,Sr)CO3(OH,H2O)
ZrZirconium
Zr ZirconZr(SiO4)
Zr BaddeleyiteZrO2
AgSilver
Ag SilverAg
CdCadmium
Cd GreenockiteCdS
SbAntimony
Sb ZlatogoriteNiCuSb2
Sb AntimonySb
Sb CuprostibiteCu2(Sb,Tl)
Sb GudmunditeFeSbS
Sb NisbiteNiSb2
Sb Seinäjokite(Fe,Ni)(Sb,As)2
Sb UllmanniteNiSbS
Sb BreithauptiteNiSb
CeCerium
Ce Agardite-(Ce)CeCu6(AsO4)3(OH)6 · 3H2O
Ce Calcioancylite-(Ce)(Ce,Ca,Sr)CO3(OH,H2O)
WTungsten
W Wolframite(Fe2+)WO4 to (Mn2+)WO4
AuGold
Au AuricuprideCu3Au
Au GoldAu
Au Tetra-auricuprideAuCu
Au Auricupride (var: Rozhkovite)Cu3Au
TlThallium
Tl CuprostibiteCu2(Sb,Tl)
PbLead
Pb LeadPb
Pb GalenaPbS
ThThorium
Th ThorianiteThO2
UUranium
U UraniniteUO2
U MunditeAl(UO2)3(PO4)2(OH)3 · 5.5H2O

References

Sort by

Year (asc) Year (desc) Author (A-Z) Author (Z-A)
Murzin, V. V., Varlamov, D. A., Ronkin, Y. L., & Shanina, S. N. (2013). Origin of Au-bearing rodingite in the Karabash massif of alpine-type ultramafic rocks in the southern Urals. Geology of Ore Deposits, 55(4), 278-297.
Murzin, V.V., Chudnenko, K.V., Palyanova, G.A., Varlamov, D.A., Naumov, E.A., and Pirajno, F. (2018) Physicochemical model for the genesis of Cu-Ag-Au-Hg solid solutions and intermetallics in the rodingites of the Zolotaya Gora gold deposit (Urals, Russia). Ore Geology Reviews, 93, 81-97.

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