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Minei Hill ore deposit, Baia Sprie mine (Felsőbánya mine), Baia Sprie (Felsőbánya), Maramureș Co., Romania

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Name(s) in local language(s):Dealul Minei
Latitude & Longitude (WGS84): 47° 40' 48'' North , 23° 41' 47'' East
Latitude & Longitude (decimal): 47.68000,23.69639
GeoHash:G#: u82z5pzhj
Locality type:Deposit
Köppen climate type:Dfb : Warm-summer humid continental climate


Old mining ore deposit, the "Minei Hill" covers an area of 32km² and is located at 3.3 km in the North of Baia Sprie locality.
Since the first half of the 12th century till the second half of the 18th century the operation was done by open cast or surface mining processes by extracting gold and silver ore.
Structurally, are represented by an stockwerk type of andesitic body, strongly fractured, placed over a pre-volcanic groundwork with a sedimentary origin.
In the "Minei Hill" ore deposit the hydrothermal mineralization formed in two system veins: "The Northern Vein", also called the "The Main Vein", with a thickness between 500-700 m, oriented W to E and a length of 6 km in this studied area. The main feature of "The Northern Vein" is that only in the "Minei Hill" the mineralization reaches on the erosion surface of the andesitic bodies (Mariaș, 2005). The other vein, much less mineralized, is the "Southern Vein", also called "The New Vein".
History of mining: Borcut Mine-start mining in 1768, Terezia Mine-1786, Poni and Francisc galleries-1787, "Crăpătura Zorilor" open pit-1919, Leppen open pit-1919, Screapăr Gallery-1952. All these are closed now.

Select Mineral List Type

Standard Detailed Strunz Dana Chemical Elements

Mineral List


39 valid minerals.

Detailed Mineral List:

