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Trutzhofmühle, Pleystein, Upper Palatinate, Bavaria, Germany

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Key
Lock Map
Location is approximate, estimate based on other nearby localities.
 
Latitude & Longitude (WGS84): 49° North , 12° East (est.)
Margin of Error:~3km
Köppen climate type:Cfb : Temperate oceanic climate
Name(s) in local language(s):Trutzhofmühle, Pleystein, Oberpfalz, Bayern, Deutschland


NW-SE striking aplite near Trutzhofmühle, southeast of Pleystein.
Aplite dikes 5km WSW of Hagendorf.

Select Mineral List Type

Standard Detailed Strunz Dana Chemical Elements

Mineral List


48 valid minerals.

Rock Types Recorded

Note: this is a very new system on mindat.org and 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:

Albite
Formula: Na(AlSi3O8)
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
'Apatite'
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
'Aplite'
Reference: Dill, H.G. (2009) The Hagendorf-Pleystein phosphate pegmatites (NE Bavaria, Germany) - A mineralogical, chronological and sedimentological overview. Estudos Geológicos: 19(2): 117-120.
Autunite
Formula: Ca(UO2)2(PO4)2 · 11H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Baryte
Formula: BaSO4
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Beraunite
Formula: Fe2+Fe3+5(PO4)4(OH)5 · 6H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Cacoxenite
Formula: Fe3+24AlO6(PO4)17(OH)12 · 75H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Chalcopyrite
Formula: CuFeS2
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Cheralite
Formula: CaTh(PO4)2
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Childrenite
Formula: Fe2+Al(PO4)(OH)2 · H2O
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
'Childrenite-Eosphorite Series'
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.
'Chlorite Group'
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Churchite-(Y)
Formula: Y(PO4) · 2H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Columbite-(Fe)
Formula: FeNb2O6
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
'Columbite-(Fe)-Columbite-(Mn) Series'
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Diadochite
Formula: Fe3+2(PO4)(SO4)(OH) · 5H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.
Dravite
Formula: Na(Mg3)Al6(Si6O18)(BO3)3(OH)3(OH)
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Eosphorite
Formula: Mn2+Al(PO4)(OH)2 · H2O
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
'Feldspar Group'
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Ferrihydrite
Formula: Fe3+10O14(OH)2
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Ferrolaueite
Formula: Fe2+Fe3+2(PO4)2(OH)2 · 8H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.
Fluorapatite
Formula: Ca5(PO4)3F
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.
Fluorapatite var: Mn-bearing Fluorapatite
Formula: (Ca,Mn2+)5(PO4)3(F,Cl,OH) or Ca5([P,Mn5+]O4)3(F,Cl,OH)
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.
'Garnet Group'
Formula: X3Z2(SiO4)3
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Goethite
Formula: α-Fe3+O(OH)
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Gordonite
Formula: MgAl2(PO4)2(OH)2 · 8H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Hematite
Formula: Fe2O3
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Ilmenite
Formula: Fe2+TiO3
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Keckite
Formula: CaMn2+(Fe3+Mn2+)Fe3+2(PO4)4(OH)3 · 7H2O
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Kolbeckite
Formula: ScPO4 · 2H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Laueite
Formula: Mn2+Fe3+2(PO4)2(OH)2 · 8H2O
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Lazulite
Formula: (Mg,Fe2+)Al2(PO4)2(OH)2
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Lermontovite ?
Formula: U(PO4)(OH) · H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
'Limonite'
Formula: (Fe,O,OH,H2O)
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.
Mitridatite
Formula: Ca2Fe3+3(PO4)3O2 · 3H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
'Monazite'
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Muscovite
Formula: KAl2(AlSi3O10)(OH)2
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Phosphoferrite
Formula: (Fe2+,Mn2+)3(PO4)2 · 3H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Pyrite
Formula: FeS2
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Pyrope
Formula: Mg3Al2(SiO4)3
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Quartz
Formula: SiO2
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Rockbridgeite
Formula: Fe2+Fe3+4(PO4)3(OH)5
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Rutile
Formula: TiO2
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Schorl
Formula: Na(Fe2+3)Al6(Si6O18)(BO3)3(OH)3(OH)
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Spessartine
Formula: Mn2+3Al2(SiO4)3
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Sphalerite
Formula: ZnS
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Strengite
Formula: FePO4 · 2H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Strunzite
Formula: Mn2+Fe3+2(PO4)2(OH)2 · 6H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Torbernite
Formula: Cu(UO2)2(PO4)2 · 12H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
'Tourmaline'
Formula: A(D3)G6(T6O18)(BO3)3X3Z
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Triplite
Formula: (Mn2+,Fe2+)2(PO4)(F,OH)
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Triploidite
Formula: (Mn2+,Fe2+)2(PO4)(OH)
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
'Unnamed (K-Ba-Sc-Zr Phosphate)'
Formula: (K,Ba)(Sc,Zr)2.5(PO4)3
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.
'Unnamed (Zr-Sc Phosphate-Silicate)'
Formula: Zr, Sc, U, P, Si, O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.
Uraninite
Formula: UO2
Reference: Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Vivianite
Formula: Fe2+3(PO4)2 · 8H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Vochtenite ?
Formula: (Fe2+,Mg)Fe3+(UO2)4(PO4)4(OH) · 12-13H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Vyacheslavite ?
Formula: U(PO4)(OH) · nH2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Wavellite
Formula: Al3(PO4)2(OH,F)3 · 5H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Whitmoreite
Formula: Fe2+Fe3+2(PO4)2(OH)2 · 4H2O
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.
Wolfeite
Formula: (Fe2+,Mn2+)2(PO4)(OH)
Reference: DILL, H.G., MELCHER, F., GERDES, A. and WEBER, B. (2008): The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46, 1131-1157.; Dill, H. G., Melcher, F., Gerdes, A., & Weber, B. (2008). The origin and zoning of hypogene and supergene Fe–Mn–Mg–Sc–U–REE phosphate mineralization from the newly discovered Trutzhofmühle aplite, Hagendorf pegmatite province, Germany. The Canadian Mineralogist, 46(5), 1131-1157.

