Predictive Mineralogy
Possible unrecorded species at Breuil-Cervinia, Valtournenche, Aosta Valley, Italy
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 |
---|---|---|---|
Quartz | SiO2 | 99.99% | Axinite-(Fe) (70.51 %), Barroisite (60.34 %), Dravite (76.98 %), Hematite (62.61 %), Leucophoenicite (83.33 %), Piemontite (60.00 %), Richterite (52.16 %), Spessartine (76.38 %) |
Calcite | CaCO3 | 95.16% | Axinite-(Fe) (53.22 %), Leucophoenicite (75.00 %), Richterite (58.62 %) |
Pyrite | FeS2 | 94.23% | Dravite (53.71 %), Hematite (50.17 %), Leucophoenicite (75.00 %) |
Tephroite | Mn2+2SiO4 | 91.66% | Leucophoenicite (91.67 %) |
Muscovite | KAl2(AlSi3O10)(OH)2 | 91.56% | Dravite (55.53 %), Leucophoenicite (58.33 %), Spessartine (54.51 %) |
Magnetite | Fe2+Fe3+2O4 | 85.91% | Leucophoenicite (66.67 %), Richterite (57.76 %) |
Rhodonite | CaMn3Mn[Si5O15] | 83.33% | Leucophoenicite (83.33 %) |
Phlogopite | KMg3(AlSi3O10)(OH)2 | 81.46% | Leucophoenicite (50.00 %), Richterite (62.93 %) |
Albite | Na(AlSi3O8) | 81.32% | Barroisite (55.17 %), Leucophoenicite (58.33 %) |
Diopside | CaMgSi2O6 | 79.31% | Leucophoenicite (50.00 %), Richterite (58.62 %) |
Aragonite | CaCO3 | 75.00% | Leucophoenicite (75.00 %) |
Friedelite | Mn2+8Si6O15(OH,Cl)10 | 75.00% | Leucophoenicite (75.00 %) |
Rhodochrosite | MnCO3 | 75.00% | Leucophoenicite (75.00 %) |
Andradite | Ca3Fe3+2(SiO4)3 | 66.66% | Leucophoenicite (66.67 %) |
Clinochlore | Mg5Al(AlSi3O10)(OH)8 | 66.66% | Leucophoenicite (66.67 %) |
Hausmannite | Mn2+Mn3+2O4 | 66.66% | Leucophoenicite (66.67 %) |
Jacobsite | Mn2+Fe3+2O4 | 66.66% | Leucophoenicite (66.67 %) |
Galena | PbS | 60.00% | Leucophoenicite (75.00 %) |
Sphalerite | ZnS | 60.00% | Leucophoenicite (75.00 %) |
Bementite | Mn7Si6O15(OH)8 | 58.33% | Leucophoenicite (58.33 %) |
Bustamite | CaMn2+(Si2O6) | 58.33% | Leucophoenicite (58.33 %) |
Caryopilite | Mn2+3Si2O5(OH)4 | 58.33% | Leucophoenicite (58.33 %) |
Goethite | Ξ±-Fe3+O(OH) | 58.33% | Leucophoenicite (58.33 %) |
Gypsum | CaSO4 Β· 2H2O | 58.33% | Leucophoenicite (58.33 %) |
Pyrochroite | Mn(OH)2 | 58.33% | Leucophoenicite (58.33 %) |
Vesuvianite | Ca19Fe3+Al4(Al6Mg2)(β»4)β»[Si2O7]4[(SiO4)10]O(OH)9 | 58.33% | Leucophoenicite (58.33 %) |
Xonotlite | Ca6(Si6O17)(OH)2 | 58.33% | Leucophoenicite (58.33 %) |
Baryte | BaSO4 | 53.33% | Leucophoenicite (66.67 %) |
Epidote | (CaCa)(AlAlFe3+)O[Si2O7][SiO4](OH) | 50.84% | Axinite-(Fe) (50.85 %) |
Aegirine | NaFe3+Si2O6 | 50.00% | Leucophoenicite (50.00 %) |
Alleghanyite | Mn2+5(SiO4)2(OH)2 | 50.00% | Leucophoenicite (50.00 %) |
Dolomite | CaMg(CO3)2 | 50.00% | Leucophoenicite (50.00 %) |
Johannsenite | CaMn2+Si2O6 | 50.00% | Leucophoenicite (50.00 %) |
Kutnohorite | CaMn2+(CO3)2 | 50.00% | Leucophoenicite (50.00 %) |
Lizardite | Mg3(Si2O5)(OH)4 | 50.00% | Leucophoenicite (50.00 %) |
Manganite | Mn3+O(OH) | 50.00% | Leucophoenicite (50.00 %) |
Microcline | K(AlSi3O8) | 50.00% | Leucophoenicite (50.00 %) |
Sonolite | Mn2+9(SiO4)4(OH)2 | 50.00% | Leucophoenicite (50.00 %) |
Chalcopyrite | CuFeS2 | 46.66% | Leucophoenicite (58.33 %) |
Copper | Cu | 46.66% | Leucophoenicite (58.33 %) |
Rutile | TiO2 | 42.75% | Barroisite (53.45 %) |
Azurite | Cu3(CO3)2(OH)2 | 40.00% | Leucophoenicite (50.00 %) |
Chalcocite | Cu2S | 40.00% | Leucophoenicite (50.00 %) |
Zircon | Zr(SiO4) | 40.00% | Leucophoenicite (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.