Acanthite
Formula: Ag2S
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
'Andorite'
Formula: AgPbSb3S6
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Baryte
Formula: BaSO4
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Berthierite
Formula: FeSb2S4
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Bianchite ?
Formula: (Zn,Fe)SO4 · 6H2O
Reference: Buzatu, A., Damian, G., & Buzgar, N. (2012) Raman And Infrared Studies Of Weathering Products From Baia Sprie Ore Deposit (Romania). Romanian Journal of Mineral Deposits, 85:7-10
Bournonite
Formula: PbCuSbS3
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Calcite
Formula: CaCO3
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Dietrichite
Formula: (Zn,Fe2+,Mn2+)Al2(SO4)4 · 22H2O
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Dolomite
Formula: CaMg(CO3)2
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Felsőbányaite
Formula: Al4(SO4)(OH)10 · 4H2O
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Fizélyite
Formula: Ag5Pb14Sb21S48
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Freieslebenite
Formula: AgPbSbS3
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Galena
Formula: PbS
Reference: Buzatu, A., Damian, G., & Buzgar, N. (2012) Raman And Infrared Studies Of Weathering Products From Baia Sprie Ore Deposit (Romania). Romanian Journal of Mineral Deposits, 85:7-10
Gold
Formula: Au
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Goslarite ?
Formula: ZnSO4 · 7H2O
Reference: Buzatu, A., Damian, G., & Buzgar, N. (2012) Raman And Infrared Studies Of Weathering Products From Baia Sprie Ore Deposit (Romania). Romanian Journal of Mineral Deposits, 85:7-10
Gypsum
Formula: CaSO4 · 2H2O
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Hematite
Formula: Fe2O3
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Jamesonite
Formula: Pb4FeSb6S14
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Klebelsbergite
Formula: Sb4O4(SO4)(OH)2
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Kyrgyzstanite
Formula: ZnAl4(SO4)(OH)12·3H2O
Reference: Collector: Gábor Koller, XRD: Sándor Szakáll/Béla Fehér
'Limonite'
Formula: (Fe,O,OH,H2O)
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Marcasite
Formula: FeS2
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Pyrargyrite
Formula: Ag3SbS3
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Pyrite
Formula: FeS2
Reference: Buzatu, A., Damian, G., & Buzgar, N. (2012) Raman And Infrared Studies Of Weathering Products From Baia Sprie Ore Deposit (Romania). Romanian Journal of Mineral Deposits, 85:7-10
Pyrrhotite
Formula: Fe7S8
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Quartz
Formula: SiO2
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Realgar
Formula: As4S4
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Rhodochrosite
Formula: MnCO3
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based on the Cavnic hydrothermal system-comparison with other epithermal systems in the world, Ed. Cornelius, 2005, p. 377.
Rozenite
Formula: FeSO4 · 4H2O
Reference: Buzatu, A., Damian, G., & Buzgar, N. (2012) Raman And Infrared Studies Of Weathering Products From Baia Sprie Ore Deposit (Romania). Romanian Journal of Mineral Deposits, 85:7-10
Scheelite
Formula: Ca(WO4)
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based on the Cavnic hydrothermal system-comparison with other epithermal systems in the world, Ed. Cornelius, 2005, p. 377.
Selenium
Formula: Se
Reference: Buzatu, A., Damian, G., & Buzgar, N. (2012) Raman And Infrared Studies Of Weathering Products From Baia Sprie Ore Deposit (Romania). Romanian Journal of Mineral Deposits, 85:7-10
Semseyite
Formula: Pb9Sb8S21
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Siderite
Formula: FeCO3
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Sphalerite
Formula: ZnS
Reference: Buzatu, A., Damian, G., & Buzgar, N. (2012) Raman And Infrared Studies Of Weathering Products From Baia Sprie Ore Deposit (Romania). Romanian Journal of Mineral Deposits, 85:7-10
Stephanite
Formula: Ag5SbS4
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
'Stibiconite'
Formula: Sb3+Sb5+2O6(OH)
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Stibnite
Formula: Sb2S3
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Sulphur
Formula: S8
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Szmikite
Formula: MnSO4 · H2O
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Valentinite
Formula: Sb2O3
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.
Voltaite
Formula: K2Fe2+5Fe3+3Al(SO4)12 · 18H2O
Reference: Buzatu, A., Damian, G., & Buzgar, N. (2012) Raman And Infrared Studies Of Weathering Products From Baia Sprie Ore Deposit (Romania). Romanian Journal of Mineral Deposits, 85:7-10
'Wolframite'
Formula: (Fe2+)WO4 to (Mn2+)WO4
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based on the Cavnic hydrothermal system-comparison with other epithermal systems in the world, Ed. Cornelius, 2005, p. 377.
Wurtzite
Formula: (Zn,Fe)S
Reference: Marias Francisc, 2005, Metallogeny of the Baia Mare Mining District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed. Cornelius, 2005, p. 376-377.

