Predictive Mineralogy
Possible unrecorded species at Pucher Shaft, Wolfgangma脽en mines (Wolfgangmaa脽en mines), Wolfgangma脽en, Neust盲dtel, Schneeberg, Erzgebirgskreis, Saxony, Germany
This table is based on statistical analysis of other localities containing similar species to the ones found at this locality.
Possible missing species | Formula | Match % | Due to recorded presence of |
---|---|---|---|
Chalcopyrite | CuFeS2 | 99.99% | Arseniosiderite (61.95 %), Asbolane (52.38 %), Atelestite (53.57 %), Bariopharmacosiderite (67.20 %), Beudantite (61.52 %), Beyerite (50.44 %), Bismite (55.00 %), Bismuth (65.27 %), Bismutoferrite (59.65 %), Chalcocite (74.77 %), Conichalcite (53.65 %), Cuprite (67.05 %), Eulytine (55.95 %), Ferrilotharmeyerite (57.14 %), Lukrahnite (83.33 %), Mawbyite (66.67 %), Metazeunerite (59.72 %), Mottramite (52.65 %), Petitjeanite (62.50 %), Preisingerite (62.30 %), Pseudomalachite (63.85 %), Pyromorphite (54.91 %), Scorodite (53.74 %), Zeunerite (59.07 %) |
Pyrite | FeS2 | 99.99% | Arseniosiderite (57.96 %), Asbolane (54.76 %), Austinite (50.00 %), Bariopharmacosiderite (62.90 %), Beudantite (62.96 %), Beyerite (51.33 %), Bismite (60.83 %), Bismuth (65.41 %), Bismutoferrite (57.89 %), Chalcocite (65.95 %), Conichalcite (51.29 %), Cuprite (58.26 %), Eulytine (50.00 %), Lukrahnite (83.33 %), Mawbyite (75.00 %), Metatorbernite (55.34 %), Metazeunerite (58.33 %), Preisingerite (63.93 %), Pseudomalachite (52.35 %), Pyromorphite (55.98 %), Scorodite (67.22 %), Zeunerite (58.14 %) |
Malachite | Cu2(CO3)(OH)2 | 99.99% | Arseniosiderite (53.98 %), Asbolane (51.19 %), Austinite (58.33 %), Bariopharmacosiderite (65.05 %), Beudantite (59.67 %), Bismutoferrite (50.88 %), Chalcocite (56.20 %), Conichalcite (69.65 %), Cuprite (79.07 %), Lukrahnite (83.33 %), Mawbyite (70.83 %), Metazeunerite (56.48 %), Mottramite (64.38 %), Namibite (59.26 %), Petitjeanite (56.25 %), Preisingerite (50.82 %), Pseudomalachite (76.53 %), Schumacherite (50.00 %), Zeunerite (51.16 %) |
Galena | PbS | 99.99% | Arseniosiderite (52.21 %), Austinite (58.33 %), Bariopharmacosiderite (53.23 %), Beudantite (76.34 %), Bismuth (51.78 %), Ferrilotharmeyerite (57.14 %), Lukrahnite (83.33 %), Mawbyite (83.33 %), Mottramite (65.27 %), Petitjeanite (56.25 %), Pyromorphite (77.81 %), Scorodite (50.30 %), Wulfenite (69.21 %) |
Calcite | CaCO3 | 99.99% | Arseniosiderite (65.04 %), Asbolane (50.00 %), Austinite (66.67 %), Bariopharmacosiderite (52.15 %), Beyerite (52.21 %), Cobaltlotharmeyerite (50.00 %), Conichalcite (61.18 %), Ferrilotharmeyerite (57.14 %), Lukrahnite (83.33 %), Mawbyite (54.17 %), Mottramite (56.86 %), Preisingerite (52.46 %), Wulfenite (52.13 %) |