List of minerals arranged by Strunz 10th Edition classification

Group 2 - Sulphides and Sulfosalts
'Chalcopyrite'2.CB.10aCuFeS2
Pyrite2.EB.05aFeS2
Sphalerite2.CB.05aZnS
Group 4 - Oxides and Hydroxides
'Columbite-(Fe)'4.DB.35FeNb2O6
'Ferrihydrite'4.FE.35Fe3+10O14(OH)2
'Goethite'4.00.α-Fe3+O(OH)
'Hematite'4.CB.05Fe2O3
'Ilmenite'4.CB.05Fe2+TiO3
Quartz4.DA.05SiO2
Rutile4.DB.05TiO2
Uraninite4.DL.05UO2
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
'Baryte'7.AD.35BaSO4
Group 8 - Phosphates, Arsenates and Vanadates
'Autunite'8.EB.05Ca(UO2)2(PO4)2 · 11H2O
'Beraunite'8.DC.27Fe2+Fe3+5(PO4)4(OH)5 · 6H2O
'Cacoxenite'8.DC.40Fe3+24AlO6(PO4)17(OH)12 · 75H2O
'Cheralite'8.AD.50CaTh(PO4)2
'Childrenite'8.DD.20Fe2+Al(PO4)(OH)2 · H2O
'Churchite-(Y)'8.CJ.50Y(PO4) · 2H2O
'Diadochite'8.DB.05Fe3+2(PO4)(SO4)(OH) · 5H2O
'Eosphorite'8.DD.20Mn2+Al(PO4)(OH)2 · H2O
'Ferrolaueite'8.DC.30Fe2+Fe3+2(PO4)2(OH)2 · 8H2O
'Fluorapatite'8.BN.05Ca5(PO4)3F
var: Mn-bearing Fluorapatite8.BN.05(Ca,Mn2+)5(PO4)3(F,Cl,OH) or Ca5([P,Mn5+]O4)3(F,Cl,OH)
'Gordonite'8.DC.30MgAl2(PO4)2(OH)2 · 8H2O
'Keckite'8.DH.15CaMn2+(Fe3+Mn2+)Fe3+2(PO4)4(OH)3 · 7H2O
'Kolbeckite'8.CD.05ScPO4 · 2H2O
'Laueite'8.DC.30Mn2+Fe3+2(PO4)2(OH)2 · 8H2O
'Lazulite'8.BB.40(Mg,Fe2+)Al2(PO4)2(OH)2
'Lermontovite' ?8.DN.15U(PO4)(OH) · H2O
'Mitridatite'8.DH.30Ca2Fe3+3(PO4)3O2 · 3H2O
Phosphoferrite8.CC.05(Fe2+,Mn2+)3(PO4)2 · 3H2O
Rockbridgeite8.BC.10Fe2+Fe3+4(PO4)3(OH)5
Strengite8.CD.10FePO4 · 2H2O
Strunzite8.DC.25Mn2+Fe3+2(PO4)2(OH)2 · 6H2O
Torbernite8.EB.05Cu(UO2)2(PO4)2 · 12H2O
Triplite8.BB.10(Mn2+,Fe2+)2(PO4)(F,OH)
Triploidite8.BB.15(Mn2+,Fe2+)2(PO4)(OH)
Vivianite8.CE.40Fe2+3(PO4)2 · 8H2O
Vochtenite ?8.EB.30(Fe2+,Mg)Fe3+(UO2)4(PO4)4(OH) · 12-13H2O
Vyacheslavite ?8.DN.20U(PO4)(OH) · nH2O
Wavellite8.DC.50Al3(PO4)2(OH,F)3 · 5H2O
Whitmoreite8.DC.15Fe2+Fe3+2(PO4)2(OH)2 · 4H2O
Wolfeite8.BB.15(Fe2+,Mn2+)2(PO4)(OH)
Group 9 - Silicates
'Albite'9.FA.35Na(AlSi3O8)
'Dravite'9.CK.05Na(Mg3)Al6(Si6O18)(BO3)3(OH)3(OH)
Muscovite9.EC.15KAl2(AlSi3O10)(OH)2
Pyrope9.AD.25Mg3Al2(SiO4)3
Schorl9.CK.05Na(Fe2+3)Al6(Si6O18)(BO3)3(OH)3(OH)
Spessartine9.AD.25Mn2+3Al2(SiO4)3
Unclassified Minerals, Rocks, etc.
'Apatite'-
'Aplite'-
'Childrenite-Eosphorite Series'-
'Chlorite Group'-
'Columbite-(Fe)-Columbite-(Mn) Series'-
'Feldspar Group'-
'Garnet Group'-X3Z2(SiO4)3
'Limonite'-(Fe,O,OH,H2O)
Monazite-
Tourmaline-A(D3)G6(T6O18)(BO3)3X3Z
Unnamed (K-Ba-Sc-Zr Phosphate)-(K,Ba)(Sc,Zr)2.5(PO4)3
Unnamed (Zr-Sc Phosphate-Silicate)-Zr, Sc, U, P, Si, O