List of minerals arranged by Strunz 10th Edition classification

Group 1 - Elements
'Gold'1.AA.05Au
'Selenium'1.CC.10Se
'Sulphur'1.CC.05S8
Group 2 - Sulphides and Sulfosalts
'Acanthite'2.BA.35Ag2S
'Berthierite'2.HA.20FeSb2S4
'Bournonite'2.GA.50PbCuSbS3
'Fizélyite'2.JB.40aAg5Pb14Sb21S48
'Freieslebenite'2.JB.15AgPbSbS3
'Galena'2.CD.10PbS
'Jamesonite'2.HB.15Pb4FeSb6S14
'Marcasite'2.EB.10aFeS2
'Pyrargyrite'2.GA.05Ag3SbS3
'Pyrite'2.EB.05aFeS2
'Pyrrhotite'2.CC.10Fe7S8
'Realgar'2.FA.15aAs4S4
'Semseyite'2.HC.10dPb9Sb8S21
'Sphalerite'2.CB.05aZnS
'Stephanite'2.GB.10Ag5SbS4
'Stibnite'2.DB.05Sb2S3
'Wurtzite'2.CB.45(Zn,Fe)S
Group 4 - Oxides and Hydroxides
'Hematite'4.CB.05Fe2O3
'Quartz'4.DA.05SiO2
'Stibiconite'4.DH.20Sb3+Sb5+2O6(OH)
'Valentinite'4.CB.55Sb2O3
Group 5 - Nitrates and Carbonates
'Calcite'5.AB.05CaCO3
'Dolomite'5.AB.10CaMg(CO3)2
'Rhodochrosite'5.AB.05MnCO3
'Siderite'5.AB.05FeCO3
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
'Baryte'7.AD.35BaSO4
'Bianchite' ?7.CB.25(Zn,Fe)SO4 · 6H2O
'Dietrichite'7.CB.85(Zn,Fe2+,Mn2+)Al2(SO4)4 · 22H2O
'Felsőbányaite'7.DD.05Al4(SO4)(OH)10 · 4H2O
'Goslarite' ?7.CB.40ZnSO4 · 7H2O
'Gypsum'7.CD.40CaSO4 · 2H2O
'Klebelsbergite'7.BB.35Sb4O4(SO4)(OH)2
'Kyrgyzstanite'7.DD.75ZnAl4(SO4)(OH)12·3H2O
'Rozenite'7.CB.15FeSO4 · 4H2O
'Scheelite'7.GA.05Ca(WO4)
'Szmikite'7.CB.05MnSO4 · H2O
'Voltaite'7.CC.25K2Fe2+5Fe3+3Al(SO4)12 · 18H2O
Unclassified Minerals, Rocks, etc.
'Andorite'-AgPbSb3S6
'Limonite'-(Fe,O,OH,H2O)
'Wolframite'-(Fe2+)WO4 to (Mn2+)WO4

