Buca della Vena Mine, Pontestazzemese, Stazzema, Lucca Province, Tuscany, Italyi
| Regional Level Types | |
|---|---|
| Buca della Vena Mine | Mine |
| Pontestazzemese | Village |
| Stazzema | Commune |
| Lucca Province | Province |
| Tuscany | Region |
| Italy | - not defined - |
Buca della Vena Mine, Apuan Alps, Tuscany, Italy
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Latitude & Longitude (WGS84):
43° 59' 54'' North , 10° 17' 39'' East
Latitude & Longitude (decimal):
Type:
Age:
~237 to 201.3 ± 0.2 Ma
Geologic Time:
Köppen climate type:
Nearest Settlements:
| Place | Population | Distance |
|---|---|---|
| Pontestazzemese | 177 (2014) | 0.2km |
| Mulina | 139 (2014) | 1.3km |
| Stazzema | 223 (2014) | 1.4km |
| Pruno | 113 (2014) | 1.7km |
| Retignano | 360 (2014) | 1.8km |
Mindat Locality ID:
2165
Long-form identifier:
mindat:1:2:2165:7
GUID (UUID V4):
f2a5731f-3e76-4265-b332-6e6e05dce40d
Name(s) in local language(s):
Miniera di Buca della Vena, Ponte Stazzemese, Stazzema, Alpi Apuane, Lucca, Toscana, Italia
The Buca della Vena mine was exploited for baryte and Fe-oxides up to 1988.
The mineralization is hosted within two carbonatic lenses of dolomitic metalimestones of Upper Triassic age (Grezzoni formation) and marble of Liassic age (Marble formation), interbedded with lenses of phyllites. The orebody and the hosted rocks show evidence of deformations which have been referred to as a first compressive tectonic phase dating back 26 m.y. Measured homogenization temperature in beryl crystals from the orebody ranged from 250° to 340° C, in good agreement with the metamorphic grade of the area (greenschist facies).
Carmignani et al. (1972, 1976) considered this deposit to be a metasomatic replacement of carbonate rocks, genetically connected to a hypothetical synkinematic intrusive body.
Cortecci et al. (1985), on the other hand, on the basis of isotope analysis of sulfates and sulfides, concluded that the deposit is sedimentary in origin and was subsequently metamorphosed and partly remobilized during the Tertiary Appenninic orogeny.
Orlandi & Dini (2004) distinguish four different kinds of occurrence of Buca della Vena minerals:
— Type V-1 veins: calcite and baryte veins embedded in the dolomitic limestones.
— Type V-2 veins: quartz and baryte veins embedded in the orebody (Fe-oxides + baryte).
— Type V-3 veins: quartz veins embedded in the phyllites.
— Type F-1 fractures: vertical fractures with the wall covered by calcite, baryte, and albite crystals.
Select Mineral List Type
Standard Detailed Gallery Strunz Chemical ElementsCommodity List
This is a list of exploitable or exploited mineral commodities recorded at this locality.Mineral List
79 valid minerals. 14 (TL) - type locality of valid minerals.
Rock Types Recorded
Note: data is currently VERY limited. Please bear with us while we work towards adding this information!
Select Rock List Type
Alphabetical List Tree DiagramDetailed Mineral List:
| ⓘ Albite Formula: Na(AlSi3O8) Habit: tabular Colour: colorless, white Description: xls up to 1 cm in F-1 fractures. xls up to 5 mm included in dolomitic limestone. |
| ⓘ Allanite-(Ce) Formula: (CaCe)(AlAlFe2+)O[Si2O7][SiO4](OH) Habit: prismatic xls Colour: brown, black Description: Type V-3 veins. |
| ⓘ Allanite-(La) (TL) Formula: (CaLa)(AlAlFe2+)O[Si2O7][SiO4](OH) Type Locality: Habit: prismatic Colour: black Description: xls up to 5 mm. Type V-1 veins. |
| ✪ Anatase Formula: TiO2 Habit: bypiramidal, tabular Colour: brown, red, honey-yellow, blue, black Description: xls up to 3 mm. Type V-1 and V-3 veins. |
| ⓘ 'Andorite' Formula: AgPbSb3S6 Colour: black Description: Type V-1 veins. |
| ✪ Apuanite (TL) Formula: Fe2+Fe3+4Sb3+4O12S Type Locality: Habit: prismatic, characterized by the forms {001}, {110}, {112} and {114}. Colour: black Description: In the past, it was rather common in the Sala del Castello. Today, it is very difficult to find samples of this phase.
Type V-1 veins.
The mineral occurs disseminated as aggregates of crude microcrystals filling fractures in cavities in dolomite. Some of these aggregates exceed 5 cm in diameter References: Mellini, Marcello, Merlino, Stefano, Orlandi, Paolo (1979) Versiliaite and apuanite, two new minerals from the Apuan Alps, Italy. American Mineralogist, 64 (11-12) 1230-1234 |
| ⓘ Aragonite Formula: CaCO3 Habit: spray of acicular xls Colour: white |
| ⓘ Aurichalcite Formula: (Zn,Cu)5(CO3)2(OH)6 Habit: crusts or lamellar xls Colour: green-blue Description: It is a product of the alteration of Cu sulfosalts, like bournonite. |
| ⓘ Azurite Formula: Cu3(CO3)2(OH)2 Habit: tabular xls Colour: blue |
| ✪ Baryte Formula: BaSO4 Habit: prismatic Colour: colorless, white, green Description: xls up to 5 cm.
It is present in all types of occurrences. |
| ✪ Beryl Formula: Be3Al2(Si6O18) Habit: prismatic xls Colour: blue, green Description: Type V-1 and V-2 veins. |
| ✪ Beryl var. Aquamarine Formula: Be3Al2Si6O18 Habit: prismatic Colour: blue Description: Type V-1 veins. It is also present in type V-2 veins, associated with hematite and quartz. |
| ✪ Beryl var. Emerald Formula: Be3Al2(Si6O18) Habit: prismatic Colour: green Description: Type V-1 veins. |
| ⓘ Bohuslavite (TL) Formula: Fe3+4(PO4)3(SO4)(OH) · nH2O Type Locality: Description: Type locality |
| ⓘ Boulangerite Formula: Pb5Sb4S11 Habit: thin, sometimes bent, acicular xls Colour: steel gray |
| ✪ Bournonite Formula: PbCuSbS3 Habit: prismatic, striated // elongation. Colour: black Description: Type V-1 veins and F-1 fractures. |
| ⓘ Brannerite ? Formula: UTi2O6 Habit: prismatic xls Colour: black Description: XRD show that this mineral is amorphous, even after heating up to 900°C. EDS analysis show only the presence of U and Ti. It can be brannerite or orthobrannerite. |
| ⓘ Calcite Formula: CaCO3 Habit: rhomboedric Colour: white, pink, colorless, black Description: It contains several % of Mg[CO3] |
| ✪ Cerussite Formula: PbCO3 Habit: tabular Colour: colorless, brown |
| ⓘ Chalcopyrite Formula: CuFeS2 |
| ⓘ Chalcostibite Formula: CuSbS2 Habit: tabular, acicular Colour: brown-blackish Description: Type V-1 veins. |
| ⓘ Chapmanite Formula: Fe3+2Sb3+(Si2O5)O3(OH) Colour: green |
| ⓘ Cinnabar Formula: HgS Habit: rhombohedric xls Colour: red Description: xls size < 0,5 mm.