List of minerals arranged by Dana 8th Edition classification

Group 2 - SULFIDES
AmXp, with m:p = 1:1
Sphalerite2.8.2.1ZnS
AmBnXp, with (m+n):p = 1:1
Chalcopyrite2.9.1.1CuFeS2
AmBnXp, with (m+n):p = 1:2
Pyrite2.12.1.1FeS2
Group 4 - SIMPLE OXIDES
A2X3
Ferrihydrite4.3.2.2Fe3+10O14(OH)2
Hematite4.3.1.2Fe2O3
Ilmenite4.3.5.1Fe2+TiO3
AX2
Rutile4.4.1.1TiO2
Group 5 - OXIDES CONTAINING URANIUM OR THORIUM
AXO2·xH2O
Uraninite5.1.1.1UO2
Group 6 - HYDROXIDES AND OXIDES CONTAINING HYDROXYL
XO(OH)
Goethite6.1.1.2α-Fe3+O(OH)
Group 8 - MULTIPLE OXIDES CONTAINING NIOBIUM,TANTALUM OR TITANIUM
AB2O6
Columbite-(Fe)8.3.2.2FeNb2O6
Group 28 - ANHYDROUS ACID AND NORMAL SULFATES
AXO4
Baryte28.3.1.1BaSO4
Group 38 - ANHYDROUS NORMAL PHOSPHATES, ARSENATES, AND VANADATES
AXO4
Cheralite38.4.3.5CaTh(PO4)2
Group 40 - HYDRATED NORMAL PHOSPHATES,ARSENATES AND VANADATES
AB2(XO4)2·xH2O, containing (UO2)2+
Autunite40.2a.1.1Ca(UO2)2(PO4)2 · 11H2O
Torbernite40.2a.13.1Cu(UO2)2(PO4)2 · 12H2O
A3(XO4)2·xH2O
Phosphoferrite40.3.2.1(Fe2+,Mn2+)3(PO4)2 · 3H2O
Vivianite40.3.6.1Fe2+3(PO4)2 · 8H2O
(AB)5(XO4)2·xH2O
Churchite-(Y)40.4.6.1Y(PO4) · 2H2O
Kolbeckite40.4.3.3ScPO4 · 2H2O
Lermontovite ?40.4.8.2U(PO4)(OH) · H2O
Strengite40.4.1.2FePO4 · 2H2O
Vyacheslavite ?40.4.8.3U(PO4)(OH) · nH2O
Group 41 - ANHYDROUS PHOSPHATES, ETC.CONTAINING HYDROXYL OR HALOGEN
A2(XO4)Zq
Triplite41.6.1.2(Mn2+,Fe2+)2(PO4)(F,OH)
Triploidite41.6.3.2(Mn2+,Fe2+)2(PO4)(OH)
Wolfeite41.6.3.1(Fe2+,Mn2+)2(PO4)(OH)
A5(XO4)3Zq
Fluorapatite41.8.1.1Ca5(PO4)3F
(AB)5(XO4)3Zq
Rockbridgeite41.9.2.1Fe2+Fe3+4(PO4)3(OH)5
(AB)3(XO4)2Zq
Lazulite41.10.1.1(Mg,Fe2+)Al2(PO4)2(OH)2
Group 42 - HYDRATED PHOSPHATES, ETC.CONTAINING HYDROXYL OR HALOGEN
(AB)2(XO4)Zq·xH2O
Childrenite42.7.1.1Fe2+Al(PO4)(OH)2 · H2O
Eosphorite42.7.1.2Mn2+Al(PO4)(OH)2 · H2O
(AB)5(XO4)3Zq·xH2O
Mitridatite42.8.4.1Ca2Fe3+3(PO4)3O2 · 3H2O
A3(XO4)2Zq·xH2O