List of minerals arranged by Dana 8th Edition classification

Group 1 - NATIVE ELEMENTS AND ALLOYS
Metals, other than the Platinum Group
Gold1.1.1.1Au
Semi-metals and non-metals
Selenium1.3.4.1Se
Sulphur1.3.5.1S8
Group 2 - SULFIDES
AmBnXp, with (m+n):p = 2:1
Acanthite2.4.1.1Ag2S
AmXp, with m:p = 1:1
Galena2.8.1.1PbS
Pyrrhotite2.8.10.1Fe7S8
Realgar2.8.21.1As4S4
Sphalerite2.8.2.1ZnS
Wurtzite2.8.7.1(Zn,Fe)S
AmBnXp, with (m+n):p = 2:3
Stibnite2.11.2.1Sb2S3
AmBnXp, with (m+n):p = 1:2
Marcasite2.12.2.1FeS2
Pyrite2.12.1.1FeS2
Group 3 - SULFOSALTS
ø = 4
Stephanite3.2.4.1Ag5SbS4
ø = 3
Bournonite3.4.3.2PbCuSbS3
Fizélyite3.4.15.8Ag5Pb14Sb21S48
Freieslebenite3.4.6.2AgPbSbS3
Pyrargyrite3.4.1.2Ag3SbS3
2 < ø < 2.49
Jamesonite3.6.7.1Pb4FeSb6S14
Semseyite3.6.20.4Pb9Sb8S21
ø = 2
Berthierite3.7.9.3FeSb2S4
Group 4 - SIMPLE OXIDES
A2X3
Hematite4.3.1.2Fe2O3
Valentinite4.3.11.1Sb2O3
Group 14 - ANHYDROUS NORMAL CARBONATES
A(XO3)
Calcite14.1.1.1CaCO3
Rhodochrosite14.1.1.4MnCO3
Siderite14.1.1.3FeCO3
AB(XO3)2
Dolomite14.2.1.1CaMg(CO3)2
Group 28 - ANHYDROUS ACID AND NORMAL SULFATES
AXO4
Baryte28.3.1.1BaSO4
Group 29 - HYDRATED ACID AND NORMAL SULFATES
AXO4·xH2O
Bianchite ?29.6.8.2(Zn,Fe)SO4 · 6H2O
Goslarite ?29.6.11.2ZnSO4 · 7H2O
Gypsum29.6.3.1CaSO4 · 2H2O
Rozenite29.6.6.1FeSO4 · 4H2O
Szmikite29.6.2.3MnSO4 · H2O
AB2(XO4)4·H2O
Dietrichite29.7.3.4(Zn,Fe2+,Mn2+)Al2(SO4)4 · 22H2O
Miscellaneous
Voltaite29.9.1.1K2Fe2+5Fe3+3Al(SO4)12 · 18H2O
Group 30 - ANHYDROUS SULFATES CONTAINING HYDROXYL OR HALOGEN
(AB)m(XO4)pZq, where m:p>2:1
Klebelsbergite30.1.5.1Sb4O4(SO4)(OH)2
Group 31 - HYDRATED SULFATES CONTAINING HYDROXYL OR HALOGEN
(AB)4(XO4)Zq·xH2O
Felsőbányaite31.4.4.1Al4(SO4)(OH)10 · 4H2O
Group 44 - ANTIMONATES
A2X2O6(O,OH,F)
'Stibiconite'44.1.1.1Sb3+Sb5+2O6(OH)
Group 48 - ANHYDROUS MOLYBDATES AND TUNGSTATES
AXO4
Scheelite48.1.2.1Ca(WO4)
Group 75 - TECTOSILICATES Si Tetrahedral Frameworks
Si Tetrahedral Frameworks - SiO2 with [4] coordinated Si
Quartz75.1.3.1SiO2
Unclassified Minerals, Rocks, etc.
'Andorite'-AgPbSb3S6
Kyrgyzstanite-ZnAl4(SO4)(OH)12·3H2O
'Limonite'-(Fe,O,OH,H2O)
'Wolframite'-(Fe2+)WO4 to (Mn2+)WO4