It is present in V-1 veins and F-1 veins of Sala del Castello. |
| ⓘ Clinochlore Formula: Mg5Al(AlSi3O10)(OH)8 Habit: micaceous Colour: green Description: Type V-1 and V-2 veins. |
| ⓘ Coloradoite Formula: HgTe |
| ⓘ Copiapite Formula: Fe2+Fe3+4(SO4)6(OH)2 · 20H2O |
| ⓘ Dadsonite Formula: Pb23Sb25S60Cl Habit: slightly flattened, acicular xls Colour: black Description: It is very similar to rouxelite. References: |
| ✪ Derbylite Formula: Fe3+4Ti3Sb3+O13(OH) Habit: prismatic, often twinned Colour: black Description: xls up to 3 mm.
Type V-1 veins. It contains up to 10 wt% V2O3. |
| ✪ Dessauite-(Y) (TL) Formula: (Sr,Pb)(Y,U)(Ti,Fe3+)20O38 Type Locality: Habit: pseudo-hexagonal Colour: black Description: Type V-1 veins. Only one sample found. |
| ⓘ Destinezite Formula: Fe3+2(PO4)(SO4)(OH) · 6H2O |
| ⓘ Dolomite Formula: CaMg(CO3)2 Habit: rhomboedric Colour: white |
| ⓘ Dravite Formula: NaMg3Al6(Si6O18)(BO3)3(OH)3(OH) Habit: prismatic Colour: brown-red |
| ⓘ Fluorapatite Formula: Ca5(PO4)3F Habit: tabular Colour: colorless |
| ⓘ Fluorite Formula: CaF2 Habit: cubic Colour: colorless, violet Description: Type V-1 veins |
| ⓘ Fluorophlogopite Formula: KMg3(Si3Al)O10F2 References: Lacalamita, Maria, Schingaro, Emanuela, Mesto, Ernesto, Zaccarini, Federica, Biagioni, Cristian (2020) Crystal-chemistry of micas belonging to the yangzhumingite-fluorophlogopite and phlogopite-fluorophlogopite series from the Apuan Alps (northern Tuscany, Italy) Physics and Chemistry of Minerals, 47 (12) doi:10.1007/s00269-020-01118-2 |
| ⓘ Galena Formula: PbS |
| ⓘ Gersdorffite Formula: NiAsS Habit: cubic Colour: lead-grey Description: Type V-2 veins. |
| ⓘ Gypsum Formula: CaSO4 · 2H2O Habit: prismatic Colour: colorless |
| ⓘ Hematite Formula: Fe2O3 Habit: tabular Colour: black Description: It forms, with baryte and magnetite, the ore bodies. It is also present in type V-1 and V-2 veins. |
| ⓘ Jamborite ? Formula: Ni2+1-xCo3+x(OH)2-x(SO4)x · nH2O Habit: crusts Colour: green |
| ⓘ Jarosite Formula: KFe3+3(SO4)2(OH)6 |
| ⓘ Karelianite Formula: V3+2O3 Habit: tabular, pseudohexagonal Colour: black Description: xls size < 1 mm.
Type V-1 veins. |
| ⓘ 'K Feldspar' Habit: tabular Colour: colorless, white Description: Type V-3 veins. |
| ⓘ 'K Feldspar var. Adularia' Formula: KAlSi3O8 Habit: tabular Colour: colorless, white Description: Type V-3 veins. |
| ⓘ Magnetite Formula: Fe2+Fe3+2O4 Habit: octahedric, cubeoctahedric Colour: black Description: It forms, with baryte and hematite, the ore bodies. It is also present in type V-1 veins. |
| ⓘ Malachite Formula: Cu2(CO3)(OH)2 Habit: crust, acicular xls Colour: green Description: It is an alteration product of bournonite and tetrahedrite. |
| ⓘ Mapiquiroite (TL) Formula: (Sr,Pb)(U,Y)Fe2(Ti,Fe3+,Cr3+)18O38 Type Locality: |
| ⓘ Marrucciite (TL) Formula: Hg3Pb16Sb18S46 Type Locality: References: Orlandi, Paolo, Moëlo, Yves, Campostrini, Italo, Meerschaut, Alain (2007) Lead-antimony sulfosalts from Tuscany (Italy) IX. Marrucciite, Hg3Pb16Sb18S46, a new sulfosalt from Buca della Vena mine, Apuan Alps: Definition and crystal structure. European Journal of Mineralogy, 19 (2) 267-279 doi:10.1127/0935-1221/2007/0019-1718 |
| ⓘ Melanterite Formula: Fe2+(H2O)6SO4 · H2O |
| ⓘ Metacinnabar Formula: HgS |
| ⓘ Millerite Formula: NiS Habit: acicular Colour: golden yellow Description: It is partially altered in a earthy green mineral (jamborite ?). |
| ✪ Monazite-(Ce) Formula: Ce(PO4) Colour: honey yellow to pink Description: Type V-3 veins. |
| ⓘ Montroseite Formula: (V3+,Fe3+)O(OH) Habit: prismatic xls Colour: black Description: xls size < 1 mm. Type V-1 veins. It is associated with an unidentified mineral. |
| ⓘ Muscovite ? Formula: KAl2(AlSi3O10)(OH)2 |
| ⓘ Oxycalcioroméite (TL) Formula: Ca2Sb2O6O Type Locality: |
| ⓘ Pecoraite Formula: Ni3(Si2O5)(OH)4 Description: Apple green acicular crystals pseudomorph after millerite (XRD-G). |
| ✪ Pellouxite (TL) Formula: (Cu,Ag)Pb10Sb12S27O(Cl,S)0.6 Type Locality: Habit: strongly flattened, ribbon-like xls. Colour: black Description: IMA 2001-033 References: Orlandi, Paolo, Moëlo, Yves, Meerschaut, Alain, Palvadeau, Pierre, Leone, Philippe (2004) Lead-antimony sulfosalts from Tuscany (Italy) VI. Pellouxite, ~ (Cu,Ag)2Pb21Sb23S55ClO, a new oxy-chloro-sulfosalt from Buca della Vena mine, Apuan Alps. European Journal of Mineralogy, 16 (5) 839-844 doi:10.1127/0935-1221/2004/0016-0839 |
| ✪ Pillaite (TL) Formula: Pb9Sb10S23ClO0.5 Type Locality: Habit: very slight acicular xls; striated // to the elongation Colour: lead-gray, sometimes coated by thin iridescent Description: xls up to 1 cm. References: |
| ✪ Pyrite Formula: FeS2 Habit: pentagonododecahedric xls, octahedric xls Colour: yellow Description: It is present in all the occurrences. |
| ⓘ 'Pyrochlore Supergroup' Formula: A2-mD2X6-wZ1-n Habit: octahedric xls Colour: yellow, reddish Description: xls size > 1 mm. Type V-1 veins. Orlandi & Dini (2004) describe this as a stibiobetafite without any analysis. |
| ⓘ 'Pyrochlore Supergroup var. Stibiobetafite (of Černý et al.)' ? Formula: A2-mD2X6-wZ1-n Habit: octahedric xls Colour: yellow, reddish Description: xls size > 1 mm.
Type V-1 veins. |
| ⓘ Quartz Formula: SiO2 Habit: prismatic xls Colour: colorless Description: Type V-2 and V-3 veins. |
| ✪ Robinsonite Formula: Pb4Sb6S13 Habit: acicular with mirror-like non striated faces Colour: black Description: xls up to 1 cm. |
| ⓘ Rouxelite (TL) Formula: Cu2HgPb23Sb27S65.5 Type Locality: Habit: thin acicular xls Colour: pitch black Description: xls are more than 1 cm in lenght but only few micron in thickness.