Wavellite42.10.2.1Al3(PO4)2(OH,F)3 · 5H2O
(AB)3(XO4)2Zq·xH2O
Beraunite42.11.16.1Fe2+Fe3+5(PO4)4(OH)5 · 6H2O
Ferrolaueite42.11.10.7Fe2+Fe3+2(PO4)2(OH)2 · 8H2O
Gordonite42.11.14.4MgAl2(PO4)2(OH)2 · 8H2O
Keckite42.11.4.1CaMn2+(Fe3+Mn2+)Fe3+2(PO4)4(OH)3 · 7H2O
Laueite42.11.10.1Mn2+Fe3+2(PO4)2(OH)2 · 8H2O
Strunzite42.11.9.1Mn2+Fe3+2(PO4)2(OH)2 · 6H2O
Vochtenite ?42.11.23.1(Fe2+,Mg)Fe3+(UO2)4(PO4)4(OH) · 12-13H2O
Whitmoreite42.11.20.1Fe2+Fe3+2(PO4)2(OH)2 · 4H2O
Miscellaneous
Cacoxenite42.13.5.1Fe3+24AlO6(PO4)17(OH)12 · 75H2O
Group 43 - COMPOUND PHOSPHATES, ETC.
Hydrated Compound Phosphates, etc·, Containing Hydroxyl or Halogen
Diadochite43.5.2.1Fe3+2(PO4)(SO4)(OH) · 5H2O
Group 51 - NESOSILICATES Insular SiO4 Groups Only
Insular SiO4 Groups Only with cations in [6] and >[6] coordination
Pyrope51.4.3a.1Mg3Al2(SiO4)3
Spessartine51.4.3a.3Mn2+3Al2(SiO4)3
Group 61 - CYCLOSILICATES Six-Membered Rings
Six-Membered Rings with borate groups
Dravite61.3.1.9Na(Mg3)Al6(Si6O18)(BO3)3(OH)3(OH)
Schorl61.3.1.10Na(Fe2+3)Al6(Si6O18)(BO3)3(OH)3(OH)
Group 71 - PHYLLOSILICATES Sheets of Six-Membered Rings
Sheets of 6-membered rings with 2:1 layers
Muscovite71.2.2a.1KAl2(AlSi3O10)(OH)2
Group 75 - TECTOSILICATES Si Tetrahedral Frameworks
Si Tetrahedral Frameworks - SiO2 with [4] coordinated Si
Quartz75.1.3.1SiO2
Group 76 - TECTOSILICATES Al-Si Framework
Al-Si Framework with Al-Si frameworks
Albite76.1.3.1Na(AlSi3O8)
Unclassified Minerals, Rocks, etc.
'Apatite'-
'Aplite'-
'Childrenite-Eosphorite Series'-
'Chlorite Group'-
'Columbite-(Fe)-Columbite-(Mn) Series'-
'Feldspar Group'-
Fluorapatite
var: Mn-bearing Fluorapatite
-(Ca,Mn2+)5(PO4)3(F,Cl,OH) or Ca5([P,Mn5+]O4)3(F,Cl,OH)
'Garnet Group'-X3Z2(SiO4)3
'Limonite'-(Fe,O,OH,H2O)
'Monazite'-
'Tourmaline'-A(D3)G6(T6O18)(BO3)3X3Z
'Unnamed (K-Ba-Sc-Zr Phosphate)'-(K,Ba)(Sc,Zr)2.5(PO4)3
'Unnamed (Zr-Sc Phosphate-Silicate)'-Zr, Sc, U, P, Si, O

