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Navilawa, Viti Levu, Fijii
Regional Level Types
NavilawaVillage
Viti LevuIsland
FijiCountry

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Latitude & Longitude (WGS84):
17° 41' 24'' South , 177° 35' 8'' East
Latitude & Longitude (decimal):
-17.69011,177.58563
GeoHash:
G#: ruy7359gt
GRN:
S12E120
Type:
Village
KΓΆppen climate type:
Af : Tropical rainforest climate
Nearest Settlements:
PlacePopulationDistance
Lautoka52,500 (2016)16.5km
Ba14,596 (2016)19.7km
Nadi42,284 (2017)21.9km
Mindat Locality ID:
285222
Long-form identifier:
1:2:285222:8
GUID (UUID V4):
aea46fc5-60bb-4a0c-9c81-86929e37cf8f


Navilawa is a small mining village within the Navilawa Caldera.

Select Mineral List Type

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

60 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: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ Actinolite
Formula: ◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Reference: Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Albite
Formula: Na(AlSi3O8)
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ 'Alkali Feldspar'
Reference: Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Altaite
Formula: PbTe
Reference: 16th Australian Geological Convention, Adelaide, ; Naden, Jon; Henney, P.J.. 1995 Characterisation of gold from Fiji. Nottingham, UK, British Geological Survey, 58pp. (WC/95/041) (Unpublished) Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ 'Amphibole Supergroup'
Formula: AB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
Reference: Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Andradite
Formula: Ca3Fe3+2(SiO4)3
Reference: Forsythe, N.A., Spry, P.G., Thompson, M.L. (2018) Petrological and Mineralogical Aspects of Epithermal Low-Sulfidation Au- and Porphyry Cu-Style Mineralization, Navilawa Caldera, Fiji. Geosciences 9, 42.
β“˜ Ankerite
Formula: Ca(Fe2+,Mg)(CO3)2
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ 'Apatite'
Formula: Ca5(PO4)3(Cl/F/OH)
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Arsenopyrite
Formula: FeAsS
Reference: Naden, Jon; Henney, P.J.. 1995 Characterisation of gold from Fiji. Nottingham, UK, British Geological Survey, 58pp. (WC/95/041) (Unpublished) Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Benleonardite
Formula: [Ag6(Sb,As)2S6Te][Ag9Cu(S,Te)2Te2]
Reference: Handbook of Mineralogy
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: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Bismuth
Formula: Bi
Reference: 16th Australian Geological Convention, Adelaide,
β“˜ Bismuthinite
Formula: Bi2S3
Reference: 16th Australian Geological Convention, Adelaide,
β“˜ Bornite
Formula: Cu5FeS4
Reference: Lum, J. (1995). Placer gold potential of Fiji, the Solomon Islands and Vanuatu (Vol. 214). South Pacific Applied Geoscience Commission.
β“˜ Calaverite
Formula: AuTe2
Reference: 16th Australian Geological Convention, Adelaide, ; Spry, P. G., & Scherbarth, N. L. (2006). The gold–vanadium–tellurium association at the Tuvatu gold–silver prospect, Fiji: conditions of ore deposition. Mineralogy and Petrology, 87(3-4), 171-186; Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Calcite
Formula: CaCO3
Reference: Lum, J. (1995). Placer gold potential of Fiji, the Solomon Islands and Vanuatu (Vol. 214). South Pacific Applied Geoscience Commission.
β“˜ Chalcocite
Formula: Cu2S
Reference: Forsythe, N.A., Spry, P.G., Thompson, M.L. (2018) Petrological and Mineralogical Aspects of Epithermal Low-Sulfidation Au- and Porphyry Cu-Style Mineralization, Navilawa Caldera, Fiji. Geosciences 9, 42.
β“˜ Chalcopyrite
Formula: CuFeS2
Reference: 16th Australian Geological Convention, Adelaide, ; Naden, Jon; Henney, P.J.. 1995 Characterisation of gold from Fiji. Nottingham, UK, British Geological Survey, 58pp. (WC/95/041) (Unpublished); Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ 'Chlorite Group'
Reference: Lum, J. (1995). Placer gold potential of Fiji, the Solomon Islands and Vanuatu (Vol. 214). South Pacific Applied Geoscience Commission.
β“˜ 'Clinopyroxene Subgroup'
Reference: Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Coloradoite
Formula: HgTe
Reference: 16th Australian Geological Convention, Adelaide, Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Corrensite
Formula: (Mg,Fe)9((Si,Al)8O20)(OH)10 · nH2O
Reference: Forsythe, N.A., Spry, P.G., Thompson, M.L. (2018) Petrological and Mineralogical Aspects of Epithermal Low-Sulfidation Au- and Porphyry Cu-Style Mineralization, Navilawa Caldera, Fiji. Geosciences 9, 42.