IMA 2002-062. References: Orlandi, P., Meerschaut, A., Moelo, Y., Palvadeau, P., Leone, P. (2005) Lead–antimony sulfosalts from Tuscany (Italy) VIII. Rouxelite, Cu2HgPb22Sb28S64(O,S)2, a new sulfosalt from Buca della Vena mine, Apuan Alps: definition and crystal structure. The Canadian Mineralogist, 43 (3) 919-933 doi:10.2113/gscanmin.43.3.919 |
| ⓘ Rutile Formula: TiO2 Habit: acicular, prismatic Colour: yellow, red, black Description: Type V-1 and V-3 veins. |
| ✪ Scainiite (TL) Formula: Pb14Sb30S54O5 Type Locality: Habit: acicular, sometimes flattened xls Colour: black, with frequent bluish hues |
| ⓘ Schafarzikite Formula: Fe2+Sb3+2O4 Habit: prismatic Colour: dark brown Description: It is known only in few specimens. |
| ⓘ Seligmannite ? Formula: PbCuAsS3 Description: Crystals of bournonite-seligmannite series are reported by Orlandi & Checchi (1986) but successively studies seem to show that all the samples are Sb-rich (so they are bournonites). |
| ⓘ Senarmontite Formula: Sb2O3 Habit: octahedric Colour: colorless Description: F-1 fractures |
| ⓘ Siderite Formula: FeCO3 Habit: rhombohedric xls Colour: brown Description: It is associated with hematite and magnetite near the type V-1 veins. |
| ⓘ Smythite Formula: (Fe,Ni)3+xS4 (x=0-0.3) Habit: hexagonal lamellae |
| ⓘ Spessartine Formula: Mn2+3Al2(SiO4)3 Habit: trapezohedral xls Colour: orange-brown Description: In the marble |
| ✪ Sphalerite Formula: ZnS Habit: tetrahedral xls Colour: honey yellow, ruby red, black Description: In type V-1 veins and F-1 fractures. Tiny, ruby red xls have been observed with altered aggregates of apuanite. |
| ⓘ 'Stibiconite' Formula: Sb3+Sb5+2O6(OH) Description: It is an alteration product of stibnite. |
| ✪ Stibivanite (TL) Formula: Sb2VO5 Type Locality: Habit: tabular, prismatic, acicular xls Colour: emerald green, yellow-green Description: xls up to 3-4 mm. Buca della Vena mine is the type locality for the politype stibivanite-2O, found only in one sample and indistinguishable from stibivanite-2M, also present in this locality.
Type V-1 veins. |
| ⓘ Stibnite Formula: Sb2S3 Habit: tabular-prismatic xls Colour: black, with bluish iridescence Description: It is very similar to scainiite. Usually it is associated with Pb-acicular sulfosalts in F-1 fractures. It is also present in V-1 veins; probably, in this occurrence, it is an alteration product of apuanite. |
| ⓘ Stolzite Formula: Pb(WO4) Colour: yellow brown Description: Type V-2 veins. |
| ⓘ Sulphur Formula: S8 |
| ⓘ Tetrahedrite-(Hg) (TL) Formula: Cu6(Cu4Hg2)Sb4S12S Type Locality: |
| ✪ 'Tetrahedrite Subgroup' Formula: Cu6(Cu4C2+2)Sb4S12S Habit: complex xls Colour: black Description: Type V-1 veins References: |
| ⓘ Tiemannite Formula: HgSe |
| ✪ Tintinaite Formula: Pb22Cu4(Sb,Bi)30S69 Habit: prismatic-acicular with non striated faces. It never shows a strongly acicular habit. Colour: gray |
| ⓘ Ullmannite Formula: NiSbS |
| ⓘ Valentinite Formula: Sb2O3 |
| ⓘ Vanadinite Formula: Pb5(VO4)3Cl Habit: prismatic Colour: red |
| ✪ Versiliaite (TL) Formula: Fe2Fe4Sb6O16S Type Locality: Habit: prismatic Colour: black References: |
| ⓘ Vivianite Formula: Fe2+Fe2+2(PO4)2 · 8H2O Colour: green Description: Type V-2 veins |
| ✪ Zinkenite Formula: Pb9Sb22S42 Habit: prismatic, deep striations // to elongation; acicular Colour: steel grey, sometimes with iridescent hues. Never black. |
Gallery:
List of minerals arranged by Strunz 10th Edition classification
| Group 1 - Elements | |||
|---|---|---|---|
| ⓘ | Sulphur | 1.CC.05 | S8 |
| Group 2 - Sulphides and Sulfosalts | |||
| ⓘ | Coloradoite | 2.CB.05a | HgTe |
| ⓘ | Sphalerite | 2.CB.05a | ZnS |
| ⓘ | Tiemannite | 2.CB.05a | HgSe |
| ⓘ | Metacinnabar | 2.CB.05a | HgS |
| ⓘ | Chalcopyrite | 2.CB.10a | CuFeS2 |
| ⓘ | Smythite | 2.CC.10 | (Fe,Ni)3+xS4 (x=0-0.3) |
| ⓘ | Millerite | 2.CC.20 | NiS |
| ⓘ | Galena | 2.CD.10 | PbS |
| ⓘ | Cinnabar | 2.CD.15a | HgS |
| ⓘ | Stibnite | 2.DB.05 | Sb2S3 |
| ⓘ | Pyrite | 2.EB.05a | FeS2 |
| ⓘ | Ullmannite | 2.EB.25 | NiSbS |
| ⓘ | Gersdorffite | 2.EB.25 | NiAsS |
| ⓘ | Seligmannite ? | 2.GA.50 | PbCuAsS3 |
| ⓘ | Bournonite | 2.GA.50 | PbCuSbS3 |