List of minerals for each chemical element

HHydrogen
H AutuniteCa(UO2)2(PO4)2 · 11H2O
H BerauniteFe2+Fe53+(PO4)4(OH)5 · 6H2O
H CacoxeniteFe243+AlO6(PO4)17(OH)12 · 75H2O
H ChildreniteFe2+Al(PO4)(OH)2 · H2O
H Churchite-(Y)Y(PO4) · 2H2O
H DiadochiteFe23+(PO4)(SO4)(OH) · 5H2O
H DraviteNa(Mg3)Al6(Si6O18)(BO3)3(OH)3(OH)
H EosphoriteMn2+Al(PO4)(OH)2 · H2O
H FerrihydriteFe103+O14(OH)2
H FerrolaueiteFe2+Fe23+(PO4)2(OH)2 · 8H2O
H Goethiteα-Fe3+O(OH)
H GordoniteMgAl2(PO4)2(OH)2 · 8H2O
H KeckiteCaMn2+(Fe3+Mn2+)Fe23+(PO4)4(OH)3 · 7H2O
H KolbeckiteScPO4 · 2H2O
H LaueiteMn2+Fe23+(PO4)2(OH)2 · 8H2O
H Lazulite(Mg,Fe2+)Al2(PO4)2(OH)2
H LermontoviteU(PO4)(OH) · H2O
H Limonite(Fe,O,OH,H2O)
H MitridatiteCa2Fe33+(PO4)3O2 · 3H2O
H Fluorapatite (var: Mn-bearing Fluorapatite)(Ca,Mn2+)5(PO4)3(F,Cl,OH) or Ca5([P,Mn5+]O4)3(F,Cl,OH)
H MuscoviteKAl2(AlSi3O10)(OH)2
H Phosphoferrite(Fe2+,Mn2+)3(PO4)2 · 3H2O
H RockbridgeiteFe2+Fe43+(PO4)3(OH)5
H SchorlNa(Fe32+)Al6(Si6O18)(BO3)3(OH)3(OH)
H StrengiteFePO4 · 2H2O
H StrunziteMn2+Fe23+(PO4)2(OH)2 · 6H2O
H TorberniteCu(UO2)2(PO4)2 · 12H2O
H Triplite(Mn2+,Fe2+)2(PO4)(F,OH)
H Triploidite(Mn2+,Fe2+)2(PO4)(OH)
H VivianiteFe32+(PO4)2 · 8H2O
H Vochtenite(Fe2+,Mg)Fe3+(UO2)4(PO4)4(OH) · 12-13H2O
H VyacheslaviteU(PO4)(OH) · nH2O
H WavelliteAl3(PO4)2(OH,F)3 · 5H2O
H WhitmoreiteFe2+Fe23+(PO4)2(OH)2 · 4H2O
H Wolfeite(Fe2+,Mn2+)2(PO4)(OH)
BBoron
B DraviteNa(Mg3)Al6(Si6O18)(BO3)3(OH)3(OH)
B SchorlNa(Fe32+)Al6(Si6O18)(BO3)3(OH)3(OH)
B TourmalineA(D3)G6(T6O18)(BO3)3X3Z
OOxygen
O AlbiteNa(AlSi3O8)
O AutuniteCa(UO2)2(PO4)2 · 11H2O
O BaryteBaSO4
O BerauniteFe2+Fe53+(PO4)4(OH)5 · 6H2O
O CacoxeniteFe243+AlO6(PO4)17(OH)12 · 75H2O
O CheraliteCaTh(PO4)2
O ChildreniteFe2+Al(PO4)(OH)2 · H2O
O Churchite-(Y)Y(PO4) · 2H2O
O Columbite-(Fe)FeNb2O6
O DiadochiteFe23+(PO4)(SO4)(OH) · 5H2O
O DraviteNa(Mg3)Al6(Si6O18)(BO3)3(OH)3(OH)
O EosphoriteMn2+Al(PO4)(OH)2 · H2O
O FerrihydriteFe103+O14(OH)2
O FerrolaueiteFe2+Fe23+(PO4)2(OH)2 · 8H2O
O FluorapatiteCa5(PO4)3F
O Garnet GroupX3Z2(SiO4)3
O Goethiteα-Fe3+O(OH)
O GordoniteMgAl2(PO4)2(OH)2 · 8H2O
O HematiteFe2O3
O IlmeniteFe2+TiO3
O KeckiteCaMn2+(Fe3+Mn2+)Fe23+(PO4)4(OH)3 · 7H2O
O KolbeckiteScPO4 · 2H2O
O LaueiteMn2+Fe23+(PO4)2(OH)2 · 8H2O