Cerussite | PbCO3 | 99.91% | Austinite (57.14 %), Beudantite (65.23 %), Lukrahnite (66.67 %), Mawbyite (70.83 %), Mottramite (56.64 %), Pyromorphite (68.61 %), Wulfenite (58.77 %) |
Azurite | Cu3(CO3)2(OH)2 | 99.83% | Austinite (51.19 %), Bariopharmacosiderite (54.30 %), Conichalcite (56.71 %), Cuprite (51.54 %), Lukrahnite (83.33 %), Mawbyite (58.33 %), Pseudomalachite (50.23 %) |
Goethite | 伪-Fe3+O(OH) | 99.78% | Arseniosiderite (52.65 %), Bariopharmacosiderite (52.69 %), Beudantite (54.12 %), Bismutoferrite (50.88 %), Lukrahnite (66.67 %), Mawbyite (75.00 %), Petitjeanite (50.00 %) |
Baryte | BaSO4 | 99.73% | Bariopharmacosiderite (69.89 %), Ferrilotharmeyerite (57.14 %), Lukrahnite (83.33 %), Mawbyite (66.67 %), Petitjeanite (62.50 %) |
Hematite | Fe2O3 | 99.65% | Cobaltlotharmeyerite (50.00 %), Ferrilotharmeyerite (57.14 %), Lukrahnite (83.33 %), Mawbyite (58.33 %), Petitjeanite (50.00 %), Walpurgite (53.49 %) |
Sphalerite | ZnS | 99.61% | Beudantite (60.29 %), Bismuth (53.21 %), Lukrahnite (83.33 %), Mawbyite (70.83 %), Pyromorphite (56.90 %) |
Mimetite | Pb5(AsO4)3Cl | 99.22% | Austinite (69.05 %), Beudantite (54.73 %), Lukrahnite (66.67 %), Mawbyite (83.33 %) |
Arsenopyrite | FeAsS | 99.02% | Lukrahnite (66.67 %), Mawbyite (54.17 %), Preisingerite (50.82 %), Scorodite (74.10 %), Waylandite (50.00 %) |
Chrysocolla | Cu2-xAlx(H2-xSi2O5)(OH)4 路 nH2O, x < 1 | 97.97% | Conichalcite (50.59 %), Mawbyite (54.17 %), Mottramite (51.11 %), Namibite (62.96 %), Pseudomalachite (50.70 %) |
Olivenite | Cu2(AsO4)(OH) | 97.37% | Bariopharmacosiderite (51.08 %), Ferrilotharmeyerite (57.14 %), Lukrahnite (66.67 %), Mawbyite (62.50 %) |
Smithsonite | ZnCO3 | 96.42% | Ferrilotharmeyerite (57.14 %), Lukrahnite (83.33 %), Mawbyite (50.00 %) |
Anglesite | PbSO4 | 93.62% | Beudantite (54.12 %), Lukrahnite (66.67 %), Mawbyite (58.33 %) |
Brochantite | Cu4(SO4)(OH)6 | 93.27% | Bariopharmacosiderite (51.61 %), Lukrahnite (66.67 %), Mawbyite (58.33 %) |
Dolomite | CaMg(CO3)2 | 92.85% | Cobaltlotharmeyerite (50.00 %), Ferrilotharmeyerite (57.14 %), Lukrahnite (66.67 %) |
Bismuthinite | Bi2S3 | 92.85% | Bismite (60.00 %), Bismutoferrite (52.63 %), Preisingerite (62.30 %) |
Uraninite | UO2 | 92.49% | Metazeunerite (53.70 %), Walpurgite (67.44 %), Zeunerite (50.23 %) |
Muscovite | KAl2(AlSi3O10)(OH)2 | 91.95% | Lukrahnite (66.67 %), Pucherite (51.72 %), Waylandite (50.00 %) |
Gypsum | CaSO4 路 2H2O | 91.66% | Lukrahnite (83.33 %), Mawbyite (50.00 %) |