β“˜ Cosalite
Formula: Pb2Bi2S5
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ Covellite
Formula: CuS
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Dolomite
Formula: CaMg(CO3)2
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Empressite
Formula: AgTe
Reference: Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Enargite
Formula: Cu3AsS4
Reference: Naden, Jon; Henney, P.J.. 1995 Characterisation of gold from Fiji. Nottingham, UK, British Geological Survey, 58pp. (WC/95/041) (Unpublished); Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ Epidote
Formula: (CaCa)(AlAlFe3+)O[Si2O7][SiO4](OH)
Reference: Lum, J. (1995). Placer gold potential of Fiji, the Solomon Islands and Vanuatu (Vol. 214). South Pacific Applied Geoscience Commission.
β“˜ 'Feldspar Group'
Reference: Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Fluorite
Formula: CaF2
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ Galena
Formula: PbS
Reference: 16th Australian Geological Convention, Adelaide, ; Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Galena var. Selenium-bearing Galena
Formula: Pb(S,Se)
Reference: 16th Australian Geological Convention, Adelaide,
β“˜ 'Garnet Group'
Formula: X3Z2(SiO4)3
Reference: Forsythe, N.A., Spry, P.G., Thompson, M.L. (2018) Petrological and Mineralogical Aspects of Epithermal Low-Sulfidation Au- and Porphyry Cu-Style Mineralization, Navilawa Caldera, Fiji. Geosciences 9, 42.
β“˜ Gold
Formula: Au
Reference: 16th Australian Geological Convention, Adelaide, ; Naden, Jon; Henney, P.J.. 1995 Characterisation of gold from Fiji. Nottingham, UK, British Geological Survey, 58pp. (WC/95/041) (Unpublished); Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Gold var. Electrum
Formula: (Au,Ag)
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Gypsum
Formula: CaSO4 · 2H2O
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Hematite
Formula: Fe2O3
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ Hessite
Formula: Ag2Te
Reference: 16th Australian Geological Convention, Adelaide, Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Jarosite
Formula: KFe3+ 3(SO4)2(OH)6
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ Kaolinite
Formula: Al2(Si2O5)(OH)4
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ Karelianite
Formula: V3+2O3
Reference: 16th Australian Geological Convention, Adelaide, ; Spry, P. G., & Scherbarth, N. L. (2006). The gold–vanadium–tellurium association at the Tuvatu gold–silver prospect, Fiji: conditions of ore deposition. Mineralogy and Petrology, 87(3-4), 171-186; Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ 'K Feldspar'
Reference: Naden, Jon; Henney, P.J.. 1995 Characterisation of gold from Fiji. Nottingham, UK, British Geological Survey, 58pp. (WC/95/041) (Unpublished) Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ 'K Feldspar var. Adularia'
Formula: KAlSi3O8
Reference: Naden, Jon; Henney, P.J.. 1995 Characterisation of gold from Fiji. Nottingham, UK, British Geological Survey, 58pp. (WC/95/041) (Unpublished); Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ Krennerite
Formula: Au3AgTe8
Reference: 16th Australian Geological Convention, Adelaide, Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Magnetite
Formula: Fe2+Fe3+2O4
Reference: Lum, J. (1995). Placer gold potential of Fiji, the Solomon Islands and Vanuatu (Vol. 214). South Pacific Applied Geoscience Commission.
β“˜ Marcasite
Formula: FeS2
Reference: 16th Australian Geological Convention, Adelaide, Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Moncheite
Formula: Pt(Te,Bi)2
Reference: Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Montbrayite ?
Formula: (Au,Ag,Sb,Bi,Pb)23(Te,Sb,Bi,Pb)38
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ Muscovite
Formula: KAl2(AlSi3O10)(OH)2
Reference: Naden, Jon; Henney, P.J.. 1995 Characterisation of gold from Fiji. Nottingham, UK, British Geological Survey, 58pp. (WC/95/041) (Unpublished) Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Muscovite var. Illite
Formula: K0.65Al2.0[Al0.65Si3.35O10](OH)2
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ Muscovite var. Sericite
Formula: KAl2(AlSi3O10)(OH)2
Reference: Naden, Jon; Henney, P.J.. 1995 Characterisation of gold from Fiji. Nottingham, UK, British Geological Survey, 58pp. (WC/95/041) (Unpublished); Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Nolanite
Formula: V3+8Fe3+2O14(OH)2
Reference: 16th Australian Geological Convention, Adelaide, ; Spry, P. G., & Scherbarth, N. L. (2006). The gold–vanadium–tellurium association at the Tuvatu gold–silver prospect, Fiji: conditions of ore deposition. Mineralogy and Petrology, 87(3-4), 171-186; Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ Orthoclase
Formula: K(AlSi3O8)
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Petzite
Formula: Ag3AuTe2
Reference: 16th Australian Geological Convention, Adelaide, ; Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ 'Plagioclase'
Formula: (Na,Ca)[(Si,Al)AlSi2]O8
Reference: Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Pyrite
Formula: FeS2
Reference: 16th Australian Geological Convention, Adelaide, ; Naden, Jon; Henney, P.J.. 1995 Characterisation of gold from Fiji. Nottingham, UK, British Geological Survey, 58pp. (WC/95/041) (Unpublished); Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Pyrite var. Arsenic-bearing Pyrite
Formula: FeS2
Reference: Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Pyrrhotite
Formula: Fe1-xS
Reference: Forsythe, N.A., Spry, P.G., Thompson, M.L. (2018) Petrological and Mineralogical Aspects of Epithermal Low-Sulfidation Au- and Porphyry Cu-Style Mineralization, Navilawa Caldera, Fiji. Geosciences 9, 42.