O Lazulite(Mg,Fe2+)Al2(PO4)2(OH)2
O LermontoviteU(PO4)(OH) · H2O
O Limonite(Fe,O,OH,H2O)
O MitridatiteCa2Fe33+(PO4)3O2 · 3H2O
O Fluorapatite (var: Mn-bearing Fluorapatite)(Ca,Mn2+)5(PO4)3(F,Cl,OH) or Ca5([P,Mn5+]O4)3(F,Cl,OH)
O MuscoviteKAl2(AlSi3O10)(OH)2
O Phosphoferrite(Fe2+,Mn2+)3(PO4)2 · 3H2O
O PyropeMg3Al2(SiO4)3
O QuartzSiO2
O RockbridgeiteFe2+Fe43+(PO4)3(OH)5
O RutileTiO2
O SchorlNa(Fe32+)Al6(Si6O18)(BO3)3(OH)3(OH)
O SpessartineMn32+Al2(SiO4)3
O StrengiteFePO4 · 2H2O
O StrunziteMn2+Fe23+(PO4)2(OH)2 · 6H2O
O TorberniteCu(UO2)2(PO4)2 · 12H2O
O TourmalineA(D3)G6(T6O18)(BO3)3X3Z
O Triplite(Mn2+,Fe2+)2(PO4)(F,OH)
O Triploidite(Mn2+,Fe2+)2(PO4)(OH)
O Unnamed (K-Ba-Sc-Zr Phosphate)(K,Ba)(Sc,Zr)2.5(PO4)3
O Unnamed (Zr-Sc Phosphate-Silicate)Zr, Sc, U, P, Si, O
O UraniniteUO2
O VivianiteFe32+(PO4)2 · 8H2O
O Vochtenite(Fe2+,Mg)Fe3+(UO2)4(PO4)4(OH) · 12-13H2O
O VyacheslaviteU(PO4)(OH) · nH2O
O WavelliteAl3(PO4)2(OH,F)3 · 5H2O
O WhitmoreiteFe2+Fe23+(PO4)2(OH)2 · 4H2O
O Wolfeite(Fe2+,Mn2+)2(PO4)(OH)
FFluorine
F FluorapatiteCa5(PO4)3F
F Fluorapatite (var: Mn-bearing Fluorapatite)(Ca,Mn2+)5(PO4)3(F,Cl,OH) or Ca5([P,Mn5+]O4)3(F,Cl,OH)
F Triplite(Mn2+,Fe2+)2(PO4)(F,OH)
NaSodium
Na AlbiteNa(AlSi3O8)
Na DraviteNa(Mg3)Al6(Si6O18)(BO3)3(OH)3(OH)
Na SchorlNa(Fe32+)Al6(Si6O18)(BO3)3(OH)3(OH)
MgMagnesium
Mg DraviteNa(Mg3)Al6(Si6O18)(BO3)3(OH)3(OH)
Mg GordoniteMgAl2(PO4)2(OH)2 · 8H2O
Mg Lazulite(Mg,Fe2+)Al2(PO4)2(OH)2
Mg PyropeMg3Al2(SiO4)3
AlAluminium
Al AlbiteNa(AlSi3O8)
Al CacoxeniteFe243+AlO6(PO4)17(OH)12 · 75H2O
Al ChildreniteFe2+Al(PO4)(OH)2 · H2O
Al DraviteNa(Mg3)Al6(Si6O18)(BO3)3(OH)3(OH)
Al EosphoriteMn2+Al(PO4)(OH)2 · H2O
Al GordoniteMgAl2(PO4)2(OH)2 · 8H2O
Al Lazulite(Mg,Fe2+)Al2(PO4)2(OH)2
Al MuscoviteKAl2(AlSi3O10)(OH)2
Al PyropeMg3Al2(SiO4)3
Al SchorlNa(Fe32+)Al6(Si6O18)(BO3)3(OH)3(OH)
Al SpessartineMn32+Al2(SiO4)3
Al WavelliteAl3(PO4)2(OH,F)3 · 5H2O
SiSilicon
Si AlbiteNa(AlSi3O8)
Si DraviteNa(Mg3)Al6(Si6O18)(BO3)3(OH)3(OH)
Si Garnet GroupX3Z2(SiO4)3
Si MuscoviteKAl2(AlSi3O10)(OH)2
Si PyropeMg3Al2(SiO4)3
Si QuartzSiO2
Si SchorlNa(Fe32+)Al6(Si6O18)(BO3)3(OH)3(OH)
Si SpessartineMn32+Al2(SiO4)3
Si Unnamed (Zr-Sc Phosphate-Silicate)Zr, Sc, U, P, Si, O
PPhosphorus
P AutuniteCa(UO2)2(PO4)2 · 11H2O