| ⓘ | 'Tetrahedrite Subgroup' | 2.GB.05 | Cu6(Cu4C2+2)Sb4S12S |
| ⓘ | Tetrahedrite-(Hg) (TL) | 2.GB.05 | Cu6(Cu4Hg2)Sb4S12S |
| ⓘ | Chalcostibite | 2.HA.05 | CuSbS2 |
| ⓘ | Tintinaite | 2.HB.10a | Pb22Cu4(Sb,Bi)30S69 |
| ⓘ | Boulangerite | 2.HC.15 | Pb5Sb4S11 |
| ⓘ | Robinsonite | 2.HC.20 | Pb4Sb6S13 |
| ⓘ | Dadsonite | 2.HC.30 | Pb23Sb25S60Cl |
| ⓘ | Rouxelite (TL) | 2.JB.25j | Cu2HgPb23Sb27S65.5 |
| ⓘ | Zinkenite | 2.JB.35a | Pb9Sb22S42 |
| ⓘ | Scainiite (TL) | 2.JB.35b | Pb14Sb30S54O5 |
| ⓘ | Pillaite (TL) | 2.JB.35c | Pb9Sb10S23ClO0.5 |
| ⓘ | Pellouxite (TL) | 2.JB.35d | (Cu,Ag)Pb10Sb12S27O(Cl,S)0.6 |
| ⓘ | Marrucciite (TL) | 2.JB.60 | Hg3Pb16Sb18S46 |
| Group 3 - Halides | |||
| ⓘ | Fluorite | 3.AB.25 | CaF2 |
| Group 4 - Oxides and Hydroxides | |||
| ⓘ | Mapiquiroite (TL) | 4.00. | (Sr,Pb)(U,Y)Fe2(Ti,Fe3+,Cr3+)18O38 |
| ⓘ | Magnetite | 4.BB.05 | Fe2+Fe3+2O4 |
| ⓘ | Karelianite | 4.CB.05 | V3+2O3 |
| ⓘ | Hematite | 4.CB.05 | Fe2O3 |
| ⓘ | Senarmontite | 4.CB.50 | Sb2O3 |
| ⓘ | Valentinite | 4.CB.55 | Sb2O3 |
| ⓘ | Dessauite-(Y) (TL) | 4.CC.40 | (Sr,Pb)(Y,U)(Ti,Fe3+)20O38 |
| ⓘ | Quartz | 4.DA.05 | SiO2 |
| ⓘ | Rutile | 4.DB.05 | TiO2 |
| ⓘ | Anatase | 4.DD.05 | TiO2 |
| ⓘ | Brannerite ? | 4.DH.05 | UTi2O6 |
| ⓘ | 'Stibiconite' | 4.DH.20 | Sb3+Sb5+2O6(OH) |
| ⓘ | Oxycalcioroméite (TL) | 4.DH.20 | Ca2Sb2O6O |
| ⓘ | Montroseite | 4.FD.10 | (V3+,Fe3+)O(OH) |
| ⓘ | Jamborite ? | 4.FL.05 | Ni2+1-xCo3+x(OH)2-x(SO4)x · nH2O |
| ⓘ | Schafarzikite | 4.JA.20 | Fe2+Sb3+2O4 |
| ⓘ | Apuanite (TL) | 4.JA.25 | Fe2+Fe3+4Sb3+4O12S |
| ⓘ | Versiliaite (TL) | 4.JA.30 | Fe2Fe4Sb6O16S |
| ⓘ | Stibivanite (TL) | 4.JA.55 | Sb2VO5 |
| ⓘ | Derbylite | 4.JB.55 | Fe3+4Ti3Sb3+O13(OH) |
| Group 5 - Nitrates and Carbonates | |||
| ⓘ | Calcite | 5.AB.05 | CaCO3 |
| ⓘ | Siderite | 5.AB.05 | FeCO3 |
| ⓘ | Dolomite | 5.AB.10 | CaMg(CO3)2 |
| ⓘ | Cerussite | 5.AB.15 | PbCO3 |
| ⓘ | Aragonite | 5.AB.15 | CaCO3 |
| ⓘ | Azurite | 5.BA.05 | Cu3(CO3)2(OH)2 |
| ⓘ | Malachite | 5.BA.10 | Cu2(CO3)(OH)2 |
| ⓘ | Aurichalcite | 5.BA.15 | (Zn,Cu)5(CO3)2(OH)6 |
| Group 7 - Sulphates, Chromates, Molybdates and Tungstates | |||
| ⓘ | Baryte | 7.AD.35 | BaSO4 |
| ⓘ | Jarosite | 7.BC.10 | KFe3+3(SO4)2(OH)6 |
| ⓘ | Melanterite | 7.CB.35 | Fe2+(H2O)6SO4 · H2O |
| ⓘ | Gypsum | 7.CD.40 | CaSO4 · 2H2O |
| ⓘ | Copiapite | 7.DB.35 | Fe2+Fe3+4(SO4)6(OH)2 · 20H2O |
| ⓘ | Stolzite | 7.GA.05 | Pb(WO4) |
| Group 8 - Phosphates, Arsenates and Vanadates | |||
| ⓘ | Monazite-(Ce) | 8.AD.50 | Ce(PO4) |
| ⓘ | Fluorapatite | 8.BN.05 | Ca5(PO4)3F |
| ⓘ | Vanadinite | 8.BN.05 | Pb5(VO4)3Cl |
| ⓘ | Vivianite | 8.CE.40 | Fe2+Fe2+2(PO4)2 · 8H2O |
| ⓘ | Destinezite | 8.DB.05 | Fe3+2(PO4)(SO4)(OH) · 6H2O |
| ⓘ | Bohuslavite (TL) | 8.DB.42 | Fe3+4(PO4)3(SO4)(OH) · nH2O |
| Group 9 - Silicates | |||
| ⓘ | Spessartine | 9.AD.25 | Mn2+3Al2(SiO4)3 |
| ⓘ | Allanite-(La) (TL) | 9.BG.05b | (CaLa)(AlAlFe2+)O[Si2O7][SiO4](OH) |
| ⓘ | Allanite-(Ce) | 9.BG.05b | (CaCe)(AlAlFe2+)O[Si2O7][SiO4](OH) |
| ⓘ | Beryl | 9.CJ.05 | Be3Al2(Si6O18) |
| ⓘ | var. Emerald | 9.CJ.05 | Be3Al2(Si6O18) |
| ⓘ | var. Aquamarine | 9.CJ.05 | Be3Al2Si6O18 |
| ⓘ | Dravite | 9.CK.05 | NaMg3Al6(Si6O18)(BO3)3(OH)3(OH) |
| ⓘ | Muscovite ? | 9.EC.15 | KAl2(AlSi3O10)(OH)2 |
| ⓘ | Fluorophlogopite | 9.EC.20 | KMg3(Si3Al)O10F2 |
| ⓘ | Clinochlore | 9.EC.55 | Mg5Al(AlSi3O10)(OH)8 |
| ⓘ | Pecoraite | 9.ED.15 | Ni3(Si2O5)(OH)4 |
| ⓘ | Chapmanite | 9.ED.25 | Fe3+2Sb3+(Si2O5)O3(OH) |
| ⓘ | Albite | 9.FA.35 | Na(AlSi3O8) |
| Unclassified | |||
| ⓘ | 'Pyrochlore Supergroup var. Stibiobetafite (of Černý et al.)' ? | - | A2-mD2X6-wZ1-n |
| ⓘ | 'Andorite' | - | AgPbSb3S6 |
| ⓘ | 'Pyrochlore Supergroup' | - | A2-mD2X6-wZ1-n |
| ⓘ | 'K Feldspar' | - | |
| ⓘ | 'var. Adularia' | - | KAlSi3O8 |
List of minerals for each chemical element
| H | Hydrogen | |
|---|---|---|
| H | ⓘ Allanite-(Ce) | (CaCe)(AlAlFe2+)O[Si2O7][SiO4](OH) |
| H | ⓘ Allanite-(La) | (CaLa)(AlAlFe2+)O[Si2O7][SiO4](OH) |
| H | ⓘ Aurichalcite | (Zn,Cu)5(CO3)2(OH)6 |
| H | ⓘ Azurite | Cu3(CO3)2(OH)2 |
| H | ⓘ Chapmanite | Fe23+Sb3+(Si2O5)O3(OH) |
| H | ⓘ Clinochlore | Mg5Al(AlSi3O10)(OH)8 |
| H | ⓘ Copiapite | Fe2+Fe43+(SO4)6(OH)2 · 20H2O |