β“˜ Quartz
Formula: SiO2
Reference: Naden, Jon; Henney, P.J.. 1995 Characterisation of gold from Fiji. Nottingham, UK, British Geological Survey, 58pp. (WC/95/041) (Unpublished); Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Quartz var. Chalcedony
Formula: SiO2
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Roscoelite
Formula: K(V3+,Al)2(AlSi3O10)(OH)2
Reference: 16th Australian Geological Convention, Adelaide, ; Spry, P. G., & Scherbarth, N. L. (2006). The gold–vanadium–tellurium association at the Tuvatu gold–silver prospect, Fiji: conditions of ore deposition. Mineralogy and Petrology, 87(3-4), 171-186; Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Rutile
Formula: TiO2
Reference: 16th Australian Geological Convention, Adelaide, ; Spry, P. G., & Scherbarth, N. L. (2006). The gold–vanadium–tellurium association at the Tuvatu gold–silver prospect, Fiji: conditions of ore deposition. Mineralogy and Petrology, 87(3-4), 171-186; Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Sanidine
Formula: K(AlSi3O8)
Reference: Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Schreyerite
Formula: V3+2Ti3O9
Reference: 16th Australian Geological Convention, Adelaide, ; Spry, P. G., & Scherbarth, N. L. (2006). The gold–vanadium–tellurium association at the Tuvatu gold–silver prospect, Fiji: conditions of ore deposition. Mineralogy and Petrology, 87(3-4), 171-186; Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ 'Smectite Group'
Formula: A0.3D2-3[T4O10]Z2 · nH2O
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ Sphalerite
Formula: ZnS
Reference: 16th Australian Geological Convention, Adelaide, ; Naden, Jon; Henney, P.J.. 1995 Characterisation of gold from Fiji. Nottingham, UK, British Geological Survey, 58pp. (WC/95/041) (Unpublished) Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Stibnite
Formula: Sb2S3
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ Stromeyerite ?
Formula: AgCuS
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ StΓΌtzite
Formula: Ag5-xTe3, x = 0.24-0.36
Reference: 16th Australian Geological Convention, Adelaide, Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Sylvanite
Formula: AgAuTe4
Reference: 16th Australian Geological Convention, Adelaide, Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Tellurium
Formula: Te
Reference: 16th Australian Geological Convention, Adelaide,
β“˜ Tellurobismuthite
Formula: Bi2Te3
Reference: 16th Australian Geological Convention, Adelaide,
β“˜ 'Tennantite Subgroup'
Formula: Cu6(Cu4C2+2)As4S12S
Reference: 16th Australian Geological Convention, Adelaide, ; Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ 'Tetrahedrite Subgroup'
Formula: Cu6(Cu4C2+2)Sb4S12S
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158. Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Thorite
Formula: Th(SiO4)
Reference: Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.
β“˜ Titanite
Formula: CaTi(SiO4)O
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ 'Tourmaline'
Formula: AD3G6 (T6O18)(BO3)3X3Z
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ Tremolite
Formula: ◻Ca2Mg5(Si8O22)(OH)2
Reference: Forsythe, N.A., Spry, P.G., Thompson, M.L. (2018) Petrological and Mineralogical Aspects of Epithermal Low-Sulfidation Au- and Porphyry Cu-Style Mineralization, Navilawa Caldera, Fiji. Geosciences 9, 42.
β“˜ 'UM2006-22-SiO:V'
Formula: VSiO3(OH) (?)
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ Vanadium
Formula: V
Reference: Scherbarth, N. L., & Spry, P. G. (2006). Mineralogical, petrological, stable isotope, and fluid inclusion characteristics of the Tuvatu gold-silver telluride deposit, Fiji: Comparisons with the Emperor deposit. Economic Geology, 101(1), 135-158.
β“˜ 'Zeolite Group'
Reference: Lum, J. (1995). Placer gold potential of Fiji, the Solomon Islands and Vanuatu (Vol. 214). South Pacific Applied Geoscience Commission.
β“˜ Zircon
Formula: Zr(SiO4)
Reference: Clarke, R., Smith, D. J., Naden, J., Holwell, D., & Mann, S. (2023). Mineralogical constraints on the genesis of an alkalic-type epithermal Au-Te deposit: Tuvatu, Fiji. Ore Geology Reviews, 105279.

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“˜Tellurium1.CC.10Te
β“˜Vanadium1.AE.V
Group 2 - Sulphides and Sulfosalts
β“˜Acanthite2.BA.35Ag2S
β“˜Altaite2.CD.10PbTe
β“˜Arsenopyrite2.EB.20FeAsS
β“˜Benleonardite2.LA.50[Ag6(Sb,As)2S6Te][Ag9Cu(S,Te)2Te2]
β“˜Bismuthinite2.DB.05Bi2S3
β“˜Bornite2.BA.15Cu5FeS4
β“˜Calaverite2.EA.10AuTe2
β“˜Chalcocite2.BA.05Cu2S
β“˜Chalcopyrite2.CB.10aCuFeS2
β“˜Coloradoite2.CB.05aHgTe
β“˜Cosalite2.JB.10Pb2Bi2S5
β“˜Covellite2.CA.05aCuS
β“˜Empressite2.CB.80AgTe
β“˜Enargite2.KA.05Cu3AsS4
β“˜Galena2.CD.10PbS
β“˜var. Selenium-bearing Galena2.CD.10Pb(S,Se)
β“˜Hessite2.BA.60Ag2Te
β“˜Krennerite2.EA.15Au3AgTe8
β“˜Marcasite2.EB.10aFeS2
β“˜Moncheite2.EA.20Pt(Te,Bi)2
β“˜Montbrayite ?2.DB.20(Au,Ag,Sb,Bi,Pb)23(Te,Sb,Bi,Pb)38
β“˜Petzite2.BA.75Ag3AuTe2
β“˜Pyrite2.EB.05aFeS2
β“˜var. Arsenic-bearing Pyrite2.EB.05aFeS2
β“˜Pyrrhotite2.CC.10Fe1-xS
β“˜Sphalerite2.CB.05aZnS
β“˜Stibnite2.DB.05Sb2S3
β“˜Stromeyerite ?2.BA.40AgCuS
β“˜StΓΌtzite2.BA.65Ag5-xTe3, x = 0.24-0.36
β“˜Sylvanite2.EA.05AgAuTe4
β“˜Tellurobismuthite2.DC.05Bi2Te3
β“˜'Tennantite Subgroup'2.GB.05Cu6(Cu4C2+2)As4S12S
β“˜'Tetrahedrite Subgroup'2.GB.05Cu6(Cu4C2+2)Sb4S12S
Group 3 - Halides
β“˜Fluorite3.AB.25CaF2
Group 4 - Oxides and Hydroxides
β“˜Hematite4.CB.05Fe2O3
β“˜Karelianite4.CB.05V3+2O3
β“˜Magnetite4.BB.05Fe2+Fe3+2O4
β“˜Nolanite4.CB.40V3+8Fe3+2O14(OH)2
β“˜Quartz4.DA.05SiO2
β“˜var. Chalcedony4.DA.05SiO2
β“˜Rutile4.DB.05TiO2
β“˜Schreyerite4.CB.35V3+2Ti3O9
Group 5 - Nitrates and Carbonates
β“˜Ankerite5.AB.10Ca(Fe2+,Mg)(CO3)2
β“˜Calcite5.AB.05CaCO3
β“˜Dolomite5.AB.10CaMg(CO3)2
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
β“˜Gypsum7.CD.40CaSO4 Β· 2H2O
β“˜Jarosite7.BC.10KFe3+ 3(SO4)2(OH)6
Group 9 - Silicates
β“˜Actinolite9.DE.10β—»Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
β“˜Albite9.FA.35Na(AlSi3O8)
β“˜Andradite9.AD.25Ca3Fe3+2(SiO4)3
β“˜Corrensite9.EC.60(Mg,Fe)9((Si,Al)8O20)(OH)10 Β· nH2O
β“˜Epidote9.BG.05a(CaCa)(AlAlFe3+)O[Si2O7][SiO4](OH)
β“˜Kaolinite9.ED.05Al2(Si2O5)(OH)4
β“˜Muscovite9.EC.15KAl2(AlSi3O10)(OH)2
β“˜var. Illite9.EC.15K0.65Al2.0[Al0.65Si3.35O10](OH)2
β“˜var. Sericite9.EC.15KAl2(AlSi3O10)(OH)2
β“˜Orthoclase9.FA.30K(AlSi3O8)
β“˜Roscoelite9.EC.15K(V3+,Al)2(AlSi3O10)(OH)2
β“˜Sanidine9.FA.30K(AlSi3O8)
β“˜Thorite9.AD.30Th(SiO4)
β“˜Titanite9.AG.15CaTi(SiO4)O
β“˜Tremolite9.DE.10β—»Ca2Mg5(Si8O22)(OH)2
β“˜'Zeolite Group'9.G0.
β“˜Zircon9.AD.30Zr(SiO4)
Unclassified Minerals, Rocks, etc.
β“˜'Alkali Feldspar'-
β“˜'Amphibole Supergroup'-AB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
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“˜'Clinopyroxene Subgroup'-
β“˜'Feldspar Group'-
β“˜'Garnet Group'-X3Z2(SiO4)3
β“˜'K Feldspar'-
β“˜'var. Adularia'-KAlSi3O8
β“˜'Plagioclase'-(Na,Ca)[(Si,Al)AlSi2]O8
β“˜'Smectite Group'-A0.3D2-3[T4O10]Z2 Β· nH2O
β“˜'Tourmaline'-AD3G6 (T6O18)(BO3)3X3Z
β“˜'UM2006-22-SiO:V'-VSiO3(OH) (?)

List of minerals for each chemical element

HHydrogen
Hβ“˜ RoscoeliteK(V3+,Al)2(AlSi3O10)(OH)2
Hβ“˜ NolaniteV83+Fe23+O14(OH)2
Hβ“˜ Actinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Hβ“˜ Muscovite var. SericiteKAl2(AlSi3O10)(OH)2
Hβ“˜ Epidote(CaCa)(AlAlFe3+)O[Si2O7][SiO4](OH)
Hβ“˜ MuscoviteKAl2(AlSi3O10)(OH)2
Hβ“˜ ApatiteCa5(PO4)3(Cl/F/OH)
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“˜ Smectite GroupA0.3D2-3[T4O10]Z2 · nH2O
Hβ“˜ KaoliniteAl2(Si2O5)(OH)4
Hβ“˜ Muscovite var. IlliteK0.65Al2.0[Al0.65Si3.35O10](OH)2
Hβ“˜ GypsumCaSO4 · 2H2O
Hβ“˜ JarositeKFe3+ 3(SO4)2(OH)6
Hβ“˜ UM2006-22-SiO:VVSiO3(OH) (?)
Hβ“˜ Corrensite(Mg,Fe)9((Si,Al)8O20)(OH)10 · nH2O
Hβ“˜ Tremolite◻Ca2Mg5(Si8O22)(OH)2
Hβ“˜ Amphibole SupergroupAB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
BBoron
Bβ“˜ TourmalineAD3G6 (T6O18)(BO3)3X3Z
CCarbon
Cβ“˜ CalciteCaCO3
Cβ“˜ DolomiteCaMg(CO3)2
Cβ“˜ AnkeriteCa(Fe2+,Mg)(CO3)2
OOxygen
Oβ“˜ RoscoeliteK(V3+,Al)2(AlSi3O10)(OH)2
Oβ“˜ KarelianiteV23+O3
Oβ“˜ NolaniteV83+Fe23+O14(OH)2
Oβ“˜ RutileTiO2
Oβ“˜ SchreyeriteV23+Ti3O9
Oβ“˜ Actinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Oβ“˜ K Feldspar var. AdulariaKAlSi3O8
Oβ“˜ QuartzSiO2
Oβ“˜ Muscovite var. SericiteKAl2(AlSi3O10)(OH)2
Oβ“˜ Epidote(CaCa)(AlAlFe3+)O[Si2O7][SiO4](OH)
Oβ“˜ CalciteCaCO3
Oβ“˜ MagnetiteFe2+Fe23+O4
Oβ“˜ MuscoviteKAl2(AlSi3O10)(OH)2
Oβ“˜ ApatiteCa5(PO4)3(Cl/F/OH)
Oβ“˜ OrthoclaseK(AlSi3O8)
Oβ“˜ Quartz var. ChalcedonySiO2
Oβ“˜ AlbiteNa(AlSi3O8)
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“˜ Smectite GroupA0.3D2-3[T4O10]Z2 · nH2O
Oβ“˜ HematiteFe2O3
Oβ“˜ TourmalineAD3G6 (T6O18)(BO3)3X3Z
Oβ“˜ KaoliniteAl2(Si2O5)(OH)4
Oβ“˜ Muscovite var. IlliteK0.65Al2.0[Al0.65Si3.35O10](OH)2
Oβ“˜ TitaniteCaTi(SiO4)O
Oβ“˜ DolomiteCaMg(CO3)2
Oβ“˜ AnkeriteCa(Fe2+,Mg)(CO3)2
Oβ“˜ GypsumCaSO4 · 2H2O
Oβ“˜ JarositeKFe3+ 3(SO4)2(OH)6
Oβ“˜ UM2006-22-SiO:VVSiO3(OH) (?)
Oβ“˜ AndraditeCa3Fe23+(SiO4)3
Oβ“˜ Corrensite(Mg,Fe)9((Si,Al)8O20)(OH)10 · nH2O
Oβ“˜ Garnet GroupX3Z2(SiO4)3
Oβ“˜ Tremolite◻Ca2Mg5(Si8O22)(OH)2
Oβ“˜ Amphibole SupergroupAB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
Oβ“˜ Plagioclase(Na,Ca)[(Si,Al)AlSi2]O8
Oβ“˜ SanidineK(AlSi3O8)
Oβ“˜ ThoriteTh(SiO4)
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
Fβ“˜ FluoriteCaF2
Fβ“˜ Amphibole SupergroupAB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
NaSodium
Naβ“˜ AlbiteNa(AlSi3O8)
Naβ“˜ Plagioclase(Na,Ca)[(Si,Al)AlSi2]O8
MgMagnesium
Mgβ“˜ Actinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(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“˜ DolomiteCaMg(CO3)2
Mgβ“˜ AnkeriteCa(Fe2+,Mg)(CO3)2
Mgβ“˜ Corrensite(Mg,Fe)9((Si,Al)8O20)(OH)10 · nH2O
Mgβ“˜ Tremolite◻Ca2Mg5(Si8O22)(OH)2
AlAluminium
Alβ“˜ RoscoeliteK(V3+,Al)2(AlSi3O10)(OH)2
Alβ“˜ K Feldspar var. AdulariaKAlSi3O8
Alβ“˜ Muscovite var. SericiteKAl2(AlSi3O10)(OH)2
Alβ“˜ Epidote(CaCa)(AlAlFe3+)O[Si2O7][SiO4](OH)
Alβ“˜ MuscoviteKAl2(AlSi3O10)(OH)2
Alβ“˜ OrthoclaseK(AlSi3O8)
Alβ“˜ AlbiteNa(AlSi3O8)
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“˜ KaoliniteAl2(Si2O5)(OH)4
Alβ“˜ Muscovite var. IlliteK0.65Al2.0[Al0.65Si3.35O10](OH)2
Alβ“˜ Corrensite(Mg,Fe)9((Si,Al)8O20)(OH)10 · nH2O
Alβ“˜ Amphibole SupergroupAB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
Alβ“˜ Plagioclase(Na,Ca)[(Si,Al)AlSi2]O8
Alβ“˜ SanidineK(AlSi3O8)
SiSilicon
Siβ“˜ RoscoeliteK(V3+,Al)2(AlSi3O10)(OH)2
Siβ“˜ Actinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Siβ“˜ K Feldspar var. AdulariaKAlSi3O8
Siβ“˜ QuartzSiO2
Siβ“˜ Muscovite var. SericiteKAl2(AlSi3O10)(OH)2
Siβ“˜ Epidote(CaCa)(AlAlFe3+)O[Si2O7][SiO4](OH)
Siβ“˜ MuscoviteKAl2(AlSi3O10)(OH)2
Siβ“˜ OrthoclaseK(AlSi3O8)
Siβ“˜ Quartz var. ChalcedonySiO2
Siβ“˜ AlbiteNa(AlSi3O8)
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“˜ KaoliniteAl2(Si2O5)(OH)4
Siβ“˜ Muscovite var. IlliteK0.65Al2.0[Al0.65Si3.35O10](OH)2
Siβ“˜ TitaniteCaTi(SiO4)O
Siβ“˜ UM2006-22-SiO:VVSiO3(OH) (?)