P BerauniteFe2+Fe53+(PO4)4(OH)5 · 6H2O
P CacoxeniteFe243+AlO6(PO4)17(OH)12 · 75H2O
P CheraliteCaTh(PO4)2
P ChildreniteFe2+Al(PO4)(OH)2 · H2O
P Churchite-(Y)Y(PO4) · 2H2O
P DiadochiteFe23+(PO4)(SO4)(OH) · 5H2O
P EosphoriteMn2+Al(PO4)(OH)2 · H2O
P FerrolaueiteFe2+Fe23+(PO4)2(OH)2 · 8H2O
P FluorapatiteCa5(PO4)3F
P GordoniteMgAl2(PO4)2(OH)2 · 8H2O
P KeckiteCaMn2+(Fe3+Mn2+)Fe23+(PO4)4(OH)3 · 7H2O
P KolbeckiteScPO4 · 2H2O
P LaueiteMn2+Fe23+(PO4)2(OH)2 · 8H2O
P Lazulite(Mg,Fe2+)Al2(PO4)2(OH)2
P LermontoviteU(PO4)(OH) · H2O
P MitridatiteCa2Fe33+(PO4)3O2 · 3H2O
P Fluorapatite (var: Mn-bearing Fluorapatite)(Ca,Mn2+)5(PO4)3(F,Cl,OH) or Ca5([P,Mn5+]O4)3(F,Cl,OH)
P Phosphoferrite(Fe2+,Mn2+)3(PO4)2 · 3H2O
P RockbridgeiteFe2+Fe43+(PO4)3(OH)5
P StrengiteFePO4 · 2H2O
P StrunziteMn2+Fe23+(PO4)2(OH)2 · 6H2O
P TorberniteCu(UO2)2(PO4)2 · 12H2O
P Triplite(Mn2+,Fe2+)2(PO4)(F,OH)
P Triploidite(Mn2+,Fe2+)2(PO4)(OH)
P Unnamed (K-Ba-Sc-Zr Phosphate)(K,Ba)(Sc,Zr)2.5(PO4)3
P Unnamed (Zr-Sc Phosphate-Silicate)Zr, Sc, U, P, Si, O
P VivianiteFe32+(PO4)2 · 8H2O
P Vochtenite(Fe2+,Mg)Fe3+(UO2)4(PO4)4(OH) · 12-13H2O
P VyacheslaviteU(PO4)(OH) · nH2O
P WavelliteAl3(PO4)2(OH,F)3 · 5H2O
P WhitmoreiteFe2+Fe23+(PO4)2(OH)2 · 4H2O
P Wolfeite(Fe2+,Mn2+)2(PO4)(OH)
SSulfur
S BaryteBaSO4
S ChalcopyriteCuFeS2
S DiadochiteFe23+(PO4)(SO4)(OH) · 5H2O
S PyriteFeS2
S SphaleriteZnS
ClChlorine
Cl Fluorapatite (var: Mn-bearing Fluorapatite)(Ca,Mn2+)5(PO4)3(F,Cl,OH) or Ca5([P,Mn5+]O4)3(F,Cl,OH)
KPotassium
K MuscoviteKAl2(AlSi3O10)(OH)2
K Unnamed (K-Ba-Sc-Zr Phosphate)(K,Ba)(Sc,Zr)2.5(PO4)3
CaCalcium
Ca AutuniteCa(UO2)2(PO4)2 · 11H2O
Ca CheraliteCaTh(PO4)2
Ca FluorapatiteCa5(PO4)3F
Ca KeckiteCaMn2+(Fe3+Mn2+)Fe23+(PO4)4(OH)3 · 7H2O
Ca MitridatiteCa2Fe33+(PO4)3O2 · 3H2O
Ca Fluorapatite (var: Mn-bearing Fluorapatite)(Ca,Mn2+)5(PO4)3(F,Cl,OH) or Ca5([P,Mn5+]O4)3(F,Cl,OH)
ScScandium
Sc KolbeckiteScPO4 · 2H2O
Sc Unnamed (K-Ba-Sc-Zr Phosphate)(K,Ba)(Sc,Zr)2.5(PO4)3
Sc Unnamed (Zr-Sc Phosphate-Silicate)Zr, Sc, U, P, Si, O
TiTitanium
Ti IlmeniteFe2+TiO3
Ti RutileTiO2
MnManganese
Mn EosphoriteMn2+Al(PO4)(OH)2 · H2O
Mn KeckiteCaMn2+(Fe3+Mn2+)Fe23+(PO4)4(OH)3 · 7H2O
Mn LaueiteMn2+Fe23+(PO4)2(OH)2 · 8H2O