List of minerals for each chemical element

HHydrogen
H Bianchite(Zn,Fe)SO4 · 6H2O
H Dietrichite(Zn,Fe2+,Mn2+)Al2(SO4)4 · 22H2O
H FelsőbányaiteAl4(SO4)(OH)10 · 4H2O
H GoslariteZnSO4 · 7H2O
H GypsumCaSO4 · 2H2O
H KlebelsbergiteSb4O4(SO4)(OH)2
H KyrgyzstaniteZnAl4(SO4)(OH)12·3H2O
H Limonite(Fe,O,OH,H2O)
H RozeniteFeSO4 · 4H2O
H StibiconiteSb3+Sb25+O6(OH)
H SzmikiteMnSO4 · H2O
H VoltaiteK2Fe52+Fe33+Al(SO4)12 · 18H2O
CCarbon
C CalciteCaCO3
C DolomiteCaMg(CO3)2
C RhodochrositeMnCO3
C SideriteFeCO3
OOxygen
O BaryteBaSO4
O Bianchite(Zn,Fe)SO4 · 6H2O
O CalciteCaCO3
O Dietrichite(Zn,Fe2+,Mn2+)Al2(SO4)4 · 22H2O
O DolomiteCaMg(CO3)2
O FelsőbányaiteAl4(SO4)(OH)10 · 4H2O
O GoslariteZnSO4 · 7H2O
O GypsumCaSO4 · 2H2O
O HematiteFe2O3
O KlebelsbergiteSb4O4(SO4)(OH)2
O KyrgyzstaniteZnAl4(SO4)(OH)12·3H2O
O Limonite(Fe,O,OH,H2O)
O QuartzSiO2
O RhodochrositeMnCO3
O RozeniteFeSO4 · 4H2O
O ScheeliteCa(WO4)
O SideriteFeCO3
O StibiconiteSb3+Sb25+O6(OH)
O SzmikiteMnSO4 · H2O
O ValentiniteSb2O3
O VoltaiteK2Fe52+Fe33+Al(SO4)12 · 18H2O
O Wolframite(Fe2+)WO4 to (Mn2+)WO4
MgMagnesium
Mg DolomiteCaMg(CO3)2
AlAluminium
Al Dietrichite(Zn,Fe2+,Mn2+)Al2(SO4)4 · 22H2O
Al FelsőbányaiteAl4(SO4)(OH)10 · 4H2O
Al KyrgyzstaniteZnAl4(SO4)(OH)12·3H2O
Al VoltaiteK2Fe52+Fe33+Al(SO4)12 · 18H2O
SiSilicon
Si QuartzSiO2
SSulfur
S AcanthiteAg2S
S AndoriteAgPbSb3S6
S BaryteBaSO4
S BerthieriteFeSb2S4
S Bianchite(Zn,Fe)SO4 · 6H2O
S BournonitePbCuSbS3
S Dietrichite(Zn,Fe2+,Mn2+)Al2(SO4)4 · 22H2O
S FelsőbányaiteAl4(SO4)(OH)10 · 4H2O
S FizélyiteAg5Pb14Sb21S48
S FreieslebeniteAgPbSbS3
S GalenaPbS
S GoslariteZnSO4 · 7H2O
S GypsumCaSO4 · 2H2O
S JamesonitePb4FeSb6S14
S KlebelsbergiteSb4O4(SO4)(OH)2
S KyrgyzstaniteZnAl4(SO4)(OH)12·3H2O
S MarcasiteFeS2
S PyrargyriteAg3SbS3
S PyriteFeS2
S PyrrhotiteFe7S8
S RealgarAs4S4
S RozeniteFeSO4 · 4H2O
S SemseyitePb9Sb8S21
S SphaleriteZnS
S StephaniteAg5SbS4
S StibniteSb2S3
S SulphurS8
S SzmikiteMnSO4 · H2O
S VoltaiteK2Fe52+Fe33+Al(SO4)12 · 18H2O
S Wurtzite(Zn,Fe)S
KPotassium
K VoltaiteK2Fe52+Fe33+Al(SO4)12 · 18H2O
CaCalcium
Ca CalciteCaCO3
Ca DolomiteCaMg(CO3)2
Ca GypsumCaSO4 · 2H2O
Ca ScheeliteCa(WO4)
MnManganese
Mn Dietrichite(Zn,Fe2+,Mn2+)Al2(SO4)4 · 22H2O
Mn RhodochrositeMnCO3
Mn SzmikiteMnSO4 · H2O
Mn Wolframite(Fe2+)WO4 to (Mn2+)WO4
FeIron
Fe BerthieriteFeSb2S4
Fe Dietrichite(Zn,Fe2+,Mn2+)Al2(SO4)4 · 22H2O
Fe HematiteFe2O3
Fe JamesonitePb4FeSb6S14
Fe Limonite(Fe,O,OH,H2O)
Fe MarcasiteFeS2
Fe PyriteFeS2
Fe PyrrhotiteFe7S8
Fe RozeniteFeSO4 · 4H2O
Fe SideriteFeCO3
Fe VoltaiteK2Fe52+Fe33+Al(SO4)12 · 18H2O
Fe Wolframite(Fe2+)WO4 to (Mn2+)WO4
CuCopper
Cu BournonitePbCuSbS3
ZnZinc
Zn Bianchite(Zn,Fe)SO4 · 6H2O
Zn Dietrichite(Zn,Fe2+,Mn2+)Al2(SO4)4 · 22H2O
Zn GoslariteZnSO4 · 7H2O
Zn KyrgyzstaniteZnAl4(SO4)(OH)12·3H2O
Zn SphaleriteZnS
Zn Wurtzite(Zn,Fe)S
AsArsenic
As RealgarAs4S4
SeSelenium
Se SeleniumSe
AgSilver
Ag AcanthiteAg2S
Ag AndoriteAgPbSb3S6
Ag FizélyiteAg5Pb14Sb21S48
Ag FreieslebeniteAgPbSbS3
Ag PyrargyriteAg3SbS3
Ag StephaniteAg5SbS4
SbAntimony
Sb AndoriteAgPbSb3S6
Sb BerthieriteFeSb2S4
Sb BournonitePbCuSbS3
Sb FizélyiteAg5Pb14Sb21S48
Sb FreieslebeniteAgPbSbS3
Sb JamesonitePb4FeSb6S14
Sb KlebelsbergiteSb4O4(SO4)(OH)2
Sb PyrargyriteAg3SbS3
Sb SemseyitePb9Sb8S21
Sb StephaniteAg5SbS4
Sb StibiconiteSb3+Sb25+O6(OH)
Sb StibniteSb2S3
Sb ValentiniteSb2O3
BaBarium
Ba BaryteBaSO4
WTungsten
W ScheeliteCa(WO4)
W Wolframite(Fe2+)WO4 to (Mn2+)WO4
AuGold
Au GoldAu
PbLead
Pb AndoriteAgPbSb3S6
Pb BournonitePbCuSbS3
Pb FizélyiteAg5Pb14Sb21S48
Pb FreieslebeniteAgPbSbS3
Pb GalenaPbS
Pb JamesonitePb4FeSb6S14
Pb SemseyitePb9Sb8S21

