Mineral Evolution Database

Created and maintained by the Mineral Evolution Project in partnership with RRUFF and mindat.

Mineral locality data provided by mindat.org

The Mineral Evolution database is currently under development.

The goal of this page is to present localities at which the mineral is found, and estimates of the oldest possible geologic age of the minerals at these localities.

Locality Name:
Hagendorf North Pegmatite (Meixner Feldspar Pit), Hagendorf, Waidhaus, Upper Palatinate, Bavaria, Germany

Oldest recorded age at locality: 561
Youngest recorded age at locality: 4.528

mindat Locality ID: 14975
mindat URL: http://www.mindat.org/loc-14975.html

Tectonic Settings:

Total number of sublocalities beneath "Hagendorf North Pegmatite (Meixner Feldspar Pit), Hagendorf, Waidhaus, Upper Palatinate, Bavaria, Germany": 0
Total number of bottom-level sublocalities: 0

Latitude: 49°39'14"N
Longitude: 12°27'23"E
Decimal Degree (lat, lon): 49.653888888889,12.456388888889

A	This mineral is Anthropogenic.
G	This mineral is directly dated.
B	This mineral is reported as having this age.
Y	This mineral is using an age reported as an element mineralization period.
O	This mineral is using an age calculated from all data at the locality.
R	The age displayed for this mineral originates from a different, non-child locality.
P	The age displayed for this mineral is the range of ages for this mineral at all of this locality's children.
	This mineral's age has not yet been recorded.

Alluaudite	Alunite	Apatite	Autunite	Beraunite	Chalcopyrite	Childrenite	Clay	Columbite	Corundum
Diaspore	Fairfieldite	Feldspar	Fluorite	Hopeite	Hureaulite	Kaolinite	Mica	Molybdenite	Natroautunite
Nickeline	None	Olivine	Parahopeite	Phosphophyllite	Phosphosiderite	Pyrite	Quartz	Reddingite	Rockbridgeite
Rutile	Sphalerite	Stibnite	Strunzite	Triplite	Vivianite	Wagnerite	Wavellite	Wurtzite	Zircon

This Mineral list contains entries from this locality, including sub-localities. Minerals in bold are reported by mindat.org as occurring directly at this locality, and do not occur at any children (sublocalities) of this locality.

Elements at this locality, including sub-localities: Al Ba Bi Ca Cd Cu F Fe H K Li Mg Mn Mo Na Nb O P S Si Sr U Zn Zr

Elements from minerals reported directly at this locality: Al Ba Bi Ca Cd Cu F Fe H K Li Mn Mo Na Nb O P S Si Sr U Zn Zr

Structural Groups for minerals in this locality:
Alluaudite Alunite Apatite Autunite Beraunite Chalcopyrite Childrenite Clay Columbite Corundum
Diaspore Fairfieldite Feldspar Fluorite Hopeite Hureaulite Kaolinite Mica Molybdenite Natroautunite
Nickeline None Olivine Parahopeite Phosphophyllite Phosphosiderite Pyrite Quartz Reddingite Rockbridgeite
Rutile Sphalerite Stibnite Strunzite Triplite Vivianite Wagnerite Wavellite Wurtzite Zircon

55 IMA Minerals at location:

Albite ()*	Alluaudite ()*	Autunite ()*	Beraunite ()*	Bismuthinite ()*
Cacoxenite ()*	Chalcopyrite ()*	Chernikovite ()*	Columbite-(Fe) ()*	Crandallite ()*
Eosphorite ()*	Fairfieldite ()*	Ferrisicklerite ()*	Fluorapatite ()*	Goethite ()*
Goyazite ()*	Greenockite ()*	Hagendorfite ()*	Hematite ()*	Heterosite ()*
Hopeite ()*	Hureaulite ()*	Kaolinite ()*	Landesite ()*	Ludlamite ()*
Microcline ()*	Molybdenite ()*	Muscovite ()*	Orthoclase ()*	Parahopeite ()*
Parascholzite ()*	Phosphoferrite ()*	Phosphophyllite ()*	Phosphosiderite ()*	Pyrite ()*
Pyrolusite ()*	Pyrrhotite ()*	Quartz ()*	Reddingite ()*	Rockbridgeite ()*
Scholzite ()*	Sphalerite ()*	Strengite ()*	Strunzite ()*	Torbernite ()*
Triphylite ()*	Triplite ()*	Uraninite ()*	Uranocircite-II ()*	Vivianite ()*
Wavellite ()*	Wolfeite ()*	Xanthoxenite ()*	Zircon ()*	Zwieselite ()*