Mn Fluorapatite (var: Mn-bearing Fluorapatite)(Ca,Mn2+)5(PO4)3(F,Cl,OH) or Ca5([P,Mn5+]O4)3(F,Cl,OH)
Mn SpessartineMn32+Al2(SiO4)3
Mn StrunziteMn2+Fe23+(PO4)2(OH)2 · 6H2O
Mn Triplite(Mn2+,Fe2+)2(PO4)(F,OH)
Mn Triploidite(Mn2+,Fe2+)2(PO4)(OH)
FeIron
Fe BerauniteFe2+Fe53+(PO4)4(OH)5 · 6H2O
Fe CacoxeniteFe243+AlO6(PO4)17(OH)12 · 75H2O
Fe ChalcopyriteCuFeS2
Fe ChildreniteFe2+Al(PO4)(OH)2 · H2O
Fe Columbite-(Fe)FeNb2O6
Fe DiadochiteFe23+(PO4)(SO4)(OH) · 5H2O
Fe FerrihydriteFe103+O14(OH)2
Fe FerrolaueiteFe2+Fe23+(PO4)2(OH)2 · 8H2O
Fe Goethiteα-Fe3+O(OH)
Fe HematiteFe2O3
Fe IlmeniteFe2+TiO3
Fe KeckiteCaMn2+(Fe3+Mn2+)Fe23+(PO4)4(OH)3 · 7H2O
Fe LaueiteMn2+Fe23+(PO4)2(OH)2 · 8H2O
Fe Limonite(Fe,O,OH,H2O)
Fe MitridatiteCa2Fe33+(PO4)3O2 · 3H2O
Fe Phosphoferrite(Fe2+,Mn2+)3(PO4)2 · 3H2O
Fe PyriteFeS2
Fe RockbridgeiteFe2+Fe43+(PO4)3(OH)5
Fe SchorlNa(Fe32+)Al6(Si6O18)(BO3)3(OH)3(OH)
Fe StrengiteFePO4 · 2H2O
Fe StrunziteMn2+Fe23+(PO4)2(OH)2 · 6H2O
Fe Triplite(Mn2+,Fe2+)2(PO4)(F,OH)
Fe VivianiteFe32+(PO4)2 · 8H2O
Fe Vochtenite(Fe2+,Mg)Fe3+(UO2)4(PO4)4(OH) · 12-13H2O
Fe WhitmoreiteFe2+Fe23+(PO4)2(OH)2 · 4H2O
Fe Wolfeite(Fe2+,Mn2+)2(PO4)(OH)
CuCopper
Cu ChalcopyriteCuFeS2
Cu TorberniteCu(UO2)2(PO4)2 · 12H2O
ZnZinc
Zn SphaleriteZnS
YYttrium
Y Churchite-(Y)Y(PO4) · 2H2O
ZrZirconium
Zr Unnamed (K-Ba-Sc-Zr Phosphate)(K,Ba)(Sc,Zr)2.5(PO4)3
Zr Unnamed (Zr-Sc Phosphate-Silicate)Zr, Sc, U, P, Si, O
NbNiobium
Nb Columbite-(Fe)FeNb2O6
BaBarium
Ba BaryteBaSO4
Ba Unnamed (K-Ba-Sc-Zr Phosphate)(K,Ba)(Sc,Zr)2.5(PO4)3
ThThorium
Th CheraliteCaTh(PO4)2
UUranium
U AutuniteCa(UO2)2(PO4)2 · 11H2O
U LermontoviteU(PO4)(OH) · H2O
U TorberniteCu(UO2)2(PO4)2 · 12H2O
U Unnamed (Zr-Sc Phosphate-Silicate)Zr, Sc, U, P, Si, O
U UraniniteUO2
U Vochtenite(Fe2+,Mg)Fe3+(UO2)4(PO4)4(OH) · 12-13H2O
U VyacheslaviteU(PO4)(OH) · nH2O

References

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Year (asc) Year (desc) Author (A-Z) Author (Z-A)
Dill, H.G., Melcher, F., Gerdes, A., and Weber, B. (2008) The origin and zoning of hypogene and supergene Fe-Mn-Mg-Sc-U-REE-Zn phosphate mineralization from the newly discovered Trutzhofmühle aplite (Hagendorf pegmatite province, Germany). Canadian Mineralogist 46(5), 1131-1157.


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