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Lahóca Hill, Recsk, Heves County, Hungaryi
Regional Level Types
Lahóca HillHill
RecskVillage
Heves CountyCounty
HungaryCountry

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Key
Latitude & Longitude (WGS84):
47° 57' 17'' North , 20° 5' 12'' East
Latitude & Longitude (decimal):
Locality type:
Köppen climate type:
Nearest Settlements:
PlacePopulationDistance
Mátraderecske2,232 (2006)0.6km
Recsk2,992 (2006)3.3km
Parád2,111 (2012)5.5km
Pétervására2,568 (2014)6.9km
Sirok2,068 (2012)8.8km
Name(s) in local language(s):
Lahóca-hegy


High-sulfidation epithermal Cu-Au-Ag mineralization.
Known for large enargite-luzonite ore lenses, now mined out.
Located about 2 km W of Recsk.

Select Mineral List Type

Standard Detailed Strunz Dana Chemical Elements

Mineral List


56 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:

Aikinite
Formula: PbCuBiS3
Reference: Takács, Á., Molnár, F., Turi, J., Mogessie, A. & Menzies, J. C. (2017): Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology 112, 1461-1481.
Altaite
Formula: PbTe
Reference: No reference listed
Alunite
Formula: KAl3(SO4)2(OH)6
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.
Baryte
Formula: BaSO4
Bismuthinite
Formula: Bi2S3
Reference: Takács, Á., Molnár, F., Turi, J., Mogessie, A. & Menzies, J. C. (2017): Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology 112, 1461-1481.
Bohdanowiczite
Formula: AgBiSe2
Reference: Takács, Á., Turi J., Molnár F., & Mogessie, A. (2013): Ore mineralogy of a high sulphidation type epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary - Mineral deposit research for a high-tech world. Proceedings of the 12th Biennal SGA Meetingm 12.15 August 2013, Uppsala, Swede, 888-891
Brochantite
Formula: Cu4(SO4)(OH)6
Reference: ACTA MIN. PETR. Suppl. Tomus XXXVIII., 1997
Calaverite
Formula: AuTe2
Reference: Takács, Á., Molnár, F., Turi, J., Mogessie, A. & Menzies, J. C. (2017): Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology 112, 1461-1481.
Calcite
Formula: CaCO3
Chalcanthite
Formula: CuSO4 · 5H2O
Reference: Sánoor Szakáll, Mária Foldvári, Gábor Papp, Péter Kovács-pálffy, Árpád Kovács (1997) Secondary Sulphate Minerals From Hungary. Acta Mineralogica-petrographica, Szeged, Xxxviii, Supplementum, 7-63.
Chalcopyrite
Formula: CuFeS2
Reference: Takács, Á., Molnár, F., Turi, J., Mogessie, A. & Menzies, J. C. (2017): Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology 112, 1461-1481.
'Chlorite Group'
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.
Clausthalite
Formula: PbSe
Reference: Takács, Á., Turi J., Molnár F., & Mogessie, A. (2013): Ore mineralogy of a high sulphidation type epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary - Mineral deposit research for a high-tech world. Proceedings of the 12th Biennal SGA Meetingm 12.15 August 2013, Uppsala, Swede, 888-891
Coloradoite
Formula: HgTe
Reference: No reference listed
Colusite
Formula: Cu13VAs3S16
Reference: No reference listed
Copiapite
Formula: Fe2+Fe3+4(SO4)6(OH)2 · 20H2O
Reference: Szakáll & Gatter: Hun. Min. Spec., 1993; Sánoor Szakáll, Mária Foldvári, Gábor Papp, Péter Kovács-pálffy, Árpád Kovács (1997) Secondary Sulphate Minerals From Hungary. Acta Mineralogica-petrographica, Szeged, Xxxviii, Supplementum, 7-63.
Copper
Formula: Cu
Reference: Szakáll-Gatter-Szendrei:Mineral Species of Hungary,2005
Coquimbite
Formula: Fe2-xAlx(SO4)3 · 9H2O, x ~0.5
Reference: ACTA MIN. PETR. Suppl. Tomus XXXVIII., 1997; Sánoor Szakáll, Mária Foldvári, Gábor Papp, Péter Kovács-pálffy, Árpád Kovács (1997) Secondary Sulphate Minerals From Hungary. Acta Mineralogica-petrographica, Szeged, Xxxviii, Supplementum, 7-63.
Dawsonite
Formula: NaAlCO3(OH)2
Reference: Baksa, C.; Bognar, L.; Lovas, G. (1975): Occurrence of dawsonite at Recsk, Matra Mountains, northwest Hungary. Acta Geologica Academiae Scientiarum Hungaricae 19(3-4), 281-6.
Dickite
Formula: Al2(Si2O5)(OH)4
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.
Emplectite
Formula: CuBiS2
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.
Enargite
Formula: Cu3AsS4
Reference: Sánoor Szakáll, Mária Foldvári, Gábor Papp, Péter Kovács-pálffy, Árpád Kovács (1997) Secondary Sulphate Minerals From Hungary. Acta Mineralogica-petrographica, Szeged, Xxxviii, Supplementum, 7-63.; Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.; Takács, Á., & Molnár, F. Enargite from the Lahóca high-sulphidation epithermal gold deposit at Recsk, Hungary: joint application of infrared microscopy–microthermometry and orientation imaging microscopy.; Takács, Á., Molnár, F., Turi, J., Mogessie, A. & Menzies, J. C. (2017): Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology 112, 1461-1481.
Galena
Formula: PbS
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.; Takács, Á., Molnár, F., Turi, J., Mogessie, A. & Menzies, J. C. (2017): Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology 112, 1461-1481.
Gold
Formula: Au
Reference: Szakáll-Gatter-Szendrei:Mineral Species of Hungary,2005; Kovács, L. