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Pira Inferida, Fenugu Sibiri Mine, Gonnosfanadiga, South Sardinia Province, Sardinia, Italyi
Regional Level Types
Pira InferidaMining Sub-district
Fenugu Sibiri MineMine
GonnosfanadigaCommune
South Sardinia ProvinceProvince
SardiniaAutonomous Region
Italy- not defined -

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PhotosMapsSearch
Latitude & Longitude (WGS84):
39° 27' 18'' North , 8° 34' 44'' East
Latitude & Longitude (decimal):
39.45513,8.57896
GeoHash:
G#: spn07nx4b
GRN:
N27E05
Type:
Mining Sub-district
Köppen climate type:
Csa : Hot-summer Mediterranean climate
Mindat Locality ID:
25978
Long-form identifier:
mindat:1:2:25978:8
GUID (UUID V4):
4e5994e2-5cc8-428b-b27f-c9fa7f87f52b
Name(s) in local language(s):
Cantiere di Pira Inferida, Miniera di Fenugu Sibiri, Gonnosfanadiga, Medio Campidano, Sardegna, Italia


This area was prospected by short research tunnels for tungsten minerals.

Select Mineral List Type

Standard Detailed Gallery Strunz Chemical Elements

Mineral List


119 valid minerals.

Rock Types Recorded

Note: 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:

Acanthite
Formula: Ag2S
Agardite-(Ce)
Formula: CeCu6(AsO4)3(OH)6 · 3H2O
Agardite-(Y)
Formula: YCu6(AsO4)3(OH)6 · 3H2O
Anglesite
Formula: PbSO4
Ankerite
Formula: Ca(Fe2+,Mg)(CO3)2
Annabergite
Formula: Ni3(AsO4)2 · 8H2O
Antlerite
Formula: Cu3(SO4)(OH)4
Aragonite
Formula: CaCO3
Arsenogorceixite
Formula: BaAl3(AsO4)(AsO3OH)(OH)6
Arsenolite
Formula: As2O3
Arsenopyrite
Formula: FeAsS
Babánekite
Formula: Cu3(AsO4)2 · 8H2O
Bariopharmacosiderite
Formula: Ba0.5Fe3+4(AsO4)3(OH)4 · 5H2O
Bastnäsite-(Ce)
Formula: Ce(CO3)F
Bayldonite
Formula: PbCu3(AsO4)2(OH)2
Bendadaite
Formula: Fe2+Fe3+2(AsO4)2(OH)2 · 4H2O
Beudantite
Formula: PbFe3(AsO4)(SO4)(OH)6
'Bindheimite'
Formula: Pb2Sb2O6O
Bismite
Formula: Bi2O3
Bismoclite
Formula: BiOCl
Bismuth
Formula: Bi
References:
doi.org (n.d.) https://doi.org/10.3390/min9070429
Brizzi, G., Olmi, F., Sabelli, C. (1994): Gli arseniati di Pira Inferida, Gonnofanadiga (CA). Rivista Mineralogica Italiana, 17, 3 (3-1994), 193-206
Moroni, M., Rossetti, P., Naitza, S., Magnani, L., Ruggieri, G., Aquino, A., Tartarotti, P., Franklin, A., Ferrari, E., Castelli, D., Oggiano, G., and Secchi, F. (2019) Factors controlling hydrothermal nickel and cobalt mineralization - Some suggestions from historical ore deposits in Italy. Minerals, 9 (7), 429
Deidda, Matteo L., Dario Fancello, Marilena Moroni, Stefano Naitza, and Ignazio Scano. (2021) "Spatial and Metallogenic Relationships between Different Hydrothermal Vein Systems in the Southern Arburèse District (SW Sardinia)" Environmental Sciences Proceedings 6, no. 1: 13. https://doi.org/10.3390/iecms2021-09363
Bismuthinite
Formula: Bi2S3
Bismutite
Formula: (BiO)2CO3
Bournonite
Formula: PbCuSbS3
Breithauptite
Formula: NiSb
Brochantite
Formula: Cu4(SO4)(OH)6
Calcite
Formula: CaCO3
Carminite
Formula: PbFe3+2(AsO4)2(OH)2
Cerussite
Formula: PbCO3
Cervantite
Formula: Sb3+Sb5+O4
Chalcopyrite
Formula: CuFeS2
References:
doi.org (n.d.) https://doi.org/10.3390/min9070429
Brizzi, G., Olmi, F., Sabelli, C. (1994): Gli arseniati di Pira Inferida, Gonnofanadiga (CA). Rivista Mineralogica Italiana, 17, 3 (3-1994), 193-206
Moroni, M., Rossetti, P., Naitza, S., Magnani, L., Ruggieri, G., Aquino, A., Tartarotti, P., Franklin, A., Ferrari, E., Castelli, D., Oggiano, G., and Secchi, F. (2019) Factors controlling hydrothermal nickel and cobalt mineralization - Some suggestions from historical ore deposits in Italy. Minerals, 9 (7), 429
Deidda, Matteo L., Dario Fancello, Marilena Moroni, Stefano Naitza, and Ignazio Scano. (2021) "Spatial and Metallogenic Relationships between Different Hydrothermal Vein Systems in the Southern Arburèse District (SW Sardinia)" Environmental Sciences Proceedings 6, no. 1: 13. https://doi.org/10.3390/iecms2021-09363
Chlorargyrite
Formula: AgCl
Cobaltarthurite
Formula: (Co,Mg)Fe3+2(AsO4)2(OH)2 · 4H2O
Cobaltite
Formula: CoAsS
References:
doi.org (n.d.) https://doi.org/10.3390/min9070429
Brizzi, G., Olmi, F., Sabelli, C. (1994): Gli arseniati di Pira Inferida, Gonnofanadiga (CA). Rivista Mineralogica Italiana, 17, 3 (3-1994), 193-206
Moroni, M., Rossetti, P., Naitza, S., Magnani, L., Ruggieri, G., Aquino, A., Tartarotti, P., Franklin, A., Ferrari, E., Castelli, D., Oggiano, G., and Secchi, F. (2019) Factors controlling hydrothermal nickel and cobalt mineralization - Some suggestions from historical ore deposits in Italy. Minerals, 9 (7), 429
Deidda, Matteo L., Dario Fancello, Marilena Moroni, Stefano Naitza, and Ignazio Scano. (2021) "Spatial and Metallogenic Relationships between Different Hydrothermal Vein Systems in the Southern Arburèse District (SW Sardinia)" Environmental Sciences Proceedings 6, no. 1: 13. https://doi.org/10.3390/iecms2021-09363
Connellite
Formula: Cu19(SO4)(OH)32Cl4 · 3H2O
Copper
Formula: Cu
Cornubite
Formula: Cu5(AsO4)2(OH)4
Covellite
Formula: CuS
Cuprite
Formula: Cu2O
'Cuproroméite' ?
Formula: Cu2Sb2(O,OH)7
Description: Reported as partzite by Brizzi et al. (1994).
Delafossite
Formula: CuFeO2
Djurleite
Formula: Cu31S16
Dolomite
Formula: CaMg(CO3)2
Dundasite
Formula: PbAl2(CO3)2(OH)4 · H2O
Epsomite
Formula: MgSO4 · 7H2O
Erythrite
Formula: Co3(AsO4)2 · 8H2O
Ferroskutterudite
Formula: (Fe,Co)As3
Fluorite
Formula: CaF2
Galena
Formula: PbS
References:
doi.org (n.d.) https://doi.org/10.3390/min9070429
Brizzi, G., Olmi, F., Sabelli, C. (1994): Gli arseniati di Pira Inferida, Gonnofanadiga (CA). Rivista Mineralogica Italiana, 17, 3 (3-1994), 193-206
Moroni, M., Rossetti, P., Naitza, S., Magnani, L., Ruggieri, G., Aquino, A., Tartarotti, P., Franklin, A., Ferrari, E., Castelli, D., Oggiano, G., and Secchi, F. (2019) Factors controlling hydrothermal nickel and cobalt mineralization - Some suggestions from historical ore deposits in Italy. Minerals, 9 (7), 429
Moroni, Marilena & Rossetti, Piergiorgio & Naitza, Stefano & Magnani, Lorenzo & Ruggieri, Giovanni & Aquino, Andrea & Tartarotti, Paola & Franklin, Andrea & Ferrari, Elena & Castelli, Daniele & Oggiano, Giacomo & Secchi, Francesco. (2019). Factors Controlling Hydrothermal Nickel and Cobalt Mineralization-Some Suggestions from Historical Ore Deposits in Italy. Minerals. 9. 429. 10.3390/min9070429.
Deidda, Matteo L., Dario Fancello, Marilena Moroni, Stefano Naitza, and Ignazio Scano. (2021) "Spatial and Metallogenic Relationships between Different Hydrothermal Vein Systems in the Southern Arburèse District (SW Sardinia)" Environmental Sciences Proceedings 6, no. 1: 13. https://doi.org/10.3390/iecms2021-09363
Gasparite-(Ce)
Formula: Ce(AsO4)
Geminite
Formula: Cu2+(AsO3OH) · H2O
Gersdorffite
Formula: NiAsS
References:
doi.org (n.d.) https://doi.org/10.3390/min9070429
Brizzi, G., Olmi, F., Sabelli, C. (1994): Gli arseniati di Pira Inferida, Gonnofanadiga (CA). Rivista Mineralogica Italiana, 17, 3 (3-1994), 193-206
Moroni, M., Rossetti, P., Naitza, S., Magnani, L., Ruggieri, G., Aquino, A., Tartarotti, P., Franklin, A., Ferrari, E., Castelli, D., Oggiano, G., and Secchi, F. (2019) Factors controlling hydrothermal nickel and cobalt mineralization - Some suggestions from historical ore deposits in Italy. Minerals, 9 (7), 429
Deidda, Matteo L., Dario Fancello, Marilena Moroni, Stefano Naitza, and Ignazio Scano. (2021) "Spatial and Metallogenic Relationships between Different Hydrothermal Vein Systems in the Southern Arburèse District (SW Sardinia)" Environmental Sciences Proceedings 6, no. 1: 13. https://doi.org/10.3390/iecms2021-09363
Glaucodot
Formula: (Co0.50Fe0.50)AsS
Goethite
Formula: α-Fe3+O(OH)
Gold
Formula: Au
Greenockite
Formula: CdS
Gypsum
Formula: CaSO4 · 2H2O
Hematite
Formula: Fe2O3
Hidalgoite
Formula: PbAl3(AsO4)(SO4)(OH)6
Hörnesite
Formula: Mg3(AsO4)2 · 8H2O
Hydrokenoelsmoreite
Formula: 2W2O6(H2O)
Description: Reported as ferritungstite by Brizzi et al. (1994)
Hydrokenoelsmoreite var. Ferritungstite
Jarosite
Formula: KFe3+3(SO4)2(OH)6
Kaolinite
Formula: Al2(Si2O5)(OH)4
Köttigite
Formula: Zn3(AsO4)2 · 8H2O
Ktenasite
Formula: ZnCu4(SO4)2(OH)6 · 6H2O
Lavendulan
Formula: NaCaCu5(AsO4)4Cl · 5H2O
Linarite
Formula: PbCu(SO4)(OH)2
Lindackerite
Formula: CuCu4(AsO4)2(HAsO4)2 · 9H2O
Linnaeite
Formula: Co2+Co3+2S4
Löllingite
Formula: FeAs2
References:
doi.org (n.d.) https://doi.org/10.3390/min9070429
Caboni, F., Mamberti, M., Tanca, G.A., Vinci, A., Bittarello, E., Marengo, A., Brizio, P., Bracco, R., Baralis, L., Desor, J., Ciriotti, M.E. (2018): Arseniati, arseniuri e altre novità di Pira Inferida - Fenugu Sibiri, Gonnosfanadiga, Sud Sardegna. Micro, 16, 110-156 (in Italian with abstracts in English, French and German)
Moroni, M., Rossetti, P., Naitza, S., Magnani, L., Ruggieri, G., Aquino, A., Tartarotti, P., Franklin, A., Ferrari, E., Castelli, D., Oggiano, G., and Secchi, F. (2019) Factors controlling hydrothermal nickel and cobalt mineralization - Some suggestions from historical ore deposits in Italy. Minerals, 9 (7), 429
Deidda, Matteo L., Dario Fancello, Marilena Moroni, Stefano Naitza, and Ignazio Scano. (2021) "Spatial and Metallogenic Relationships between Different Hydrothermal Vein Systems in the Southern Arburèse District (SW Sardinia)" Environmental Sciences Proceedings 6, no. 1: 13. https://doi.org/10.3390/iecms2021-09363
Mahnertite
Formula: NaCu3(AsO4)2Cl · 5H2O
Malachite
Formula: Cu2(CO3)(OH)2
Mansfieldite
Formula: AlAsO4 · 2H2O
'Mansfieldite-Scorodite Series'
Formula: AlAsO4 . 2H2O - Fe2+AsO4 . 2H2O
Millerite
Formula: NiS
Mimetite
Formula: Pb5(AsO4)3Cl
Mixite
Formula: BiCu6(AsO4)3(OH)6 · 3H2O
Muscovite
Formula: KAl2(AlSi3O10)(OH)2
Muscovite var. Sericite
Formula: KAl2(AlSi3O10)(OH)2
Natrojarosite
Formula: NaFe3(SO4)2(OH)6
Natropharmacosiderite
Formula: NaFe3+4(AsO4)3(OH)4 · 4H2O
Nickelhexahydrite
Formula: Ni(SO4) · 6H2O
Nickeline
Formula: NiAs
References:
doi.org (n.d.) https://doi.org/10.3390/min9070429
Brizzi, G., Olmi, F., Sabelli, C. (1994): Gli arseniati di Pira Inferida, Gonnofanadiga (CA). Rivista Mineralogica Italiana, 17, 3 (3-1994), 193-206
Moroni, M., Rossetti, P., Naitza, S., Magnani, L., Ruggieri, G., Aquino, A., Tartarotti, P., Franklin, A., Ferrari, E., Castelli, D., Oggiano, G., and Secchi, F. (2019) Factors controlling hydrothermal nickel and cobalt mineralization - Some suggestions from historical ore deposits in Italy. Minerals, 9 (7), 429
Moroni, Marilena & Rossetti, Piergiorgio & Naitza, Stefano & Magnani, Lorenzo & Ruggieri, Giovanni & Aquino, Andrea & Tartarotti, Paola & Franklin, Andrea & Ferrari, Elena & Castelli, Daniele & Oggiano, Giacomo & Secchi, Francesco. (2019). Factors Controlling Hydrothermal Nickel and Cobalt Mineralization-Some Suggestions from Historical Ore Deposits in Italy. Minerals. 9. 429. 10.3390/min9070429.
Nickelskutterudite
Formula: (Ni,Co,Fe)As3
Olivenite
Formula: Cu2(AsO4)(OH)
Petewilliamsite ?
Formula: (Ni,Co)30(As2O7)15
Pharmacolite
Formula: Ca(HAsO4) · 2H2O
Pharmacosiderite
Formula: KFe3+4(AsO4)3(OH)4 · 6-7H2O
Philipsbornite
Formula: PbAl3(AsO4)(AsO3OH)(OH)6
Phosgenite
Formula: Pb2CO3Cl2
Poitevinite
Formula: (Cu,Fe)SO4 · H2O
Polydymite
Formula: Ni2+Ni3+2S4
Proustite
Formula: Ag3AsS3
Pyrargyrite
Formula: Ag3SbS3
Pyrite
Formula: FeS2
Pyrrhotite
Formula: Fe1-xS
Quartz
Formula: SiO2
References:
doi.org (n.d.) https://doi.org/10.3390/min9070429
Brizzi, G., Olmi, F., Sabelli, C. (1994): Gli arseniati di Pira Inferida, Gonnofanadiga (CA). Rivista Mineralogica Italiana, 17, 3 (3-1994), 193-206
Moroni, M., Rossetti, P., Naitza, S., Magnani, L., Ruggieri, G., Aquino, A., Tartarotti, P., Franklin, A., Ferrari, E., Castelli, D., Oggiano, G., and Secchi, F. (2019) Factors controlling hydrothermal nickel and cobalt mineralization - Some suggestions from historical ore deposits in Italy. Minerals, 9 (7), 429
Moroni, Marilena & Rossetti, Piergiorgio & Naitza, Stefano & Magnani, Lorenzo & Ruggieri, Giovanni & Aquino, Andrea & Tartarotti, Paola & Franklin, Andrea & Ferrari, Elena & Castelli, Daniele & Oggiano, Giacomo & Secchi, Francesco. (2019). Factors Controlling Hydrothermal Nickel and Cobalt Mineralization-Some Suggestions from Historical Ore Deposits in Italy. Minerals. 9. 429. 10.3390/min9070429.
Deidda, Matteo L., Dario Fancello, Marilena Moroni, Stefano Naitza, and Ignazio Scano. (2021) "Spatial and Metallogenic Relationships between Different Hydrothermal Vein Systems in the Southern Arburèse District (SW Sardinia)" Environmental Sciences Proceedings 6, no. 1: 13. https://doi.org/10.3390/iecms2021-09363
Rammelsbergite
Formula: NiAs2
References:
doi.org (n.d.) https://doi.org/10.3390/min9070429
Brizzi, G., Olmi, F., Sabelli, C. (1994): Gli arseniati di Pira Inferida, Gonnofanadiga (CA). Rivista Mineralogica Italiana, 17, 3 (3-1994), 193-206
Moroni, M., Rossetti, P., Naitza, S., Magnani, L., Ruggieri, G., Aquino, A., Tartarotti, P., Franklin, A., Ferrari, E., Castelli, D., Oggiano, G., and Secchi, F. (2019) Factors controlling hydrothermal nickel and cobalt mineralization - Some suggestions from historical ore deposits in Italy. Minerals, 9 (7), 429
Moroni, Marilena & Rossetti, Piergiorgio & Naitza, Stefano & Magnani, Lorenzo & Ruggieri, Giovanni & Aquino, Andrea & Tartarotti, Paola & Franklin, Andrea & Ferrari, Elena & Castelli, Daniele & Oggiano, Giacomo & Secchi, Francesco. (2019). Factors Controlling Hydrothermal Nickel and Cobalt Mineralization-Some Suggestions from Historical Ore Deposits in Italy. Minerals. 9. 429. 10.3390/min9070429.
Reevesite
Formula: Ni6Fe3+2(OH)16(CO3) · 4H2O
Retgersite
Formula: NiSO4 · 6H2O
Rooseveltite
Formula: Bi(AsO4)
Rosiaite
Formula: PbSb5+2O6
Rutile
Formula: TiO2
Safflorite
Formula: (Co,Ni,Fe)As2
Sampleite
Formula: NaCaCu5(PO4)4Cl · 5H2O
Schultenite
Formula: Pb(HAsO4)
Scorodite
Formula: Fe3+AsO4 · 2H2O
Segnitite
Formula: PbFe3+3AsO4(AsO3OH)(OH)6
Siderite
Formula: FeCO3
References:
doi.org (n.d.) https://doi.org/10.3390/min9070429
Brizzi, G., Olmi, F., Sabelli, C. (1994): Gli arseniati di Pira Inferida, Gonnofanadiga (CA). Rivista Mineralogica Italiana, 17, 3 (3-1994), 193-206
Moroni, M., Rossetti, P., Naitza, S., Magnani, L., Ruggieri, G., Aquino, A., Tartarotti, P., Franklin, A., Ferrari, E., Castelli, D., Oggiano, G., and Secchi, F. (2019) Factors controlling hydrothermal nickel and cobalt mineralization - Some suggestions from historical ore deposits in Italy. Minerals, 9 (7), 429
Moroni, Marilena & Rossetti, Piergiorgio & Naitza, Stefano & Magnani, Lorenzo & Ruggieri, Giovanni & Aquino, Andrea & Tartarotti, Paola & Franklin, Andrea & Ferrari, Elena & Castelli, Daniele & Oggiano, Giacomo & Secchi, Francesco. (2019). Factors Controlling Hydrothermal Nickel and Cobalt Mineralization-Some Suggestions from Historical Ore Deposits in Italy. Minerals. 9. 429. 10.3390/min9070429.
Deidda, Matteo L., Dario Fancello, Marilena Moroni, Stefano Naitza, and Ignazio Scano. (2021) "Spatial and Metallogenic Relationships between Different Hydrothermal Vein Systems in the Southern Arburèse District (SW Sardinia)" Environmental Sciences Proceedings 6, no. 1: 13. https://doi.org/10.3390/iecms2021-09363
Silver
Formula: Ag
Skutterudite
Formula: CoAs3
References:
doi.org (n.d.) https://doi.org/10.3390/min9070429
Brizzi, G., Olmi, F., Sabelli, C. (1994): Gli arseniati di Pira Inferida, Gonnofanadiga (CA). Rivista Mineralogica Italiana, 17, 3 (3-1994), 193-206
Moroni, M., Rossetti, P., Naitza, S., Magnani, L., Ruggieri, G., Aquino, A., Tartarotti, P., Franklin, A., Ferrari, E., Castelli, D., Oggiano, G., and Secchi, F. (2019) Factors controlling hydrothermal nickel and cobalt mineralization - Some suggestions from historical ore deposits in Italy. Minerals, 9 (7), 429
Moroni, Marilena & Rossetti, Piergiorgio & Naitza, Stefano & Magnani, Lorenzo & Ruggieri, Giovanni & Aquino, Andrea & Tartarotti, Paola & Franklin, Andrea & Ferrari, Elena & Castelli, Daniele & Oggiano, Giacomo & Secchi, Francesco. (2019). Factors Controlling Hydrothermal Nickel and Cobalt Mineralization-Some Suggestions from Historical Ore Deposits in Italy. Minerals. 9. 429. 10.3390/min9070429.
Sphalerite
Formula: ZnS
References:
Stara, P., Rizzo, R., Tanca, G.A. (1996): Iglesiente e Arburese. Miniere e Minerali. Edito a cura dell'EMSA e "varie associazioni mineralogiche", Volume 2°, 239 pp.
Moroni, Marilena & Rossetti, Piergiorgio & Naitza, Stefano & Magnani, Lorenzo & Ruggieri, Giovanni & Aquino, Andrea & Tartarotti, Paola & Franklin, Andrea & Ferrari, Elena & Castelli, Daniele & Oggiano, Giacomo & Secchi, Francesco. (2019). Factors Controlling Hydrothermal Nickel and Cobalt Mineralization-Some Suggestions from Historical Ore Deposits in Italy. Minerals. 9. 429. 10.3390/min9070429.
Deidda, Matteo L., Dario Fancello, Marilena Moroni, Stefano Naitza, and Ignazio Scano. (2021) "Spatial and Metallogenic Relationships between Different Hydrothermal Vein Systems in the Southern Arburèse District (SW Sardinia)" Environmental Sciences Proceedings 6, no. 1: 13. https://doi.org/10.3390/iecms2021-09363
'Stibiconite'
Formula: Sb3+Sb5+2O6(OH)
Stibioclaudetite
Formula: AsSbO3
Stibnite
Formula: Sb2S3
Strashimirite
Formula: Cu8(AsO4)4(OH)4 · 5H2O
Strengite
Formula: FePO4 · 2H2O
Sulphur
Formula: S8
Symplesite
Formula: Fe2+3(AsO4)2 · 8H2O
Synchysite-(Ce)
Formula: CaCe(CO3)2F
'Tetrahedrite Subgroup'
Formula: Cu6(Cu4C2+2)Sb4S12S
References:
doi.org (n.d.) https://doi.org/10.3390/min9070429
Brizzi, G., Olmi, F., Sabelli, C. (1994): Gli arseniati di Pira Inferida, Gonnofanadiga (CA). Rivista Mineralogica Italiana, 17, 3 (3-1994), 193-206
Moroni, M., Rossetti, P., Naitza, S., Magnani, L., Ruggieri, G., Aquino, A., Tartarotti, P., Franklin, A., Ferrari, E., Castelli, D., Oggiano, G., and Secchi, F. (2019) Factors controlling hydrothermal nickel and cobalt mineralization - Some suggestions from historical ore deposits in Italy. Minerals, 9 (7), 429
Moroni, Marilena & Rossetti, Piergiorgio & Naitza, Stefano & Magnani, Lorenzo & Ruggieri, Giovanni & Aquino, Andrea & Tartarotti, Paola & Franklin, Andrea & Ferrari, Elena & Castelli, Daniele & Oggiano, Giacomo & Secchi, Francesco. (2019). Factors Controlling Hydrothermal Nickel and Cobalt Mineralization-Some Suggestions from Historical Ore Deposits in Italy. Minerals. 9. 429. 10.3390/min9070429.
Deidda, Matteo L., Dario Fancello, Marilena Moroni, Stefano Naitza, and Ignazio Scano. (2021) "Spatial and Metallogenic Relationships between Different Hydrothermal Vein Systems in the Southern Arburèse District (SW Sardinia)" Environmental Sciences Proceedings 6, no. 1: 13. https://doi.org/10.3390/iecms2021-09363
Tripuhyite
Formula: Fe3+Sb5+O4
Ullmannite
Formula: NiSbS
References:
doi.org (n.d.) https://doi.org/10.3390/min9070429
Brizzi, G., Olmi, F., Sabelli, C. (1994): Gli arseniati di Pira Inferida, Gonnofanadiga (CA). Rivista Mineralogica Italiana, 17, 3 (3-1994), 193-206
Moroni, M., Rossetti, P., Naitza, S., Magnani, L., Ruggieri, G., Aquino, A., Tartarotti, P., Franklin, A., Ferrari, E., Castelli, D., Oggiano, G., and Secchi, F. (2019) Factors controlling hydrothermal nickel and cobalt mineralization - Some suggestions from historical ore deposits in Italy. Minerals, 9 (7), 429
Deidda, Matteo L., Dario Fancello, Marilena Moroni, Stefano Naitza, and Ignazio Scano. (2021) "Spatial and Metallogenic Relationships between Different Hydrothermal Vein Systems in the Southern Arburèse District (SW Sardinia)" Environmental Sciences Proceedings 6, no. 1: 13. https://doi.org/10.3390/iecms2021-09363
Valentinite
Formula: Sb2O3
Valleriite
Formula: (Fe2+,Cu)4(Mg,Al)3S4(OH,O)6