| H | ⓘ Derbylite | Fe43+Ti3Sb3+O13(OH) |
| H | ⓘ Dravite | NaMg3Al6(Si6O18)(BO3)3(OH)3(OH) |
| H | ⓘ Gypsum | CaSO4 · 2H2O |
| H | ⓘ Jamborite | Ni2+1-xCox3+(OH)2-x(SO4)x · nH2O |
| H | ⓘ Jarosite | KFe33+(SO4)2(OH)6 |
| H | ⓘ Malachite | Cu2(CO3)(OH)2 |
| H | ⓘ Melanterite | Fe2+(H2O)6SO4 · H2O |
| H | ⓘ Montroseite | (V3+,Fe3+)O(OH) |
| H | ⓘ Muscovite | KAl2(AlSi3O10)(OH)2 |
| H | ⓘ Pecoraite | Ni3(Si2O5)(OH)4 |
| H | ⓘ Stibiconite | Sb3+Sb25+O6(OH) |
| H | ⓘ Vivianite | Fe2+Fe22+(PO4)2 · 8H2O |
| H | ⓘ Destinezite | Fe23+(PO4)(SO4)(OH) · 6H2O |
| H | ⓘ Bohuslavite | Fe43+(PO4)3(SO4)(OH) · nH2O |
| Be | Beryllium | |
| Be | ⓘ Beryl var. Aquamarine | Be3Al2Si6O18 |
| Be | ⓘ Beryl | Be3Al2(Si6O18) |
| Be | ⓘ Beryl var. Emerald | Be3Al2(Si6O18) |
| B | Boron | |
| B | ⓘ Dravite | NaMg3Al6(Si6O18)(BO3)3(OH)3(OH) |
| C | Carbon | |
| C | ⓘ Aragonite | CaCO3 |
| C | ⓘ Aurichalcite | (Zn,Cu)5(CO3)2(OH)6 |
| C | ⓘ Azurite | Cu3(CO3)2(OH)2 |
| C | ⓘ Calcite | CaCO3 |
| C | ⓘ Cerussite | PbCO3 |
| C | ⓘ Dolomite | CaMg(CO3)2 |
| C | ⓘ Malachite | Cu2(CO3)(OH)2 |
| C | ⓘ Siderite | FeCO3 |
| O | Oxygen | |
| O | ⓘ K Feldspar var. Adularia | KAlSi3O8 |
| O | ⓘ Albite | Na(AlSi3O8) |
| O | ⓘ Allanite-(Ce) | (CaCe)(AlAlFe2+)O[Si2O7][SiO4](OH) |
| O | ⓘ Allanite-(La) | (CaLa)(AlAlFe2+)O[Si2O7][SiO4](OH) |
| O | ⓘ Anatase | TiO2 |
| O | ⓘ Apuanite | Fe2+Fe43+Sb43+O12S |
| O | ⓘ Beryl var. Aquamarine | Be3Al2Si6O18 |
| O | ⓘ Aragonite | CaCO3 |
| O | ⓘ Aurichalcite | (Zn,Cu)5(CO3)2(OH)6 |
| O | ⓘ Azurite | Cu3(CO3)2(OH)2 |
| O | ⓘ Baryte | BaSO4 |
| O | ⓘ Brannerite | UTi2O6 |
| O | ⓘ Beryl | Be3Al2(Si6O18) |
| O | ⓘ Calcite | CaCO3 |
| O | ⓘ Cerussite | PbCO3 |
| O | ⓘ Chapmanite | Fe23+Sb3+(Si2O5)O3(OH) |
| O | ⓘ Clinochlore | Mg5Al(AlSi3O10)(OH)8 |
| O | ⓘ Copiapite | Fe2+Fe43+(SO4)6(OH)2 · 20H2O |
| O | ⓘ Derbylite | Fe43+Ti3Sb3+O13(OH) |
| O | ⓘ Dolomite | CaMg(CO3)2 |
| O | ⓘ Dravite | NaMg3Al6(Si6O18)(BO3)3(OH)3(OH) |
| O | ⓘ Beryl var. Emerald | Be3Al2(Si6O18) |
| O | ⓘ Fluorapatite | Ca5(PO4)3F |
| O | ⓘ Gypsum | CaSO4 · 2H2O |
| O | ⓘ Hematite | Fe2O3 |
| O | ⓘ Jamborite | Ni2+1-xCox3+(OH)2-x(SO4)x · nH2O |
| O | ⓘ Jarosite | KFe33+(SO4)2(OH)6 |
| O | ⓘ Karelianite | V23+O3 |
| O | ⓘ Magnetite | Fe2+Fe23+O4 |
| O | ⓘ Malachite | Cu2(CO3)(OH)2 |
| O | ⓘ Melanterite | Fe2+(H2O)6SO4 · H2O |
| O | ⓘ Monazite-(Ce) | Ce(PO4) |
| O | ⓘ Montroseite | (V3+,Fe3+)O(OH) |
| O | ⓘ Muscovite | KAl2(AlSi3O10)(OH)2 |
| O | ⓘ Pecoraite | Ni3(Si2O5)(OH)4 |
| O | ⓘ Quartz | SiO2 |
| O | ⓘ Rutile | TiO2 |
| O | ⓘ Schafarzikite | Fe2+Sb23+O4 |
| O | ⓘ Senarmontite | Sb2O3 |
| O | ⓘ Siderite | FeCO3 |
| O | ⓘ Spessartine | Mn32+Al2(SiO4)3 |
| O | ⓘ Stibiconite | Sb3+Sb25+O6(OH) |
| O | ⓘ Stibivanite | Sb2VO5 |
| O | ⓘ Stolzite | Pb(WO4) |
| O | ⓘ Valentinite | Sb2O3 |
| O | ⓘ Vanadinite | Pb5(VO4)3Cl |
| O | ⓘ Versiliaite | Fe2Fe4Sb6O16S |
| O | ⓘ Vivianite | Fe2+Fe22+(PO4)2 · 8H2O |
| O | ⓘ Destinezite | Fe23+(PO4)(SO4)(OH) · 6H2O |
| O | ⓘ Dessauite-(Y) | (Sr,Pb)(Y,U)(Ti,Fe3+)20O38 |
| O | ⓘ Scainiite | Pb14Sb30S54O5 |
| O | ⓘ Pillaite | Pb9Sb10S23ClO0.5 |
| O | ⓘ Pellouxite | (Cu,Ag)Pb10Sb12S27O(Cl,S)0.6 |
| O | ⓘ Fluorophlogopite | KMg3(Si3Al)O10F2 |
| O | ⓘ Oxycalcioroméite | Ca2Sb2O6O |
| O | ⓘ Mapiquiroite | (Sr,Pb)(U,Y)Fe2(Ti,Fe3+,Cr3+)18O38 |
| O | ⓘ Bohuslavite | Fe43+(PO4)3(SO4)(OH) · nH2O |
| F | Fluorine | |
| F | ⓘ Fluorapatite | Ca5(PO4)3F |
| F | ⓘ Fluorite | CaF2 |
| F | ⓘ Fluorophlogopite | KMg3(Si3Al)O10F2 |
| Na | Sodium | |
| Na | ⓘ Albite | Na(AlSi3O8) |
| Na | ⓘ Dravite | NaMg3Al6(Si6O18)(BO3)3(OH)3(OH) |
| Mg | Magnesium | |
| Mg | ⓘ Clinochlore | Mg5Al(AlSi3O10)(OH)8 |
| Mg | ⓘ Dolomite | CaMg(CO3)2 |
| Mg | ⓘ Dravite | NaMg3Al6(Si6O18)(BO3)3(OH)3(OH) |
| Mg | ⓘ Fluorophlogopite | KMg3(Si3Al)O10F2 |
| Al | Aluminium | |
| Al | ⓘ K Feldspar var. Adularia | KAlSi3O8 |
| Al | ⓘ Albite | Na(AlSi3O8) |
| Al | ⓘ Allanite-(Ce) | (CaCe)(AlAlFe2+)O[Si2O7][SiO4](OH) |
| Al | ⓘ Allanite-(La) | (CaLa)(AlAlFe2+)O[Si2O7][SiO4](OH) |
| Al | ⓘ Beryl var. Aquamarine | Be3Al2Si6O18 |
| Al | ⓘ Beryl | Be3Al2(Si6O18) |
| Al | ⓘ Clinochlore | Mg5Al(AlSi3O10)(OH)8 |