Mineral name	Structural Groups	IMA Formula	Max Age (Ma)	Min Age (Ma)	# of localities containing mineral
Albite ()*	Feldspar	Na(AlSi₃O₈)	561	4.528	8803
Alluaudite ()*	Alluaudite	NaMnFe³⁺₂(PO₄)₃	561	4.528	94
Autunite ()*	Autunite	Ca(UO₂)₂(PO₄)₂·10-12H₂O	561	4.528	1272
Beraunite ()*	Beraunite	Fe³⁺₆(PO₄)₄O(OH)₄·6H₂O	561	4.528	136
Bismuthinite ()*	Stibnite	Bi₂S₃	561	4.528	1935
Cacoxenite ()*	None	Fe³⁺₂₄AlO₆(PO₄)₁₇(OH)₁₂·75H₂O	561	4.528	280
Chalcopyrite ()*	Chalcopyrite	CuFeS₂	561	4.528	27198
Chernikovite ()*	Natroautunite	(H₃O)(UO₂)(PO₄)·3H₂O	561	4.528	21
Columbite-(Fe) ()*	Columbite	Fe²⁺Nb₂O₆	561	4.528	518
Crandallite ()*	Alunite	CaAl₃(PO₄)(PO₃OH)(OH)₆	561	4.528	310
Eosphorite ()*	Childrenite	Mn²⁺Al(PO₄)(OH)₂·H₂O	561	4.528	128
Fairfieldite ()*	Fairfieldite	Ca₂Mn²⁺(PO₄)₂·2H₂O	561	4.528	72
Ferrisicklerite ()*	Olivine	Li_1-x(Fe³⁺,Mn²⁺)(PO₄)	561	4.528	108
Fluorapatite ()*	Apatite	Ca₅(PO₄)₃F	561	4.528	2740
Goethite ()*	Diaspore	FeO(OH)	561	4.528	7437
Goyazite ()*	Alunite	SrAl₃(PO₄)(PO₃OH)(OH)₆	561	4.528	173
Greenockite ()*	Wurtzite	CdS	561	4.528	717
Hagendorfite ()*	Alluaudite	Na₂MnFe²⁺Fe³⁺(PO₄)₃	561	4.528	17
Hematite ()*	Corundum	Fe₂O₃	561	4.528	14640
Heterosite ()*	Olivine	Fe³⁺(PO₄)	561	4.528	204
Hopeite ()*	Hopeite	Zn₃(PO₄)₂·4H₂O	561	4.528	29
Hureaulite ()*	Hureaulite	Mn²⁺₅(PO₃OH)₂(PO₄)₂·4H₂O	561	4.528	125
Kaolinite ()*	Clay Kaolinite	Al₂Si₂O₅(OH)₄	561	4.528	5591
Landesite ()*	Reddingite	Mn²⁺₉Fe³⁺₃(PO₄)₈(OH)₃·9H₂O	561	4.528	14
Ludlamite ()*	None	Fe²⁺₃(PO₄)₂·4H₂O	561	4.528	66
Microcline ()*	Feldspar	K(AlSi₃O₈)	561	4.528	4924
Molybdenite ()*	Molybdenite	MoS₂	561	4.528	5800
Muscovite ()*	Mica Clay	KAl₂(Si₃Al)O₁₀(OH)₂	561	4.528	17380
Orthoclase ()*	Feldspar	K(AlSi₃O₈)	561	4.528	2349
Parahopeite ()*	Parahopeite	Zn₃(PO₄)₂·4H₂O	561	4.528	11
Parascholzite ()*	None	CaZn₂(PO₄)₂·2H₂O	561	4.528	12
Phosphoferrite ()*	Reddingite	Fe²⁺₃(PO₄)₂·3H₂O	561	4.528	31
Phosphophyllite ()*	Phosphophyllite	Zn₂Fe²⁺(PO₄)₂·4H₂O	561	4.528	29
Phosphosiderite ()*	Phosphosiderite	Fe³⁺(PO₄)·2H₂O	561	4.528	182
Pyrite ()*	Pyrite	FeS₂	561	4.528	39462
Pyrolusite ()*	Rutile	MnO₂	561	4.528	3106
Pyrrhotite ()*	Nickeline	Fe₇S₈	561	4.528	9056
Quartz ()*	Quartz	SiO₂	561	4.528	61156
Reddingite ()*	Reddingite	Mn²⁺₃(PO₄)₂·3H₂O	561	4.528	24
Rockbridgeite ()*	Rockbridgeite	(Fe²⁺_0.5Fe³⁺_0.5)₂Fe³⁺₃(PO₄)₃(OH)₅	561	4.528	206
Scholzite ()*	None	CaZn₂(PO₄)₂·2H₂O	561	4.528	20
Sphalerite ()*	Sphalerite	ZnS	561	4.528	21482
Strengite ()*	None	Fe³⁺(PO₄)·2H₂O	561	4.528	263
Strunzite ()*	Strunzite	Mn²⁺Fe³⁺₂(PO₄)₂(OH)₂·6H₂O	561	4.528	98
Torbernite ()*	None	Cu(UO₂)₂(PO₄)₂·12H₂O	561	4.528	1059
Triphylite ()*	Olivine	LiFe²⁺(PO₄)	561	4.528	313
Triplite ()*	Triplite	Mn²⁺₂(PO₄)F	561	4.528	233
Uraninite ()*	Fluorite	UO₂	561	4.528	2718
Uranocircite-II ()*	None	Ba(UO₂)₂(PO₄)₂·10H₂O	561	4.528	89
Vivianite ()*	Vivianite	Fe²⁺₃(PO₄)₂·8H₂O	561	4.528	636
Wavellite ()*	Wavellite	Al₃(PO₄)₂(OH)₃·5H₂O	561	4.528	374
Wolfeite ()*	Wagnerite	Fe²⁺₂(PO₄)(OH)	561	4.528	43
Xanthoxenite ()*	None	Ca₄Fe³⁺₂(PO₄)₄(OH)₂·3H₂O	561	4.528	29
Zircon ()*	Zircon	Zr(SiO₄)	561	4.528	5251
Zwieselite ()*	Triplite	Fe²⁺₂(PO₄)F	561	4.528	47