Gallery:

PbCu3(AsO4)2(OH)2 Bayldonite
Fe2+Fe3+2(AsO4)2(OH)2 · 4H2O Bendadaite
PbFe3(AsO4)(SO4)(OH)6 Beudantite
PbFe3+2(AsO4)2(OH)2 Carminite
Co3(AsO4)2 · 8H2O Erythrite
CaF2 Fluorite
PbS Galena
NaCaCu5(AsO4)4Cl · 5H2O Lavendulan
CuCu4(AsO4)2(HAsO4)2 · 9H2O Lindackerite
AlAsO4 · 2H2O Mansfieldite
NiS Millerite
Pb5(AsO4)3Cl Mimetite
NiAs Nickeline
Cu2(AsO4)(OH) Olivenite
Fe1-xS Pyrrhotite
Fe3+AsO4 · 2H2O Scorodite
Fe2+3(AsO4)2 · 8H2O Symplesite

List of minerals arranged by Strunz 10th Edition classification

Group 1 - Elements
Silver1.AA.05Ag
Copper1.AA.05Cu
Gold1.AA.05Au
Bismuth1.CA.05Bi
Sulphur1.CC.05S8
Group 2 - Sulphides and Sulfosalts
Djurleite2.BA.05Cu31S16
Acanthite2.BA.35Ag2S
Covellite2.CA.05aCuS
Sphalerite2.CB.05aZnS
Chalcopyrite2.CB.10aCuFeS2
Greenockite2.CB.45CdS
Breithauptite2.CC.05NiSb
Nickeline2.CC.05NiAs
Pyrrhotite2.CC.10Fe1-xS
Millerite2.CC.20NiS
Galena2.CD.10PbS
Polydymite2.DA.05Ni2+Ni3+2S4
Linnaeite2.DA.05Co2+Co3+2S4
Stibnite2.DB.05Sb2S3
Bismuthinite2.DB.05Bi2S3
Pyrite2.EB.05aFeS2
Glaucodot2.EB.10c(Co0.50Fe0.50)AsS
Safflorite2.EB.15a(Co,Ni,Fe)As2
Rammelsbergite2.EB.15aNiAs2
Löllingite2.EB.15aFeAs2
Arsenopyrite2.EB.20FeAsS
Ullmannite2.EB.25NiSbS
Cobaltite2.EB.25CoAsS
Gersdorffite2.EB.25NiAsS
Nickelskutterudite2.EC.05(Ni,Co,Fe)As3
Ferroskutterudite2.EC.05(Fe,Co)As3
Skutterudite2.EC.05CoAs3
Valleriite2.FD.30(Fe2+,Cu)4(Mg,Al)3S4(OH,O)6
Pyrargyrite2.GA.05Ag3SbS3
Proustite2.GA.05Ag3AsS3
Bournonite2.GA.50PbCuSbS3
'Tetrahedrite Subgroup'2.GB.05Cu6(Cu4C2+2)Sb4S12S
Group 3 - Halides
Chlorargyrite3.AA.15AgCl
Fluorite3.AB.25CaF2
Connellite3.DA.25Cu19(SO4)(OH)32Cl4 · 3H2O
Bismoclite3.DC.25BiOCl
Group 4 - Oxides and Hydroxides
Goethite4.00.α-Fe3+O(OH)
Cuprite4.AA.10Cu2O
Delafossite4.AB.15CuFeO2
Hematite4.CB.05Fe2O3
Stibioclaudetite4.CB.45AsSbO3
Arsenolite4.CB.50As2O3
Valentinite4.CB.55Sb2O3
Bismite4.CB.60Bi2O3
Quartz4.DA.05SiO2
Tripuhyite4.DB.05Fe3+Sb5+O4
Rutile4.DB.05TiO2
Cervantite4.DE.30Sb3+Sb5+O4
Hydrokenoelsmoreite
var. Ferritungstite		4.DH.152W2O6(H2O)
4.DH.152W2O6(H2O)
'Cuproroméite' ?4.DH.20Cu2Sb2(O,OH)7
'Stibiconite'4.DH.20Sb3+Sb5+2O6(OH)
'Bindheimite'4.DH.20Pb2Sb2O6O
Rosiaite4.DH.25PbSb5+2O6
Group 5 - Nitrates and Carbonates
Calcite5.AB.05CaCO3
Siderite5.AB.05FeCO3
Ankerite5.AB.10Ca(Fe2+,Mg)(CO3)2
Dolomite5.AB.10CaMg(CO3)2
Aragonite5.AB.15CaCO3
Cerussite5.AB.15PbCO3
Malachite5.BA.10Cu2(CO3)(OH)2
Bastnäsite-(Ce)5.BD.20aCe(CO3)F
Synchysite-(Ce)5.BD.20cCaCe(CO3)2F
Phosgenite5.BE.20Pb2CO3Cl2
Bismutite5.BE.25(BiO)2CO3
Reevesite5.DA.50Ni6Fe3+2(OH)16(CO3) · 4H2O
Dundasite5.DB.10PbAl2(CO3)2(OH)4 · H2O
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
Anglesite7.AD.35PbSO4
Antlerite7.BB.15Cu3(SO4)(OH)4
Brochantite7.BB.25Cu4(SO4)(OH)6
Jarosite7.BC.10KFe3+3(SO4)2(OH)6
Natrojarosite7.BC.10NaFe3(SO4)2(OH)6
Linarite7.BC.65PbCu(SO4)(OH)2
Poitevinite7.CB.05(Cu,Fe)SO4 · H2O
Nickelhexahydrite7.CB.25Ni(SO4) · 6H2O
Retgersite7.CB.30NiSO4 · 6H2O
Epsomite7.CB.40MgSO4 · 7H2O
Gypsum7.CD.40CaSO4 · 2H2O
Ktenasite7.DD.20ZnCu4(SO4)2(OH)6 · 6H2O
Group 8 - Phosphates, Arsenates and Vanadates
Schultenite8.AD.30Pb(HAsO4)
Gasparite-(Ce)8.AD.50Ce(AsO4)
Rooseveltite8.AD.50Bi(AsO4)
Olivenite8.BB.30Cu2(AsO4)(OH)
Cornubite8.BD.30Cu5(AsO4)2(OH)4
Carminite8.BH.30PbFe3+2(AsO4)2(OH)2
Bayldonite8.BH.45PbCu3(AsO4)2(OH)2
Beudantite8.BL.05PbFe3(AsO4)(SO4)(OH)6
Hidalgoite8.BL.05PbAl3(AsO4)(SO4)(OH)6
Segnitite8.BL.10PbFe3+3AsO4(AsO3OH)(OH)6
Philipsbornite8.BL.10PbAl3(AsO4)(AsO3OH)(OH)6
Arsenogorceixite8.BL.10BaAl3(AsO4)(AsO3OH)(OH)6
Mimetite8.BN.05Pb5(AsO4)3Cl
Geminite8.CB.30Cu2+(AsO3OH) · H2O
Scorodite8.CD.10Fe3+AsO4 · 2H2O
Mansfieldite8.CD.10AlAsO4 · 2H2O
Strengite8.CD.10FePO4 · 2H2O
Lindackerite8.CE.30CuCu4(AsO4)2(HAsO4)2 · 9H2O
Erythrite8.CE.40Co3(AsO4)2 · 8H2O
Hörnesite8.CE.40Mg3(AsO4)2 · 8H2O
Annabergite8.CE.40Ni3(AsO4)2 · 8H2O
Köttigite8.CE.40Zn3(AsO4)2 · 8H2O
Symplesite8.CE.45Fe2+3(AsO4)2 · 8H2O
Babánekite8.CE.XCu3(AsO4)2 · 8H2O
Pharmacolite8.CJ.50Ca(HAsO4) · 2H2O
Strashimirite8.DC.12Cu8(AsO4)4(OH)4 · 5H2O
Bendadaite8.DC.15Fe2+Fe3+2(AsO4)2(OH)2 · 4H2O
Cobaltarthurite8.DC.15(Co,Mg)Fe3+2(AsO4)2(OH)2 · 4H2O
Lavendulan8.DG.05NaCaCu5(AsO4)4Cl · 5H2O
Sampleite8.DG.05NaCaCu5(PO4)4Cl · 5H2O
Mahnertite8.DH.45NaCu3(AsO4)2Cl · 5H2O
Bariopharmacosiderite8.DK.10Ba0.5Fe3+4(AsO4)3(OH)4 · 5H2O
Natropharmacosiderite8.DK.10NaFe3+4(AsO4)3(OH)4 · 4H2O
Pharmacosiderite8.DK.10KFe3+4(AsO4)3(OH)4 · 6-7H2O
Agardite-(Y)8.DL.15YCu6(AsO4)3(OH)6 · 3H2O
Mixite8.DL.15BiCu6(AsO4)3(OH)6 · 3H2O
Agardite-(Ce)8.DL.15CeCu6(AsO4)3(OH)6 · 3H2O
Petewilliamsite ?8.FA.25(Ni,Co)30(As2O7)15
Group 9 - Silicates
Muscovite
var. Sericite		9.EC.15KAl2(AlSi3O10)(OH)2
9.EC.15KAl2(AlSi3O10)(OH)2
Kaolinite9.ED.05Al2(Si2O5)(OH)4
Unclassified
'Mansfieldite-Scorodite Series'-AlAsO4 . 2H2O - Fe2+AsO4 . 2H2O