| Al | ⓘ Dravite | NaMg3Al6(Si6O18)(BO3)3(OH)3(OH) |
| Al | ⓘ Beryl var. Emerald | Be3Al2(Si6O18) |
| Al | ⓘ Muscovite | KAl2(AlSi3O10)(OH)2 |
| Al | ⓘ Spessartine | Mn32+Al2(SiO4)3 |
| Al | ⓘ Fluorophlogopite | KMg3(Si3Al)O10F2 |
| Si | Silicon | |
| Si | ⓘ K Feldspar var. Adularia | KAlSi3O8 |
| Si | ⓘ Albite | Na(AlSi3O8) |
| Si | ⓘ Allanite-(Ce) | (CaCe)(AlAlFe2+)O[Si2O7][SiO4](OH) |
| Si | ⓘ Allanite-(La) | (CaLa)(AlAlFe2+)O[Si2O7][SiO4](OH) |
| Si | ⓘ Beryl var. Aquamarine | Be3Al2Si6O18 |
| Si | ⓘ Beryl | Be3Al2(Si6O18) |
| Si | ⓘ Chapmanite | Fe23+Sb3+(Si2O5)O3(OH) |
| Si | ⓘ Clinochlore | Mg5Al(AlSi3O10)(OH)8 |
| Si | ⓘ Dravite | NaMg3Al6(Si6O18)(BO3)3(OH)3(OH) |
| Si | ⓘ Beryl var. Emerald | Be3Al2(Si6O18) |
| Si | ⓘ Muscovite | KAl2(AlSi3O10)(OH)2 |
| Si | ⓘ Pecoraite | Ni3(Si2O5)(OH)4 |
| Si | ⓘ Quartz | SiO2 |
| Si | ⓘ Spessartine | Mn32+Al2(SiO4)3 |
| Si | ⓘ Fluorophlogopite | KMg3(Si3Al)O10F2 |
| P | Phosphorus | |
| P | ⓘ Fluorapatite | Ca5(PO4)3F |
| P | ⓘ Monazite-(Ce) | Ce(PO4) |
| P | ⓘ Vivianite | Fe2+Fe22+(PO4)2 · 8H2O |
| P | ⓘ Destinezite | Fe23+(PO4)(SO4)(OH) · 6H2O |
| P | ⓘ Bohuslavite | Fe43+(PO4)3(SO4)(OH) · nH2O |
| S | Sulfur | |
| S | ⓘ Andorite | AgPbSb3S6 |
| S | ⓘ Apuanite | Fe2+Fe43+Sb43+O12S |
| S | ⓘ Baryte | BaSO4 |
| S | ⓘ Boulangerite | Pb5Sb4S11 |
| S | ⓘ Bournonite | PbCuSbS3 |
| S | ⓘ Chalcopyrite | CuFeS2 |
| S | ⓘ Chalcostibite | CuSbS2 |
| S | ⓘ Cinnabar | HgS |
| S | ⓘ Copiapite | Fe2+Fe43+(SO4)6(OH)2 · 20H2O |
| S | ⓘ Dadsonite | Pb23Sb25S60Cl |
| S | ⓘ Galena | PbS |
| S | ⓘ Gersdorffite | NiAsS |
| S | ⓘ Gypsum | CaSO4 · 2H2O |
| S | ⓘ Jamborite | Ni2+1-xCox3+(OH)2-x(SO4)x · nH2O |
| S | ⓘ Jarosite | KFe33+(SO4)2(OH)6 |
| S | ⓘ Melanterite | Fe2+(H2O)6SO4 · H2O |
| S | ⓘ Metacinnabar | HgS |
| S | ⓘ Millerite | NiS |
| S | ⓘ Pyrite | FeS2 |
| S | ⓘ Robinsonite | Pb4Sb6S13 |
| S | ⓘ Seligmannite | PbCuAsS3 |
| S | ⓘ Smythite | (Fe,Ni)3+xS4 (x=0-0.3) |
| S | ⓘ Sphalerite | ZnS |
| S | ⓘ Stibnite | Sb2S3 |
| S | ⓘ Sulphur | S8 |
| S | ⓘ Tetrahedrite Subgroup | Cu6(Cu4C22+)Sb4S12S |
| S | ⓘ Tintinaite | Pb22Cu4(Sb,Bi)30S69 |
| S | ⓘ Ullmannite | NiSbS |
| S | ⓘ Versiliaite | Fe2Fe4Sb6O16S |
| S | ⓘ Zinkenite | Pb9Sb22S42 |
| S | ⓘ Destinezite | Fe23+(PO4)(SO4)(OH) · 6H2O |
| S | ⓘ Scainiite | Pb14Sb30S54O5 |
| S | ⓘ Pillaite | Pb9Sb10S23ClO0.5 |
| S | ⓘ Pellouxite | (Cu,Ag)Pb10Sb12S27O(Cl,S)0.6 |
| S | ⓘ Rouxelite | Cu2HgPb23Sb27S65.5 |
| S | ⓘ Marrucciite | Hg3Pb16Sb18S46 |
| S | ⓘ Bohuslavite | Fe43+(PO4)3(SO4)(OH) · nH2O |
| S | ⓘ Tetrahedrite-(Hg) | Cu6(Cu4Hg2)Sb4S12S |
| Cl | Chlorine | |
| Cl | ⓘ Dadsonite | Pb23Sb25S60Cl |
| Cl | ⓘ Vanadinite | Pb5(VO4)3Cl |
| Cl | ⓘ Pillaite | Pb9Sb10S23ClO0.5 |
| Cl | ⓘ Pellouxite | (Cu,Ag)Pb10Sb12S27O(Cl,S)0.6 |
| K | Potassium | |
| K | ⓘ K Feldspar var. Adularia | KAlSi3O8 |
| K | ⓘ Jarosite | KFe33+(SO4)2(OH)6 |
| K | ⓘ Muscovite | KAl2(AlSi3O10)(OH)2 |
| K | ⓘ Fluorophlogopite | KMg3(Si3Al)O10F2 |
| Ca | Calcium | |
| Ca | ⓘ Allanite-(Ce) | (CaCe)(AlAlFe2+)O[Si2O7][SiO4](OH) |
| Ca | ⓘ Allanite-(La) | (CaLa)(AlAlFe2+)O[Si2O7][SiO4](OH) |
| Ca | ⓘ Aragonite | CaCO3 |
| Ca | ⓘ Calcite | CaCO3 |
| Ca | ⓘ Dolomite | CaMg(CO3)2 |
| Ca | ⓘ Fluorapatite | Ca5(PO4)3F |
| Ca | ⓘ Fluorite | CaF2 |
| Ca | ⓘ Gypsum | CaSO4 · 2H2O |
| Ca | ⓘ Oxycalcioroméite | Ca2Sb2O6O |
| Ti | Titanium | |
| Ti | ⓘ Anatase | TiO2 |
| Ti | ⓘ Brannerite | UTi2O6 |
| Ti | ⓘ Derbylite | Fe43+Ti3Sb3+O13(OH) |
| Ti | ⓘ Rutile | TiO2 |
| Ti | ⓘ Dessauite-(Y) | (Sr,Pb)(Y,U)(Ti,Fe3+)20O38 |
| Ti | ⓘ Mapiquiroite | (Sr,Pb)(U,Y)Fe2(Ti,Fe3+,Cr3+)18O38 |
| V | Vanadium | |
| V | ⓘ Karelianite | V23+O3 |
| V | ⓘ Montroseite | (V3+,Fe3+)O(OH) |
| V | ⓘ Stibivanite | Sb2VO5 |
| V | ⓘ Vanadinite | Pb5(VO4)3Cl |
| Cr | Chromium | |
| Cr | ⓘ Mapiquiroite | (Sr,Pb)(U,Y)Fe2(Ti,Fe3+,Cr3+)18O38 |
| Mn | Manganese | |
| Mn | ⓘ Spessartine | Mn32+Al2(SiO4)3 |
| Fe | Iron | |
| Fe | ⓘ Allanite-(Ce) | (CaCe)(AlAlFe2+)O[Si2O7][SiO4](OH) |
| Fe | ⓘ Allanite-(La) | (CaLa)(AlAlFe2+)O[Si2O7][SiO4](OH) |
| Fe | ⓘ Apuanite | Fe2+Fe43+Sb43+O12S |
| Fe | ⓘ Chalcopyrite | CuFeS2 |
| Fe | ⓘ Chapmanite | Fe23+Sb3+(Si2O5)O3(OH) |
| Fe | ⓘ Copiapite | Fe2+Fe43+(SO4)6(OH)2 · 20H2O |