Locality Notes from all Ages at Locality:

Age ID	Locality Notes
Giersdorf_00000876	The study area lies in the NE Bavarian crystalline basement close to the Czech-German border and covers part of the Moldanubian Zone at the western edge of the Bohemian Massif. Precambrian paragneisses were deformed during the Variscan orogeny and subsequently intruded by acidic igneous rocks of late Carboniferous age. Following these granitic intrusions, acidic differentiates, including aplites and pegmatites very different in their mineral compositions, evolved. Some are significantly enriched in Nb oxides and Li-Mn phosphates. After the Variscan orogeny, the NE Bavarian Basement was subjected to a strong uplift. In the basement proper, clastic sediments and relics of the Cenozoic regolith were locally preserved on a low-relief landscape. These relict landforms date back to the late Mesozoican and the early Cenozoic when subtropical climates occurred in what is today called the "Oberpfaelzer Wald." By the end of the glacial period, present-day fluvial drainage systems cut into the basement rocks and transported the debris of the older regolith and of lithoclasts eroded during the glacial period.
Giersdorf_00000877	The study area lies in the NE Bavarian crystalline basement close to the Czech-German border and covers part of the Moldanubian Zone at the western edge of the Bohemian Massif. Precambrian paragneisses were deformed during the Variscan orogeny and subsequently intruded by acidic igneous rocks of late Carboniferous age. Following these granitic intrusions, acidic differentiates, including aplites and pegmatites very different in their mineral compositions, evolved. Some are significantly enriched in Nb oxides and Li-Mn phosphates. After the Variscan orogeny, the NE Bavarian Basement was subjected to a strong uplift. In the basement proper, clastic sediments and relics of the Cenozoic regolith were locally preserved on a low-relief landscape. These relict landforms date back to the late Mesozoican and the early Cenozoic when subtropical climates occurred in what is today called the "Oberpfaelzer Wald." By the end of the glacial period, present-day fluvial drainage systems cut into the basement rocks and transported the debris of the older regolith and of lithoclasts eroded during the glacial period.
Giersdorf_00000878	The study area lies in the NE Bavarian crystalline basement close to the Czech-German border and covers part of the Moldanubian Zone at the western edge of the Bohemian Massif. Precambrian paragneisses were deformed during the Variscan orogeny and subsequently intruded by acidic igneous rocks of late Carboniferous age. Following these granitic intrusions, acidic differentiates, including aplites and pegmatites very different in their mineral compositions, evolved. Some are significantly enriched in Nb oxides and Li-Mn phosphates. After the Variscan orogeny, the NE Bavarian Basement was subjected to a strong uplift. In the basement proper, clastic sediments and relics of the Cenozoic regolith were locally preserved on a low-relief landscape. These relict landforms date back to the late Mesozoican and the early Cenozoic when subtropical climates occurred in what is today called the "Oberpfaelzer Wald." By the end of the glacial period, present-day fluvial drainage systems cut into the basement rocks and transported the debris of the older regolith and of lithoclasts eroded during the glacial period.
Giersdorf_00000879	The study area lies in the NE Bavarian crystalline basement close to the Czech-German border and covers part of the Moldanubian Zone at the western edge of the Bohemian Massif. Precambrian paragneisses were deformed during the Variscan orogeny and subsequently intruded by acidic igneous rocks of late Carboniferous age. Following these granitic intrusions, acidic differentiates, including aplites and pegmatites very different in their mineral compositions, evolved. Some are significantly enriched in Nb oxides and Li-Mn phosphates. After the Variscan orogeny, the NE Bavarian Basement was subjected to a strong uplift. In the basement proper, clastic sediments and relics of the Cenozoic regolith were locally preserved on a low-relief landscape. These relict landforms date back to the late Mesozoican and the early Cenozoic when subtropical climates occurred in what is today called the "Oberpfaelzer Wald." By the end of the glacial period, present-day fluvial drainage systems cut into the basement rocks and transported the debris of the older regolith and of lithoclasts eroded during the glacial period.
Giersdorf_00000880	The study area lies in the NE Bavarian crystalline basement close to the Czech-German border and covers part of the Moldanubian Zone at the western edge of the Bohemian Massif. Precambrian paragneisses were deformed during the Variscan orogeny and subsequently intruded by acidic igneous rocks of late Carboniferous age. Following these granitic intrusions, acidic differentiates, including aplites and pegmatites very different in their mineral compositions, evolved. Some are significantly enriched in Nb oxides and Li-Mn phosphates. After the Variscan orogeny, the NE Bavarian Basement was subjected to a strong uplift. In the basement proper, clastic sediments and relics of the Cenozoic regolith were locally preserved on a low-relief landscape. These relict landforms date back to the late Mesozoican and the early Cenozoic when subtropical climates occurred in what is today called the "Oberpfaelzer Wald." By the end of the glacial period, present-day fluvial drainage systems cut into the basement rocks and transported the debris of the older regolith and of lithoclasts eroded during the glacial period.