List of minerals for each chemical element

HHydrogen
H Agardite-(Y)YCu6(AsO4)3(OH)6 · 3H2O
H Agardite-(Ce)CeCu6(AsO4)3(OH)6 · 3H2O
H AnnabergiteNi3(AsO4)2 · 8H2O
H AntleriteCu3(SO4)(OH)4
H ArsenogorceixiteBaAl3(AsO4)(AsO3OH)(OH)6
H BariopharmacosideriteBa0.5Fe43+(AsO4)3(OH)4 · 5H2O
H BayldonitePbCu3(AsO4)2(OH)2
H BeudantitePbFe3(AsO4)(SO4)(OH)6
H BrochantiteCu4(SO4)(OH)6
H CarminitePbFe23+(AsO4)2(OH)2
H ConnelliteCu19(SO4)(OH)32Cl4 · 3H2O
H CornubiteCu5(AsO4)2(OH)4
H DundasitePbAl2(CO3)2(OH)4 · H2O
H EpsomiteMgSO4 · 7H2O
H ErythriteCo3(AsO4)2 · 8H2O
H GeminiteCu2+(AsO3OH) · H2O
H Goethiteα-Fe3+O(OH)
H GypsumCaSO4 · 2H2O
H HidalgoitePbAl3(AsO4)(SO4)(OH)6
H HörnesiteMg3(AsO4)2 · 8H2O
H JarositeKFe33+(SO4)2(OH)6
H KaoliniteAl2(Si2O5)(OH)4
H KöttigiteZn3(AsO4)2 · 8H2O
H KtenasiteZnCu4(SO4)2(OH)6 · 6H2O
H LavendulanNaCaCu5(AsO4)4Cl · 5H2O
H LinaritePbCu(SO4)(OH)2
H LindackeriteCuCu4(AsO4)2(HAsO4)2 · 9H2O
H MalachiteCu2(CO3)(OH)2
H MansfielditeAlAsO4 · 2H2O
H MixiteBiCu6(AsO4)3(OH)6 · 3H2O
H MuscoviteKAl2(AlSi3O10)(OH)2
H NatrojarositeNaFe3(SO4)2(OH)6
H NickelhexahydriteNi(SO4) · 6H2O
H OliveniteCu2(AsO4)(OH)
H CuproroméiteCu2Sb2(O,OH)7
H PharmacoliteCa(HAsO4) · 2H2O
H PharmacosideriteKFe43+(AsO4)3(OH)4 · 6-7H2O
H PhilipsbornitePbAl3(AsO4)(AsO3OH)(OH)6
H Poitevinite(Cu,Fe)SO4 · H2O
H ReevesiteNi6Fe23+(OH)16(CO3) · 4H2O
H RetgersiteNiSO4 · 6H2O
H SampleiteNaCaCu5(PO4)4Cl · 5H2O
H SchultenitePb(HAsO4)
H ScoroditeFe3+AsO4 · 2H2O
H SegnititePbFe33+AsO4(AsO3OH)(OH)6
H NatropharmacosideriteNaFe43+(AsO4)3(OH)4 · 4H2O
H StibiconiteSb3+Sb25+O6(OH)
H StrashimiriteCu8(AsO4)4(OH)4 · 5H2O
H StrengiteFePO4 · 2H2O
H SymplesiteFe32+(AsO4)2 · 8H2O
H Valleriite(Fe2+,Cu)4(Mg,Al)3S4(OH,O)6
H MahnertiteNaCu3(AsO4)2Cl · 5H2O
H Muscovite var. SericiteKAl2(AlSi3O10)(OH)2
H Cobaltarthurite(Co,Mg)Fe23+(AsO4)2(OH)2 · 4H2O
H Hydrokenoelsmoreite2W2O6(H2O)
H BendadaiteFe2+Fe23+(AsO4)2(OH)2 · 4H2O
H BabánekiteCu3(AsO4)2 · 8H2O
CCarbon
C AnkeriteCa(Fe2+,Mg)(CO3)2
C AragoniteCaCO3
C Bastnäsite-(Ce)Ce(CO3)F
C Bismutite(BiO)2CO3
C CalciteCaCO3
C CerussitePbCO3
C DolomiteCaMg(CO3)2
C DundasitePbAl2(CO3)2(OH)4 · H2O
C MalachiteCu2(CO3)(OH)2
C PhosgenitePb2CO3Cl2
C ReevesiteNi6Fe23+(OH)16(CO3) · 4H2O
C SideriteFeCO3
C Synchysite-(Ce)CaCe(CO3)2F
OOxygen
O Agardite-(Y)YCu6(AsO4)3(OH)6 · 3H2O
O Agardite-(Ce)CeCu6(AsO4)3(OH)6 · 3H2O
O AnglesitePbSO4
O AnkeriteCa(Fe2+,Mg)(CO3)2
O AnnabergiteNi3(AsO4)2 · 8H2O
O AntleriteCu3(SO4)(OH)4
O ArsenoliteAs2O3
O ArsenogorceixiteBaAl3(AsO4)(AsO3OH)(OH)6
O AragoniteCaCO3
O BariopharmacosideriteBa0.5Fe43+(AsO4)3(OH)4 · 5H2O
O Bastnäsite-(Ce)Ce(CO3)F
O BayldonitePbCu3(AsO4)2(OH)2
O BeudantitePbFe3(AsO4)(SO4)(OH)6
O BindheimitePb2Sb2O6O
O BismiteBi2O3
O BismocliteBiOCl
O Bismutite(BiO)2CO3
O BrochantiteCu4(SO4)(OH)6
O CalciteCaCO3
O CarminitePbFe23+(AsO4)2(OH)2
O CerussitePbCO3
O CervantiteSb3+Sb5+O4
O ConnelliteCu19(SO4)(OH)32Cl4 · 3H2O
O CornubiteCu5(AsO4)2(OH)4
O CupriteCu2O
O DelafossiteCuFeO2
O DolomiteCaMg(CO3)2
O DundasitePbAl2(CO3)2(OH)4 · H2O
O EpsomiteMgSO4 · 7H2O
O ErythriteCo3(AsO4)2 · 8H2O
O Gasparite-(Ce)Ce(AsO4)
O GeminiteCu2+(AsO3OH) · H2O
O Goethiteα-Fe3+O(OH)
O GypsumCaSO4 · 2H2O
O HematiteFe2O3
O HidalgoitePbAl3(AsO4)(SO4)(OH)6
O HörnesiteMg3(AsO4)2 · 8H2O
O JarositeKFe33+(SO4)2(OH)6
O KaoliniteAl2(Si2O5)(OH)4
O KöttigiteZn3(AsO4)2 · 8H2O
O KtenasiteZnCu4(SO4)2(OH)6 · 6H2O
O LavendulanNaCaCu5(AsO4)4Cl · 5H2O
O LinaritePbCu(SO4)(OH)2
O LindackeriteCuCu4(AsO4)2(HAsO4)2 · 9H2O
O MalachiteCu2(CO3)(OH)2
O MansfielditeAlAsO4 · 2H2O
O MimetitePb5(AsO4)3Cl
O MixiteBiCu6(AsO4)3(OH)6 · 3H2O
O MuscoviteKAl2(AlSi3O10)(OH)2
O NatrojarositeNaFe3(SO4)2(OH)6
O NickelhexahydriteNi(SO4) · 6H2O
O OliveniteCu2(AsO4)(OH)
O CuproroméiteCu2Sb2(O,OH)7
O PharmacoliteCa(HAsO4) · 2H2O
O PharmacosideriteKFe43+(AsO4)3(OH)4 · 6-7H2O
O PhilipsbornitePbAl3(AsO4)(AsO3OH)(OH)6
O PhosgenitePb2CO3Cl2
O Poitevinite(Cu,Fe)SO4 · H2O
O QuartzSiO2
O ReevesiteNi6Fe23+(OH)16(CO3) · 4H2O
O RooseveltiteBi(AsO4)
O RutileTiO2
O RetgersiteNiSO4 · 6H2O
O SampleiteNaCaCu5(PO4)4Cl · 5H2O
O SchultenitePb(HAsO4)
O ScoroditeFe3+AsO4 · 2H2O
O SegnititePbFe33+AsO4(AsO3OH)(OH)6
O SideriteFeCO3
O NatropharmacosideriteNaFe43+(AsO4)3(OH)4 · 4H2O
O StibiconiteSb3+Sb25+O6(OH)
O StrashimiriteCu8(AsO4)4(OH)4 · 5H2O
O StrengiteFePO4 · 2H2O
O SymplesiteFe32+(AsO4)2 · 8H2O
O Synchysite-(Ce)CaCe(CO3)2F
O TripuhyiteFe3+Sb5+O4
O ValentiniteSb2O3