| Fe | ⓘ Derbylite | Fe43+Ti3Sb3+O13(OH) |
| Fe | ⓘ Hematite | Fe2O3 |
| Fe | ⓘ Jarosite | KFe33+(SO4)2(OH)6 |
| Fe | ⓘ Magnetite | Fe2+Fe23+O4 |
| Fe | ⓘ Melanterite | Fe2+(H2O)6SO4 · H2O |
| Fe | ⓘ Montroseite | (V3+,Fe3+)O(OH) |
| Fe | ⓘ Pyrite | FeS2 |
| Fe | ⓘ Schafarzikite | Fe2+Sb23+O4 |
| Fe | ⓘ Siderite | FeCO3 |
| Fe | ⓘ Smythite | (Fe,Ni)3+xS4 (x=0-0.3) |
| Fe | ⓘ Versiliaite | Fe2Fe4Sb6O16S |
| Fe | ⓘ Vivianite | Fe2+Fe22+(PO4)2 · 8H2O |
| Fe | ⓘ Destinezite | Fe23+(PO4)(SO4)(OH) · 6H2O |
| Fe | ⓘ Dessauite-(Y) | (Sr,Pb)(Y,U)(Ti,Fe3+)20O38 |
| Fe | ⓘ Mapiquiroite | (Sr,Pb)(U,Y)Fe2(Ti,Fe3+,Cr3+)18O38 |
| Fe | ⓘ Bohuslavite | Fe43+(PO4)3(SO4)(OH) · nH2O |
| Co | Cobalt | |
| Co | ⓘ Jamborite | Ni2+1-xCox3+(OH)2-x(SO4)x · nH2O |
| Ni | Nickel | |
| Ni | ⓘ Gersdorffite | NiAsS |
| Ni | ⓘ Jamborite | Ni2+1-xCox3+(OH)2-x(SO4)x · nH2O |
| Ni | ⓘ Millerite | NiS |
| Ni | ⓘ Pecoraite | Ni3(Si2O5)(OH)4 |
| Ni | ⓘ Smythite | (Fe,Ni)3+xS4 (x=0-0.3) |
| Ni | ⓘ Ullmannite | NiSbS |
| Cu | Copper | |
| Cu | ⓘ Aurichalcite | (Zn,Cu)5(CO3)2(OH)6 |
| Cu | ⓘ Azurite | Cu3(CO3)2(OH)2 |
| Cu | ⓘ Bournonite | PbCuSbS3 |
| Cu | ⓘ Chalcopyrite | CuFeS2 |
| Cu | ⓘ Chalcostibite | CuSbS2 |
| Cu | ⓘ Malachite | Cu2(CO3)(OH)2 |
| Cu | ⓘ Seligmannite | PbCuAsS3 |
| Cu | ⓘ Tetrahedrite Subgroup | Cu6(Cu4C22+)Sb4S12S |
| Cu | ⓘ Tintinaite | Pb22Cu4(Sb,Bi)30S69 |
| Cu | ⓘ Pellouxite | (Cu,Ag)Pb10Sb12S27O(Cl,S)0.6 |
| Cu | ⓘ Rouxelite | Cu2HgPb23Sb27S65.5 |
| Cu | ⓘ Tetrahedrite-(Hg) | Cu6(Cu4Hg2)Sb4S12S |
| Zn | Zinc | |
| Zn | ⓘ Aurichalcite | (Zn,Cu)5(CO3)2(OH)6 |
| Zn | ⓘ Sphalerite | ZnS |
| As | Arsenic | |
| As | ⓘ Gersdorffite | NiAsS |
| As | ⓘ Seligmannite | PbCuAsS3 |
| Se | Selenium | |
| Se | ⓘ Tiemannite | HgSe |
| Sr | Strontium | |
| Sr | ⓘ Dessauite-(Y) | (Sr,Pb)(Y,U)(Ti,Fe3+)20O38 |
| Sr | ⓘ Mapiquiroite | (Sr,Pb)(U,Y)Fe2(Ti,Fe3+,Cr3+)18O38 |
| Y | Yttrium | |
| Y | ⓘ Dessauite-(Y) | (Sr,Pb)(Y,U)(Ti,Fe3+)20O38 |
| Y | ⓘ Mapiquiroite | (Sr,Pb)(U,Y)Fe2(Ti,Fe3+,Cr3+)18O38 |
| Ag | Silver | |
| Ag | ⓘ Andorite | AgPbSb3S6 |
| Ag | ⓘ Pellouxite | (Cu,Ag)Pb10Sb12S27O(Cl,S)0.6 |
| Sb | Antimony | |
| Sb | ⓘ Andorite | AgPbSb3S6 |
| Sb | ⓘ Apuanite | Fe2+Fe43+Sb43+O12S |
| Sb | ⓘ Boulangerite | Pb5Sb4S11 |
| Sb | ⓘ Bournonite | PbCuSbS3 |
| Sb | ⓘ Chapmanite | Fe23+Sb3+(Si2O5)O3(OH) |
| Sb | ⓘ Chalcostibite | CuSbS2 |
| Sb | ⓘ Dadsonite | Pb23Sb25S60Cl |
| Sb | ⓘ Derbylite | Fe43+Ti3Sb3+O13(OH) |
| Sb | ⓘ Robinsonite | Pb4Sb6S13 |
| Sb | ⓘ Schafarzikite | Fe2+Sb23+O4 |
| Sb | ⓘ Senarmontite | Sb2O3 |
| Sb | ⓘ Stibiconite | Sb3+Sb25+O6(OH) |
| Sb | ⓘ Stibivanite | Sb2VO5 |
| Sb | ⓘ Stibnite | Sb2S3 |
| Sb | ⓘ Tetrahedrite Subgroup | Cu6(Cu4C22+)Sb4S12S |
| Sb | ⓘ Tintinaite | Pb22Cu4(Sb,Bi)30S69 |
| Sb | ⓘ Ullmannite | NiSbS |
| Sb | ⓘ Valentinite | Sb2O3 |
| Sb | ⓘ Versiliaite | Fe2Fe4Sb6O16S |
| Sb | ⓘ Zinkenite | Pb9Sb22S42 |
| Sb | ⓘ Scainiite | Pb14Sb30S54O5 |
| Sb | ⓘ Pillaite | Pb9Sb10S23ClO0.5 |
| Sb | ⓘ Pellouxite | (Cu,Ag)Pb10Sb12S27O(Cl,S)0.6 |
| Sb | ⓘ Rouxelite | Cu2HgPb23Sb27S65.5 |
| Sb | ⓘ Marrucciite | Hg3Pb16Sb18S46 |
| Sb | ⓘ Oxycalcioroméite | Ca2Sb2O6O |
| Sb | ⓘ Tetrahedrite-(Hg) | Cu6(Cu4Hg2)Sb4S12S |
| Te | Tellurium | |
| Te | ⓘ Coloradoite | HgTe |
| Ba | Barium | |
| Ba | ⓘ Baryte | BaSO4 |
| La | Lanthanum | |
| La | ⓘ Allanite-(La) | (CaLa)(AlAlFe2+)O[Si2O7][SiO4](OH) |
| Ce | Cerium | |
| Ce | ⓘ Allanite-(Ce) | (CaCe)(AlAlFe2+)O[Si2O7][SiO4](OH) |
| Ce | ⓘ Monazite-(Ce) | Ce(PO4) |
| W | Tungsten | |
| W | ⓘ Stolzite | Pb(WO4) |
| Hg | Mercury | |
| Hg | ⓘ Cinnabar | HgS |
| Hg | ⓘ Coloradoite | HgTe |
| Hg | ⓘ Metacinnabar | HgS |
| Hg | ⓘ Tiemannite | HgSe |
| Hg | ⓘ Rouxelite | Cu2HgPb23Sb27S65.5 |
| Hg | ⓘ Marrucciite | Hg3Pb16Sb18S46 |
| Hg | ⓘ Tetrahedrite-(Hg) | Cu6(Cu4Hg2)Sb4S12S |
| Pb | Lead | |
| Pb | ⓘ Andorite | AgPbSb3S6 |
| Pb | ⓘ Boulangerite | Pb5Sb4S11 |
| Pb | ⓘ Bournonite | PbCuSbS3 |
| Pb | ⓘ Cerussite | PbCO3 |
| Pb | ⓘ Dadsonite | Pb23Sb25S60Cl |
| Pb | ⓘ Galena | PbS |
| Pb | ⓘ Robinsonite | Pb4Sb6S13 |
| Pb | ⓘ Seligmannite | PbCuAsS3 |
| Pb | ⓘ Stolzite | Pb(WO4) |
| Pb | ⓘ Tintinaite | Pb22Cu4(Sb,Bi)30S69 |