Siβ“˜ AndraditeCa3Fe23+(SiO4)3
Siβ“˜ Corrensite(Mg,Fe)9((Si,Al)8O20)(OH)10 · nH2O
Siβ“˜ Garnet GroupX3Z2(SiO4)3
Siβ“˜ Tremolite◻Ca2Mg5(Si8O22)(OH)2
Siβ“˜ Amphibole SupergroupAB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
Siβ“˜ Plagioclase(Na,Ca)[(Si,Al)AlSi2]O8
Siβ“˜ SanidineK(AlSi3O8)
Siβ“˜ ThoriteTh(SiO4)
Siβ“˜ ZirconZr(SiO4)
PPhosphorus
Pβ“˜ ApatiteCa5(PO4)3(Cl/F/OH)
SSulfur
Sβ“˜ Tennantite SubgroupCu6(Cu4C22+)As4S12S
Sβ“˜ BismuthiniteBi2S3
Sβ“˜ PyriteFeS2
Sβ“˜ MarcasiteFeS2
Sβ“˜ ChalcopyriteCuFeS2
Sβ“˜ SphaleriteZnS
Sβ“˜ GalenaPbS
Sβ“˜ Galena var. Selenium-bearing GalenaPb(S,Se)
Sβ“˜ ArsenopyriteFeAsS
Sβ“˜ EnargiteCu3AsS4
Sβ“˜ BorniteCu5FeS4
Sβ“˜ Benleonardite[Ag6(Sb,As)2S6Te][Ag9Cu(S,Te)2Te2]
Sβ“˜ StibniteSb2S3
Sβ“˜ CosalitePb2Bi2S5
Sβ“˜ Tetrahedrite SubgroupCu6(Cu4C22+)Sb4S12S
Sβ“˜ GypsumCaSO4 · 2H2O
Sβ“˜ CovelliteCuS
Sβ“˜ JarositeKFe3+ 3(SO4)2(OH)6
Sβ“˜ AcanthiteAg2S
Sβ“˜ ChalcociteCu2S
Sβ“˜ PyrrhotiteFe1-xS
Sβ“˜ Pyrite var. Arsenic-bearing PyriteFeS2
Sβ“˜ StromeyeriteAgCuS
ClChlorine
Clβ“˜ ApatiteCa5(PO4)3(Cl/F/OH)
Clβ“˜ Amphibole SupergroupAB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
KPotassium
Kβ“˜ RoscoeliteK(V3+,Al)2(AlSi3O10)(OH)2
Kβ“˜ K Feldspar var. AdulariaKAlSi3O8
Kβ“˜ Muscovite var. SericiteKAl2(AlSi3O10)(OH)2
Kβ“˜ MuscoviteKAl2(AlSi3O10)(OH)2
Kβ“˜ OrthoclaseK(AlSi3O8)
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“˜ Muscovite var. IlliteK0.65Al2.0[Al0.65Si3.35O10](OH)2
Kβ“˜ JarositeKFe3+ 3(SO4)2(OH)6
Kβ“˜ SanidineK(AlSi3O8)
CaCalcium
Caβ“˜ Actinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Caβ“˜ Epidote(CaCa)(AlAlFe3+)O[Si2O7][SiO4](OH)
Caβ“˜ CalciteCaCO3
Caβ“˜ ApatiteCa5(PO4)3(Cl/F/OH)
Caβ“˜ FluoriteCaF2
Caβ“˜ TitaniteCaTi(SiO4)O
Caβ“˜ DolomiteCaMg(CO3)2
Caβ“˜ AnkeriteCa(Fe2+,Mg)(CO3)2
Caβ“˜ GypsumCaSO4 · 2H2O
Caβ“˜ AndraditeCa3Fe23+(SiO4)3
Caβ“˜ Tremolite◻Ca2Mg5(Si8O22)(OH)2
Caβ“˜ Plagioclase(Na,Ca)[(Si,Al)AlSi2]O8
TiTitanium
Tiβ“˜ RutileTiO2
Tiβ“˜ SchreyeriteV23+Ti3O9
Tiβ“˜ BiotiteK(Fe2+/Mg)2(Al/Fe3+/Mg/Ti)([Si/Al/Fe]2Si2O10)(OH/F)2 or Simplified: K(Mg,Fe)3AlSi3O10(OH)2
Tiβ“˜ TitaniteCaTi(SiO4)O
Tiβ“˜ Amphibole SupergroupAB2C5((Si,Al,Ti)8O22)(OH,F,Cl,O)2
VVanadium
Vβ“˜ RoscoeliteK(V3+,Al)2(AlSi3O10)(OH)2
Vβ“˜ KarelianiteV23+O3
Vβ“˜ NolaniteV83+Fe23+O14(OH)2
Vβ“˜ SchreyeriteV23+Ti3O9
Vβ“˜ VanadiumV
Vβ“˜ UM2006-22-SiO:VVSiO3(OH) (?)