O Valleriite(Fe2+,Cu)4(Mg,Al)3S4(OH,O)6
O MahnertiteNaCu3(AsO4)2Cl · 5H2O
O RosiaitePbSb25+O6
O Muscovite var. SericiteKAl2(AlSi3O10)(OH)2
O Cobaltarthurite(Co,Mg)Fe23+(AsO4)2(OH)2 · 4H2O
O Petewilliamsite(Ni,Co)30(As2O7)15
O Hydrokenoelsmoreite2W2O6(H2O)
O BendadaiteFe2+Fe23+(AsO4)2(OH)2 · 4H2O
O StibioclaudetiteAsSbO3
O BabánekiteCu3(AsO4)2 · 8H2O
FFluorine
F Bastnäsite-(Ce)Ce(CO3)F
F FluoriteCaF2
F Synchysite-(Ce)CaCe(CO3)2F
NaSodium
Na LavendulanNaCaCu5(AsO4)4Cl · 5H2O
Na NatrojarositeNaFe3(SO4)2(OH)6
Na SampleiteNaCaCu5(PO4)4Cl · 5H2O
Na NatropharmacosideriteNaFe43+(AsO4)3(OH)4 · 4H2O
Na MahnertiteNaCu3(AsO4)2Cl · 5H2O
MgMagnesium
Mg AnkeriteCa(Fe2+,Mg)(CO3)2
Mg DolomiteCaMg(CO3)2
Mg EpsomiteMgSO4 · 7H2O
Mg HörnesiteMg3(AsO4)2 · 8H2O
Mg Valleriite(Fe2+,Cu)4(Mg,Al)3S4(OH,O)6
Mg Cobaltarthurite(Co,Mg)Fe23+(AsO4)2(OH)2 · 4H2O
AlAluminium
Al ArsenogorceixiteBaAl3(AsO4)(AsO3OH)(OH)6
Al DundasitePbAl2(CO3)2(OH)4 · H2O
Al HidalgoitePbAl3(AsO4)(SO4)(OH)6
Al KaoliniteAl2(Si2O5)(OH)4
Al MansfielditeAlAsO4 · 2H2O
Al MuscoviteKAl2(AlSi3O10)(OH)2
Al PhilipsbornitePbAl3(AsO4)(AsO3OH)(OH)6
Al Valleriite(Fe2+,Cu)4(Mg,Al)3S4(OH,O)6
Al Muscovite var. SericiteKAl2(AlSi3O10)(OH)2
SiSilicon
Si KaoliniteAl2(Si2O5)(OH)4
Si MuscoviteKAl2(AlSi3O10)(OH)2
Si QuartzSiO2
Si Muscovite var. SericiteKAl2(AlSi3O10)(OH)2
PPhosphorus
P SampleiteNaCaCu5(PO4)4Cl · 5H2O
P StrengiteFePO4 · 2H2O
SSulfur
S AcanthiteAg2S
S AnglesitePbSO4
S AntleriteCu3(SO4)(OH)4
S ArsenopyriteFeAsS
S BeudantitePbFe3(AsO4)(SO4)(OH)6
S BismuthiniteBi2S3
S BournonitePbCuSbS3
S BrochantiteCu4(SO4)(OH)6
S ChalcopyriteCuFeS2
S CobaltiteCoAsS
S ConnelliteCu19(SO4)(OH)32Cl4 · 3H2O
S CovelliteCuS
S DjurleiteCu31S16
S EpsomiteMgSO4 · 7H2O
S GalenaPbS
S GersdorffiteNiAsS
S Glaucodot(Co0.50Fe0.50)AsS
S GreenockiteCdS
S GypsumCaSO4 · 2H2O
S HidalgoitePbAl3(AsO4)(SO4)(OH)6
S JarositeKFe33+(SO4)2(OH)6
S KtenasiteZnCu4(SO4)2(OH)6 · 6H2O
S LinaritePbCu(SO4)(OH)2
S LinnaeiteCo2+Co23+S4
S MilleriteNiS
S NatrojarositeNaFe3(SO4)2(OH)6
S NickelhexahydriteNi(SO4) · 6H2O
S Poitevinite(Cu,Fe)SO4 · H2O
S PolydymiteNi2+Ni23+S4
S ProustiteAg3AsS3
S PyrargyriteAg3SbS3
S PyriteFeS2
S PyrrhotiteFe1-xS
S RetgersiteNiSO4 · 6H2O
S SphaleriteZnS
S StibniteSb2S3
S SulphurS8
S Tetrahedrite SubgroupCu6(Cu4C22+)Sb4S12S
S UllmanniteNiSbS
S Valleriite(Fe2+,Cu)4(Mg,Al)3S4(OH,O)6
ClChlorine
Cl BismocliteBiOCl
Cl ChlorargyriteAgCl
Cl ConnelliteCu19(SO4)(OH)32Cl4 · 3H2O
Cl LavendulanNaCaCu5(AsO4)4Cl · 5H2O
Cl MimetitePb5(AsO4)3Cl
Cl PhosgenitePb2CO3Cl2
Cl SampleiteNaCaCu5(PO4)4Cl · 5H2O
Cl MahnertiteNaCu3(AsO4)2Cl · 5H2O
KPotassium
K JarositeKFe33+(SO4)2(OH)6
K MuscoviteKAl2(AlSi3O10)(OH)2
K PharmacosideriteKFe43+(AsO4)3(OH)4 · 6-7H2O
K Muscovite var. SericiteKAl2(AlSi3O10)(OH)2
CaCalcium
Ca AnkeriteCa(Fe2+,Mg)(CO3)2
Ca AragoniteCaCO3
Ca CalciteCaCO3
Ca DolomiteCaMg(CO3)2
Ca FluoriteCaF2
Ca GypsumCaSO4 · 2H2O
Ca LavendulanNaCaCu5(AsO4)4Cl · 5H2O
Ca PharmacoliteCa(HAsO4) · 2H2O
Ca SampleiteNaCaCu5(PO4)4Cl · 5H2O
Ca Synchysite-(Ce)CaCe(CO3)2F
TiTitanium
Ti RutileTiO2
FeIron
Fe AnkeriteCa(Fe2+,Mg)(CO3)2
Fe ArsenopyriteFeAsS
Fe BariopharmacosideriteBa0.5Fe43+(AsO4)3(OH)4 · 5H2O
Fe BeudantitePbFe3(AsO4)(SO4)(OH)6
Fe CarminitePbFe23+(AsO4)2(OH)2
Fe ChalcopyriteCuFeS2
Fe DelafossiteCuFeO2
Fe Glaucodot(Co0.50Fe0.50)AsS
Fe Goethiteα-Fe3+O(OH)
Fe HematiteFe2O3
Fe JarositeKFe33+(SO4)2(OH)6
Fe LöllingiteFeAs2
Fe NatrojarositeNaFe3(SO4)2(OH)6
Fe Nickelskutterudite(Ni,Co,Fe)As3
Fe PharmacosideriteKFe43+(AsO4)3(OH)4 · 6-7H2O
Fe Poitevinite(Cu,Fe)SO4 · H2O
Fe PyriteFeS2
Fe PyrrhotiteFe1-xS
Fe ReevesiteNi6Fe23+(OH)16(CO3) · 4H2O
Fe Safflorite(Co,Ni,Fe)As2
Fe ScoroditeFe3+AsO4 · 2H2O
Fe SegnititePbFe33+AsO4(AsO3OH)(OH)6
Fe SideriteFeCO3
Fe NatropharmacosideriteNaFe43+(AsO4)3(OH)4 · 4H2O
Fe StrengiteFePO4 · 2H2O
Fe SymplesiteFe32+(AsO4)2 · 8H2O
Fe TripuhyiteFe3+Sb5+O4
Fe Valleriite(Fe2+,Cu)4(Mg,Al)3S4(OH,O)6
Fe Cobaltarthurite(Co,Mg)Fe23+(AsO4)2(OH)2 · 4H2O
Fe Ferroskutterudite(Fe,Co)As3
Fe BendadaiteFe2+Fe23+(AsO4)2(OH)2 · 4H2O
CoCobalt
Co CobaltiteCoAsS
Co ErythriteCo3(AsO4)2 · 8H2O
Co Glaucodot(Co0.50Fe0.50)AsS
Co LinnaeiteCo2+Co23+S4
Co Nickelskutterudite(Ni,Co,Fe)As3
Co Safflorite(Co,Ni,Fe)As2
Co SkutteruditeCoAs3
Co Cobaltarthurite(Co,Mg)Fe23+(AsO4)2(OH)2 · 4H2O
Co Petewilliamsite(Ni,Co)30(As2O7)15
Co Ferroskutterudite(Fe,Co)As3
NiNickel
Ni AnnabergiteNi3(AsO4)2 · 8H2O
Ni BreithauptiteNiSb