Regional Geology

This geological map and associated information on rock units at or nearby to the coordinates given for this locality is based on relatively small scale geological maps provided by various national Geological Surveys. This does not necessarily represent the complete geology at this locality but it gives a background for the region in which it is found.

Click on geological units on the map for more information. Click here to view full-screen map on Macrostrat.org

Cenozoic
0 - 66 Ma



ID: 3184425
Cenozoic volcanic rocks

Age: Cenozoic (0 - 66 Ma)

Lithology: Felsic volcanic rocks

Reference: Chorlton, L.B. Generalized geology of the world: bedrock domains and major faults in GIS format: a small-scale world geology map with an extended geological attribute database. doi: 10.4095/223767. Geological Survey of Canada, Open File 5529. [154]

Neogene
2.588 - 23.03 Ma



ID: 3162663
Neogene andesite

Age: Neogene (2.588 - 23.03 Ma)

Lithology: Major:{andesite}, Minor{rhyolite,rhyodacite}

Reference: Asch, K. The 1:5M International Geological Map of Europe and Adjacent Areas: Development and Implementation of a GIS-enabled Concept. Geologisches Jahrbuch, SA 3. [147]

Data and map coding provided by Macrostrat.org, used under Creative Commons Attribution 4.0 License

References

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Year (asc) Year (desc) Author (A-Z) Author (Z-A)
Buzatu, A., Damian, G., & Buzgar, N. (2012) Raman And Infrared Studies Of Weathering Products From Baia Sprie Ore Deposit (Romania). Romanian Journal of Mineral Deposits, 85:7-10
Borcoș, M., Lang, B., Bostinescu, S., Mândroiu, V., Volanschi, E., 1973. Consideratii privind activitatea metalogenetica asociata andezitelor ponțiene din Muntii Gutâi (zacamintele Herja, Baia Sprie, Șuior) St. tehn. econ. seria I, nr. 9, p. 95-135.
Mariaș Francisc, 2005, Metallogeny of the Baia Mare Minig District-an approach based of the Cavnic hydrothermal system-comparison with other epithermal systems in the World. Ed Cornelius, 2005, p. 375-384.
Mineralogical journey (2009-2013) accompanied by Geol. Eng. Teodor Bâlcu, I.P.E.G. Maramures former geologist expert.


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