FeIron
Feβ“˜ NolaniteV83+Fe23+O14(OH)2
Feβ“˜ PyriteFeS2
Feβ“˜ MarcasiteFeS2
Feβ“˜ ChalcopyriteCuFeS2
Feβ“˜ Actinolite◻Ca2(Mg4.5-2.5Fe0.5-2.5)Si8O22(OH)2
Feβ“˜ ArsenopyriteFeAsS
Feβ“˜ Epidote(CaCa)(AlAlFe3+)O[Si2O7][SiO4](OH)
Feβ“˜ MagnetiteFe2+Fe23+O4
Feβ“˜ BorniteCu5FeS4
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“˜ HematiteFe2O3
Feβ“˜ AnkeriteCa(Fe2+,Mg)(CO3)2
Feβ“˜ JarositeKFe3+ 3(SO4)2(OH)6
Feβ“˜ AndraditeCa3Fe23+(SiO4)3
Feβ“˜ Corrensite(Mg,Fe)9((Si,Al)8O20)(OH)10 · nH2O
Feβ“˜ PyrrhotiteFe1-xS
Feβ“˜ Pyrite var. Arsenic-bearing PyriteFeS2
CuCopper
Cuβ“˜ Tennantite SubgroupCu6(Cu4C22+)As4S12S
Cuβ“˜ ChalcopyriteCuFeS2
Cuβ“˜ EnargiteCu3AsS4
Cuβ“˜ BorniteCu5FeS4
Cuβ“˜ Benleonardite[Ag6(Sb,As)2S6Te][Ag9Cu(S,Te)2Te2]
Cuβ“˜ Tetrahedrite SubgroupCu6(Cu4C22+)Sb4S12S
Cuβ“˜ CovelliteCuS
Cuβ“˜ ChalcociteCu2S
Cuβ“˜ StromeyeriteAgCuS
ZnZinc
Znβ“˜ SphaleriteZnS
AsArsenic
Asβ“˜ Tennantite SubgroupCu6(Cu4C22+)As4S12S
Asβ“˜ ArsenopyriteFeAsS
Asβ“˜ EnargiteCu3AsS4
Asβ“˜ Benleonardite[Ag6(Sb,As)2S6Te][Ag9Cu(S,Te)2Te2]
SeSelenium
Seβ“˜ Galena var. Selenium-bearing GalenaPb(S,Se)
ZrZirconium
Zrβ“˜ ZirconZr(SiO4)
AgSilver
Agβ“˜ PetziteAg3AuTe2
Agβ“˜ HessiteAg2Te
Agβ“˜ StΓΌtziteAg5-xTe3, x = 0.24-0.36
Agβ“˜ SylvaniteAgAuTe4
Agβ“˜ KrenneriteAu3AgTe8
Agβ“˜ Benleonardite[Ag6(Sb,As)2S6Te][Ag9Cu(S,Te)2Te2]
Agβ“˜ Gold var. Electrum(Au,Ag)
Agβ“˜ AcanthiteAg2S
Agβ“˜ EmpressiteAgTe
Agβ“˜ StromeyeriteAgCuS
Agβ“˜ Montbrayite(Au,Ag,Sb,Bi,Pb)23(Te,Sb,Bi,Pb)38
SbAntimony
Sbβ“˜ Benleonardite[Ag6(Sb,As)2S6Te][Ag9Cu(S,Te)2Te2]
Sbβ“˜ StibniteSb2S3
Sbβ“˜ Tetrahedrite SubgroupCu6(Cu4C22+)Sb4S12S
Sbβ“˜ Montbrayite(Au,Ag,Sb,Bi,Pb)23(Te,Sb,Bi,Pb)38
TeTellurium
Teβ“˜ TelluriumTe
Teβ“˜ CalaveriteAuTe2
Teβ“˜ PetziteAg3AuTe2
Teβ“˜ HessiteAg2Te
Teβ“˜ StΓΌtziteAg5-xTe3, x = 0.24-0.36
Teβ“˜ SylvaniteAgAuTe4
Teβ“˜ KrenneriteAu3AgTe8
Teβ“˜ ColoradoiteHgTe
Teβ“˜ TellurobismuthiteBi2Te3
Teβ“˜ AltaitePbTe
Teβ“˜ Benleonardite[Ag6(Sb,As)2S6Te][Ag9Cu(S,Te)2Te2]
Teβ“˜ EmpressiteAgTe
Teβ“˜ MoncheitePt(Te,Bi)2
Teβ“˜ Montbrayite(Au,Ag,Sb,Bi,Pb)23(Te,Sb,Bi,Pb)38
PtPlatinum
Ptβ“˜ MoncheitePt(Te,Bi)2
AuGold
Auβ“˜ GoldAu
Auβ“˜ CalaveriteAuTe2
Auβ“˜ PetziteAg3AuTe2
Auβ“˜ SylvaniteAgAuTe4
Auβ“˜ KrenneriteAu3AgTe8
Auβ“˜ Gold var. Electrum(Au,Ag)
Auβ“˜ Montbrayite(Au,Ag,Sb,Bi,Pb)23(Te,Sb,Bi,Pb)38
HgMercury
Hgβ“˜ ColoradoiteHgTe
PbLead
Pbβ“˜ AltaitePbTe
Pbβ“˜ GalenaPbS
Pbβ“˜ Galena var. Selenium-bearing GalenaPb(S,Se)
Pbβ“˜ CosalitePb2Bi2S5
Pbβ“˜ Montbrayite(Au,Ag,Sb,Bi,Pb)23(Te,Sb,Bi,Pb)38
BiBismuth
Biβ“˜ BismuthBi
Biβ“˜ TellurobismuthiteBi2Te3
Biβ“˜ BismuthiniteBi2S3
Biβ“˜ CosalitePb2Bi2S5
Biβ“˜ MoncheitePt(Te,Bi)2
Biβ“˜ Montbrayite(Au,Ag,Sb,Bi,Pb)23(Te,Sb,Bi,Pb)38
ThThorium
Thβ“˜ ThoriteTh(SiO4)

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