Ni GersdorffiteNiAsS
Ni MilleriteNiS
Ni NickelhexahydriteNi(SO4) · 6H2O
Ni Nickelskutterudite(Ni,Co,Fe)As3
Ni NickelineNiAs
Ni PolydymiteNi2+Ni23+S4
Ni RammelsbergiteNiAs2
Ni ReevesiteNi6Fe23+(OH)16(CO3) · 4H2O
Ni RetgersiteNiSO4 · 6H2O
Ni Safflorite(Co,Ni,Fe)As2
Ni UllmanniteNiSbS
Ni Petewilliamsite(Ni,Co)30(As2O7)15
CuCopper
Cu Agardite-(Y)YCu6(AsO4)3(OH)6 · 3H2O
Cu Agardite-(Ce)CeCu6(AsO4)3(OH)6 · 3H2O
Cu AntleriteCu3(SO4)(OH)4
Cu BayldonitePbCu3(AsO4)2(OH)2
Cu BournonitePbCuSbS3
Cu BrochantiteCu4(SO4)(OH)6
Cu ChalcopyriteCuFeS2
Cu ConnelliteCu19(SO4)(OH)32Cl4 · 3H2O
Cu CornubiteCu5(AsO4)2(OH)4
Cu CovelliteCuS
Cu CupriteCu2O
Cu CopperCu
Cu DelafossiteCuFeO2
Cu DjurleiteCu31S16
Cu GeminiteCu2+(AsO3OH) · H2O
Cu KtenasiteZnCu4(SO4)2(OH)6 · 6H2O
Cu LavendulanNaCaCu5(AsO4)4Cl · 5H2O
Cu LinaritePbCu(SO4)(OH)2
Cu LindackeriteCuCu4(AsO4)2(HAsO4)2 · 9H2O
Cu MalachiteCu2(CO3)(OH)2
Cu MixiteBiCu6(AsO4)3(OH)6 · 3H2O
Cu OliveniteCu2(AsO4)(OH)
Cu CuproroméiteCu2Sb2(O,OH)7
Cu Poitevinite(Cu,Fe)SO4 · H2O
Cu SampleiteNaCaCu5(PO4)4Cl · 5H2O
Cu StrashimiriteCu8(AsO4)4(OH)4 · 5H2O
Cu Tetrahedrite SubgroupCu6(Cu4C22+)Sb4S12S
Cu Valleriite(Fe2+,Cu)4(Mg,Al)3S4(OH,O)6
Cu MahnertiteNaCu3(AsO4)2Cl · 5H2O
Cu BabánekiteCu3(AsO4)2 · 8H2O
ZnZinc
Zn KöttigiteZn3(AsO4)2 · 8H2O
Zn KtenasiteZnCu4(SO4)2(OH)6 · 6H2O
Zn SphaleriteZnS
AsArsenic
As Agardite-(Y)YCu6(AsO4)3(OH)6 · 3H2O
As Agardite-(Ce)CeCu6(AsO4)3(OH)6 · 3H2O
As AnnabergiteNi3(AsO4)2 · 8H2O
As ArsenoliteAs2O3
As ArsenogorceixiteBaAl3(AsO4)(AsO3OH)(OH)6
As ArsenopyriteFeAsS
As BariopharmacosideriteBa0.5Fe43+(AsO4)3(OH)4 · 5H2O
As BayldonitePbCu3(AsO4)2(OH)2
As BeudantitePbFe3(AsO4)(SO4)(OH)6
As CarminitePbFe23+(AsO4)2(OH)2
As CobaltiteCoAsS
As CornubiteCu5(AsO4)2(OH)4
As ErythriteCo3(AsO4)2 · 8H2O
As Gasparite-(Ce)Ce(AsO4)
As GeminiteCu2+(AsO3OH) · H2O
As GersdorffiteNiAsS
As Glaucodot(Co0.50Fe0.50)AsS
As HidalgoitePbAl3(AsO4)(SO4)(OH)6
As HörnesiteMg3(AsO4)2 · 8H2O
As KöttigiteZn3(AsO4)2 · 8H2O
As LavendulanNaCaCu5(AsO4)4Cl · 5H2O
As LindackeriteCuCu4(AsO4)2(HAsO4)2 · 9H2O
As LöllingiteFeAs2
As MansfielditeAlAsO4 · 2H2O
As MimetitePb5(AsO4)3Cl
As MixiteBiCu6(AsO4)3(OH)6 · 3H2O
As Nickelskutterudite(Ni,Co,Fe)As3
As NickelineNiAs
As OliveniteCu2(AsO4)(OH)
As PharmacoliteCa(HAsO4) · 2H2O
As PharmacosideriteKFe43+(AsO4)3(OH)4 · 6-7H2O
As PhilipsbornitePbAl3(AsO4)(AsO3OH)(OH)6
As ProustiteAg3AsS3
As RammelsbergiteNiAs2
As RooseveltiteBi(AsO4)
As Safflorite(Co,Ni,Fe)As2
As SchultenitePb(HAsO4)
As ScoroditeFe3+AsO4 · 2H2O
As SegnititePbFe33+AsO4(AsO3OH)(OH)6
As SkutteruditeCoAs3
As NatropharmacosideriteNaFe43+(AsO4)3(OH)4 · 4H2O
As StrashimiriteCu8(AsO4)4(OH)4 · 5H2O
As SymplesiteFe32+(AsO4)2 · 8H2O
As MahnertiteNaCu3(AsO4)2Cl · 5H2O
As Cobaltarthurite(Co,Mg)Fe23+(AsO4)2(OH)2 · 4H2O
As Petewilliamsite(Ni,Co)30(As2O7)15
As Ferroskutterudite(Fe,Co)As3
As BendadaiteFe2+Fe23+(AsO4)2(OH)2 · 4H2O
As StibioclaudetiteAsSbO3
As BabánekiteCu3(AsO4)2 · 8H2O
YYttrium
Y Agardite-(Y)YCu6(AsO4)3(OH)6 · 3H2O
AgSilver
Ag AcanthiteAg2S
Ag ChlorargyriteAgCl
Ag ProustiteAg3AsS3
Ag PyrargyriteAg3SbS3
Ag SilverAg
CdCadmium
Cd GreenockiteCdS
SbAntimony
Sb BindheimitePb2Sb2O6O
Sb BournonitePbCuSbS3
Sb BreithauptiteNiSb
Sb CervantiteSb3+Sb5+O4
Sb CuproroméiteCu2Sb2(O,OH)7
Sb PyrargyriteAg3SbS3
Sb StibiconiteSb3+Sb25+O6(OH)
Sb StibniteSb2S3
Sb Tetrahedrite SubgroupCu6(Cu4C22+)Sb4S12S
Sb TripuhyiteFe3+Sb5+O4
Sb UllmanniteNiSbS
Sb ValentiniteSb2O3
Sb RosiaitePbSb25+O6
Sb StibioclaudetiteAsSbO3
BaBarium
Ba ArsenogorceixiteBaAl3(AsO4)(AsO3OH)(OH)6
Ba BariopharmacosideriteBa0.5Fe43+(AsO4)3(OH)4 · 5H2O
CeCerium
Ce Agardite-(Ce)CeCu6(AsO4)3(OH)6 · 3H2O
Ce Bastnäsite-(Ce)Ce(CO3)F
Ce Gasparite-(Ce)Ce(AsO4)
Ce Synchysite-(Ce)CaCe(CO3)2F
WTungsten
W Hydrokenoelsmoreite2W2O6(H2O)
AuGold
Au GoldAu
PbLead
Pb AnglesitePbSO4
Pb BayldonitePbCu3(AsO4)2(OH)2
Pb BeudantitePbFe3(AsO4)(SO4)(OH)6
Pb BindheimitePb2Sb2O6O
Pb BournonitePbCuSbS3
Pb CarminitePbFe23+(AsO4)2(OH)2
Pb CerussitePbCO3
Pb DundasitePbAl2(CO3)2(OH)4 · H2O
Pb GalenaPbS
Pb HidalgoitePbAl3(AsO4)(SO4)(OH)6
Pb LinaritePbCu(SO4)(OH)2
Pb MimetitePb5(AsO4)3Cl
Pb PhilipsbornitePbAl3(AsO4)(AsO3OH)(OH)6
Pb PhosgenitePb2CO3Cl2
Pb SchultenitePb(HAsO4)
Pb SegnititePbFe33+AsO4(AsO3OH)(OH)6
Pb RosiaitePbSb25+O6
BiBismuth
Bi BismiteBi2O3
Bi BismocliteBiOCl
Bi BismuthBi
Bi BismuthiniteBi2S3
Bi Bismutite(BiO)2CO3
Bi MixiteBiCu6(AsO4)3(OH)6 · 3H2O
Bi RooseveltiteBi(AsO4)

