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Predictive Mineralogy

Possible unrecorded species at Heřmanice dump, Heřmanice, Ostrava, Ostrava-City District, Moravian-Silesian Region, Czech Republic

This table is based on statistical analysis of other localities containing similar species to the ones found at this locality.

Possible missing speciesFormulaMatch %Due to recorded presence of
GypsumCaSO4 · 2H2O100.00%Alunogen (58.52 %), Anhydrite (61.07 %), Bassanite (70.75 %), Boussingaultite (62.86 %), Clairite (75.00 %), Cryptohalite (58.82 %), Efremovite (60.00 %), Godovikovite (57.14 %), Hexahydrite (69.53 %), Khademite (73.68 %), Koktaite (91.67 %), Letovicite (71.43 %), Mascagnite (64.29 %), Mikasaite (80.00 %), Millosevichite (68.18 %), Pyracmonite (100.00 %), Sabieite (72.73 %), Salammoniac (51.22 %), Steklite (57.14 %), Sulphur (50.28 %), Tschermigite (62.92 %), Yavapaiite (75.00 %)
QuartzSiO299.99%Albite (78.81 %), Alunogen (51.77 %), Anhydrite (50.95 %), Baryte (60.21 %), Bassanite (54.72 %), Bismoclite (81.40 %), Bismuth (78.36 %), Bismuthinite (81.44 %), Cassiterite (58.88 %), Clairite (50.00 %), Cristobalite (57.14 %), Diopside (51.68 %), Efremovite (53.33 %), Elpasolite (72.22 %), Ferroindialite (71.43 %), Fluorite (66.12 %), Greenockite (63.83 %), Hedenbergite (68.23 %), Hematite (62.61 %), Khademite (63.16 %), Maghemite (64.62 %), Magnetite (50.54 %), Microcline (81.52 %), Millosevichite (63.64 %), Mullite (58.95 %), Pyracmonite (57.14 %), Selenium (54.27 %), Stibnite (74.07 %), Sulphur (53.86 %), Wollastonite (59.81 %), Yavapaiite (50.00 %)
PyriteFeS299.99%Alunogen (56.27 %), Anhydrite (52.95 %), Baryte (50.79 %), Bismoclite (61.63 %), Bismuth (65.41 %), Bismuthinite (76.49 %), Clairite (62.50 %), Ferroindialite (57.14 %), Greenockite (76.91 %), Hedenbergite (52.35 %), Hematite (50.17 %), Hexahydrite (55.91 %), Khademite (68.42 %), Millosevichite (59.09 %), Selenium (67.07 %), Stibnite (62.99 %), Sulphur (55.07 %), Wollastonite (51.22 %), Yavapaiite (75.00 %)
CalciteCaCO399.99%Baryte (51.88 %), Diopside (54.07 %), Elpasolite (50.00 %), Ferroindialite (85.71 %), Greenockite (70.86 %), Hedenbergite (60.34 %), Khademite (57.89 %), Maghemite (51.15 %), Selenium (51.83 %), Wollastonite (65.90 %)
VoltaiteK2Fe2+5Fe3+3Al(SO4)12 · 18H2O99.91%Clairite (75.00 %), Mikasaite (80.00 %), Millosevichite (54.55 %), Pyracmonite (57.14 %), Sabieite (63.64 %), Yavapaiite (75.00 %)
PickeringiteMgAl2(SO4)4 · 22H2O98.50%Clairite (62.50 %), Millosevichite (59.09 %), Pyracmonite (57.14 %), Sabieite (54.55 %), Yavapaiite (50.00 %)
HalotrichiteFeAl2(SO4)4 · 22H2O98.33%Clairite (62.50 %), Millosevichite (54.55 %), Pyracmonite (57.14 %), Sabieite (54.55 %), Yavapaiite (50.00 %)
MetavoltineK2Na6Fe2+Fe3+6O2(SO4)12 · 18H2O96.75%Clairite (75.00 %), Pyracmonite (71.43 %), Sabieite (54.55 %)
MuscoviteKAl2(AlSi3O10)(OH)290.91%Albite (52.80 %), Elpasolite (50.00 %), Microcline (61.50 %)
JarositeKFe3+3(SO4)2(OH)687.50%Clairite (50.00 %), Yavapaiite (75.00 %)
PyrrhotiteFe1-xS85.71%Ferroindialite (71.43 %), Yavapaiite (50.00 %)
EpsomiteMgSO4 · 7H2O80.00%Mikasaite (80.00 %)
SphaleriteZnS79.79%Bismoclite (52.33 %), Bismuth (53.21 %), Bismuthinite (60.27 %), Elpasolite (50.00 %), Greenockite (88.40 %), Yavapaiite (50.00 %)