Pharmacosiderite | KFe3+4(AsO4)3(OH)4 路 6-7H2O | 87.50% | Lukrahnite (66.67 %), Mawbyite (62.50 %) |
Covellite | CuS | 86.11% | Lukrahnite (66.67 %), Mawbyite (58.33 %) |
Duftite | PbCu(AsO4)(OH) | 86.11% | Lukrahnite (66.67 %), Mawbyite (58.33 %) |
Sulphur | S8 | 83.33% | Lukrahnite (66.67 %), Mawbyite (50.00 %) |
Aragonite | CaCO3 | 83.33% | Lukrahnite (83.33 %) |
Adamite | Zn2(AsO4)(OH) | 81.44% | Austinite (59.52 %), Mawbyite (54.17 %) |
Mixite | BiCu6(AsO4)3(OH)6 路 3H2O | 78.77% | Atelestite (55.36 %), Preisingerite (52.46 %) |
Segnitite | PbFe3+3AsO4(AsO3OH)(OH)6 | 75.00% | Mawbyite (75.00 %) |
Carminite | PbFe3+2(AsO4)2(OH)2 | 70.83% | Mawbyite (70.83 %) |
Erythrite | Co3(AsO4)2 路 8H2O | 70.00% | Cobaltlotharmeyerite (70.00 %) |
Albite | Na(AlSi3O8) | 66.66% | Lukrahnite (66.67 %) |
Aurichalcite | (Zn,Cu)5(CO3)2(OH)6 | 66.66% | Lukrahnite (66.67 %) |
Clinoclase | Cu3(AsO4)(OH)3 | 66.66% | Lukrahnite (66.67 %) |
Connellite | Cu19(SO4)(OH)32Cl4 路 3H2O | 66.66% | Lukrahnite (66.67 %) |
Fluorapatite | Ca5(PO4)3F | 66.66% | Lukrahnite (66.67 %) |
Fluorite | CaF2 | 66.66% | Lukrahnite (66.67 %) |
Hydrozincite | Zn5(CO3)2(OH)6 | 66.66% | Lukrahnite (66.67 %) |
Marcasite | FeS2 | 66.66% | Lukrahnite (66.67 %) |
Pyrolusite | Mn4+O2 | 66.66% | Lukrahnite (66.67 %) |
Serpierite | Ca(Cu,Zn)4(SO4)2(OH)6 路 3H2O | 66.66% | Lukrahnite (66.67 %) |
Tsumcorite | PbZn2(AsO4)2 路 2H2O | 66.66% | Lukrahnite (66.67 %) |
Linarite | PbCu(SO4)(OH)2 | 62.50% | Mawbyite (62.50 %) |
Cobaltaustinite | CaCo(AsO4)(OH) | 60.00% | Cobaltlotharmeyerite (60.00 %) |
Skutterudite | CoAs3 | 60.00% | Cobaltlotharmeyerite (60.00 %) |
Bayldonite | PbCu3(AsO4)2(OH)2 | 58.33% | Mawbyite (58.33 %) |
Gartrellite | PbCuFe3+(AsO4)2(OH) 路 H2O | 54.16% | Mawbyite (54.17 %) |
Torbernite | Cu(UO2)2(PO4)2 路 12H2O | 53.16% | Metatorbernite (53.16 %) |
Cornwallite | Cu5(AsO4)2(OH)4 | 50.00% | Mawbyite (50.00 %) |
Jarosite | KFe3+3(SO4)2(OH)6 | 50.00% | Mawbyite (50.00 %) |
Kaolinite | Al2(Si2O5)(OH)4 | 50.00% | Mawbyite (50.00 %) |
Plumbogummite | PbAl3(PO4)(PO3OH)(OH)6 | 50.00% | Mawbyite (50.00 %) |
Roselite | Ca2Co(AsO4)2 路 2H2O | 50.00% | Cobaltlotharmeyerite (50.00 %) |
Talmessite | Ca2Mg(AsO4)2 路 2H2O | 50.00% | Cobaltlotharmeyerite (50.00 %) |
Key: Mineral matches key element mineralogy of deposit Key element(s) in mineral not listed for deposit (-20% score)
Predicting paragenetic modes of deposit
Green indicates almost certain match based on minerals unique to a certain deposit type. Yellow indicates a possibly poor match, but should not be entirely discounted. Scores > 100 indicate strong confidence.