| Pb | ⓘ Vanadinite | Pb5(VO4)3Cl |
| Pb | ⓘ Zinkenite | Pb9Sb22S42 |
| Pb | ⓘ Dessauite-(Y) | (Sr,Pb)(Y,U)(Ti,Fe3+)20O38 |
| Pb | ⓘ Scainiite | Pb14Sb30S54O5 |
| Pb | ⓘ Pillaite | Pb9Sb10S23ClO0.5 |
| Pb | ⓘ Pellouxite | (Cu,Ag)Pb10Sb12S27O(Cl,S)0.6 |
| Pb | ⓘ Rouxelite | Cu2HgPb23Sb27S65.5 |
| Pb | ⓘ Marrucciite | Hg3Pb16Sb18S46 |
| Pb | ⓘ Mapiquiroite | (Sr,Pb)(U,Y)Fe2(Ti,Fe3+,Cr3+)18O38 |
| Bi | Bismuth | |
| Bi | ⓘ Tintinaite | Pb22Cu4(Sb,Bi)30S69 |
| U | Uranium | |
| U | ⓘ Brannerite | UTi2O6 |
| U | ⓘ Dessauite-(Y) | (Sr,Pb)(Y,U)(Ti,Fe3+)20O38 |
| U | ⓘ Mapiquiroite | (Sr,Pb)(U,Y)Fe2(Ti,Fe3+,Cr3+)18O38 |
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for access and that you are aware of all safety precautions necessary.
References
Mellini, Marcello, Merlino, Stefano, Orlandi, Paolo (1979) Versiliaite and apuanite, two new minerals from the Apuan Alps, Italy. American Mineralogist, 64 (11-12) 1230-1234
Merlino, S., Orlandi, P. (1983) A second occurrence of stibivanite: Buca della Vena mine (Apuan Alps), Italy. The Canadian Mineralogist, 21 (1) 159-160
Mellini,, M., Orlandi, P., Perchiazzi, N. (1983) Derbylite from Buca della Vena mine, Apuane Alps, Italy. The Canadian Mineralogist, 21 (3) 513-516
Mellini, M., Orlandi, P., Vezzalini, G. (1986) V-bearing derbylite from the Buca della Vena mine, Apuan Alps, Italy. Mineralogical Magazine, 50 (356) 328-331 doi:10.1180/minmag.1986.050.356.22
Orlandi, Paolo, Pasero, Marco, Duchi, Giuseppe, Olmi, Filippo (1997) Dessauite, (Sr,Pb) (Y,U) (Ti,Fe3+)20O38, a new mineral of the crichtonite group from Buca della Vena Mine, Tuscany, Italy. American Mineralogist, 82 (7) 807-811 doi:10.2138/am-1997-7-819
Orlandi, Paolo, Moëlo, Yves, Meerschaut, Alain, Palvadeau, Pierre (1999) Lead-antimony sulfosalts from Tuscany (Italy) I. Scainiite, Pb14Sb30S54O5, the first Pb-Sb oxy-sulfosalt, from Buca della Vena mine. European Journal of Mineralogy, 11 (6) 949-954 doi:10.1127/ejm/11/6/0949
Orlandi, Paolo, Moëlo, Yves, Meerschaut, Alain, Palvadeau, Pierre, Leone, Philippe (2004) Lead-antimony sulfosalts from Tuscany (Italy) VI. Pellouxite, ~ (Cu,Ag)2Pb21Sb23S55ClO, a new oxy-chloro-sulfosalt from Buca della Vena mine, Apuan Alps. European Journal of Mineralogy, 16 (5) 839-844 doi:10.1127/0935-1221/2004/0016-0839
Orlandi, P., Meerschaut, A., Moelo, Y., Palvadeau, P., Leone, P. (2005) Lead–antimony sulfosalts from Tuscany (Italy) VIII. Rouxelite, Cu2HgPb22Sb28S64(O,S)2, a new sulfosalt from Buca della Vena mine, Apuan Alps: definition and crystal structure. The Canadian Mineralogist, 43 (3) 919-933 doi:10.2113/gscanmin.43.3.919
Orlandi, P., Pasero, M. (2006) Allanite-(La) from Buca Della Vena Mine, Apuan Alps, Italy, an epidote-group mineral. The Canadian Mineralogist, 44 (1) 63-68 doi:10.2113/gscanmin.44.1.63
Orlandi, Paolo, Moëlo, Yves, Campostrini, Italo, Meerschaut, Alain (2007) Lead-antimony sulfosalts from Tuscany (Italy) IX. Marrucciite, Hg3Pb16Sb18S46, a new sulfosalt from Buca della Vena mine, Apuan Alps: Definition and crystal structure. European Journal of Mineralogy, 19 (2) 267-279 doi:10.1127/0935-1221/2007/0019-1718
Biagioni, Cristian, Orlandi, Paolo, Pasero, Marco, Nestola, Fabrizio, Bindi, Luca (2014) Mapiquiroite, (Sr,Pb)(U,Y)Fe2(Ti,Fe3+)18O38, a new member of the crichtonite group from the Apuan Alps, Tuscany, Italy. European Journal of Mineralogy, 26 (3) 427-437 doi:10.1127/0935-1221/2014/0026-2382
www.mineralienatlas.de (n.d.) https://www.mineralienatlas.de/lexikon/index.php/Italien/Toskana%20%28Toscana%29/Massa-Carrara%2C%20Provinz/Stazzema/Buca%20della%20Vena
Mauro, D. (2020) Crystal-chemistry of secondary minerals of thallium-rich pyrite from the Apuan Alps (Tuscany, Italy) Plinius, 46. 64-68
Lacalamita, Maria, Schingaro, Emanuela, Mesto, Ernesto, Zaccarini, Federica, Biagioni, Cristian (2020) Crystal-chemistry of micas belonging to the yangzhumingite-fluorophlogopite and phlogopite-fluorophlogopite series from the Apuan Alps (northern Tuscany, Italy) Physics and Chemistry of Minerals, 47 (12) doi:10.1007/s00269-020-01118-2
Buca della Vena Mine, Pontestazzemese, Stazzema, Lucca Province, Tuscany, Italy