GalenaPbS79.70%Bismoclite (50.00 %), Bismuth (51.78 %), Bismuthinite (57.89 %), Elpasolite (50.00 %), Greenockite (85.56 %), Yavapaiite (50.00 %)
ChalcopyriteCuFeS279.45%Bismoclite (51.16 %), Bismuth (65.27 %), Bismuthinite (73.84 %), Greenockite (68.77 %), Hedenbergite (51.07 %)
AnorthiteCa(Al2Si2O8)71.42%Ferroindialite (71.43 %)
ZirconZr(SiO4)69.84%Elpasolite (55.56 %), Ferroindialite (71.43 %)
RutileTiO266.66%Elpasolite (55.56 %), Yavapaiite (62.50 %)
Alum-(K)KAl(SO4)2 · 12H2O62.50%Clairite (62.50 %)
CoquimbiteAlFe3(SO4)6(H2O)12 · 6H2O62.50%Yavapaiite (62.50 %)
CryoliteNa2NaAlF661.11%Elpasolite (61.11 %)
Hydrokenoralstonite Na0.5(Al,Mg)2(F,OH)6 · H2O 61.11%Elpasolite (61.11 %)
Kremersite(NH4,K)2[Fe3+Cl5(H2O)]57.14%Pyracmonite (57.14 %)
ClinoferrosiliteFe2+2Si2O657.14%Ferroindialite (57.14 %)
Cordierite(Mg,Fe)2Al3(AlSi5O18)57.14%Ferroindialite (57.14 %)
GehleniteCa2Al[AlSiO7]57.14%Ferroindialite (57.14 %)
HercyniteFe2+Al2O457.14%Ferroindialite (57.14 %)
NephelineNa3K(Al4Si4O16)57.14%Ferroindialite (57.14 %)
SideriteFeCO357.14%Ferroindialite (57.14 %)
SpinelMgAl2O457.14%Ferroindialite (57.14 %)
GearksutiteCa[Al(F,OH)5(H2O)]55.55%Elpasolite (55.56 %)
Ammonioalunite(NH4)Al3(SO4)2(OH)654.54%Sabieite (54.55 %)
Ammoniojarosite(NH4)Fe3+3(SO4)2(OH)650.00%Clairite (50.00 %)
TamarugiteNaAl(SO4)2 · 6H2O50.00%Clairite (50.00 %)
Adranosite-(Fe)(NH4)4NaFe3+2(SO4)4Cl(OH)250.00%Clairite (50.00 %)
PachnoliteNaCa[AlF6] · H2O50.00%Elpasolite (50.00 %)
ProsopiteCaAl2F4[(OH)4-xFx]50.00%Elpasolite (50.00 %)
ThomsenoliteNaCa[AlF6] · H2O50.00%Elpasolite (50.00 %)
CopiapiteFe2+Fe3+4(SO4)6(OH)2 · 20H2O50.00%Yavapaiite (50.00 %)
KrausiteKFe(SO4)2 · H2O50.00%Yavapaiite (50.00 %)
MelanteriteFe2+(H2O)6SO4 · H2O50.00%Yavapaiite (50.00 %)
ThénarditeNa2SO450.00%Yavapaiite (50.00 %)
TenoriteCuO45.71%Steklite (57.14 %)
IlmeniteFe2+TiO340.00%Elpasolite (50.00 %)
ArsenopyriteFeAsS40.00%Yavapaiite (50.00 %)
ChalcanthiteCuSO4 · 5H2O40.00%Yavapaiite (50.00 %)
GoldAu40.00%Yavapaiite (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.

Paragenetic ModeScore
54 : Coal and other mine fire minerals (see also #51 and #56)

Unique: Carlsonite, Ferroindialite, Mikasaite		339
11 : Volcanic fumarole minerals; reduced phases (see also #45)

Unique: Demicheleite-(Br), Demicheleite-(Cl), Demicheleite-(I)		305
47b : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Sulfates and sulfites]

Unique: Sabieite		109
22 : Hydration and low-𝑇 subsurface aqueous alteration (see also #23)

Unique: Elpasolite		100
50 : Coal and/or oil shale minerals32
45a : Oxidized fumarolic minerals (see also [#11]) - [Sulfates, arsenates, selenates, antimonates]23
45b : Oxidized fumarolic minerals (see also [#11]) - [Other oxidized fumarolic minerals]20
34 : Complex granite pegmatites16
26 : Hadean detrital minerals15
55 : Anthropogenic mine minerals5
53 : Other minerals with taphonomic origins5
33 : Minerals deposited by hydrothermal metal-rich fluids (see also [#12])4
14 : Hot springs, geysers, and other subaerial geothermal minerals4
47a : Low-𝑇 subaerial oxidative hydration, weathering (see also #16 and #23) - [Near-surface hydration of prior minerals]4