5 Ages assigned to this locality:

Excel ID	Max Age (Ma)	Min Age (Ma)	Age as listed in reference	Age Interpret	Sample Source	Age from other Locality	Dated Mineral	Age applies to these Elements	MinDat Locality ID	Dated Locality (Max Age)	Location as listed in reference	Reference	Reference DOI	Reference ID	Age Notes
Giersdorf_00000876	4.572	4.528	4.55±0.022	corresponds to Miocene-Pliocene weathering and geomorphological processes in the study area	torbernite	Yes	Torbernite	U	108622	Hagendorf, Waidhaus, Upper Palatinate, Bavaria, Germany	Hagendorf	Dill et al. (2007)	10.1180/minmag.2007.071.4.371	MM71_371	Age of samples from the Hagendorf pegmatite district
Giersdorf_00000877	561	537	549±12	thermal event at the Precambrian-Cambrian boundary	torbernite	Yes	Torbernite	U	108622	Hagendorf, Waidhaus, Upper Palatinate, Bavaria, Germany	Hagendorf	Dill et al. (2007)	10.1180/minmag.2007.071.4.371	MM71_371	these old ages, measured in the limoniticc ore of torbernite, may be correlated with a thermal event near the Precambrian-Cambrian boundary
Giersdorf_00000878	301.5	297.7	299.6±1.9		ferrocolumbite	Yes			108622	Hagendorf, Waidhaus, Upper Palatinate, Bavaria, Germany	Hagendorf	Dill et al. (2007)	10.1180/minmag.2007.071.4.371	MM71_371	Age of samples from the Hagendorf pegmatite district
Giersdorf_00000879	390	362	376±14		ferrocolumbite	Yes			108622	Hagendorf, Waidhaus, Upper Palatinate, Bavaria, Germany	Hagendorf	Dill et al. (2007)	10.1180/minmag.2007.071.4.371	MM71_371	Age of samples from the Hagendorf pegmatite district
Giersdorf_00000880	305.4	298.8	302.1±3.3		ferrocolumbite	Yes			108622	Hagendorf, Waidhaus, Upper Palatinate, Bavaria, Germany	Hagendorf	Dill et al. (2007)	10.1180/minmag.2007.071.4.371	MM71_371	Age of samples from the Hagendorf pegmatite district

Sample	Source Locality	Reference URL

All locality data graciously provided by mindat.org

All age data...