Other Regions, Features and Areas containing this locality

Eurasian PlateTectonic Plate
EuropeContinent

This page contains all mineral locality references listed on mindat.org. This does not claim to be a complete list. If you know of more minerals from this site, please register so you can add to our database. This locality information is for reference purposes only. You should never attempt to visit any sites listed in mindat.org without first ensuring that you have the permission of the land and/or mineral rights holders for access and that you are aware of all safety precautions necessary.

References

Del Caldo, A., Moro, C., Gramaccioli, C.M., Boscardin, M. (1973): Guida ai minerali. Fratelli Fabbri Editori, Milano, 208 pp.
Brizzi, G., Olmi, F., Sabelli, C. (1994): Gli arseniati di Pira Inferida, Gonnosfanadiga (CA). Rivista Mineralogica Italiana, 17, 3 (3-1994), 193-206.
Stara, P., Rizzo, R., Tanca, G.A. [with contributions of Vinci, A., Astolfi, M.] (1996): Iglesiente e Arburese. Miniere e Minerali. Associazione Mineralogica Sarda, Associazione Mineralogica Domusnovas, Gruppo Mineralogico Arburese, Gruppo Mineralogico Paleontologico Piacentino, Gruppo Mineralogico Lombardo et al. Ed., Siena, Vol. 2, 192 pp.
Caboni, F., Mamberti, M., Tanca G.A., Vinci, A., Bittarello, E., Marengo, A., Brizio, P., Bracco, R., Baralis, L., Desor, J., Ciriotti, M.E. (2018) Arseniati, arseniuri e altre novità di Pira Inferida - Fenugu Sibiri, Gonnosfanadiga, Sud Sardegna. Micro, 16, 110-156 (in Italian with abstracts in English, French and German).
Moroni, M., Rossetti, P., Naitza, S., Magnani, L., Ruggieri, G., Aquino, A., Tartarotti, P., Franklin, A., Ferrari, E., Castelli, D., Oggiano, G., and Secchi, F. (2019) Factors controlling hydrothermal nickel and cobalt mineralization - Some suggestions from historical ore deposits in Italy. Minerals, 9 (7), 429; https://doi.org/10.3390/min9070429
Moroni, Marilena & Rossetti, Piergiorgio & Naitza, Stefano & Magnani, Lorenzo & Ruggieri, Giovanni & Aquino, Andrea & Tartarotti, Paola & Franklin, Andrea & Ferrari, Elena & Castelli, Daniele & Oggiano, Giacomo & Secchi, Francesco. (2019). Factors Controlling Hydrothermal Nickel and Cobalt Mineralization-Some Suggestions from Historical Ore Deposits in Italy. Minerals. 9. 429. 10.3390/min9070429.
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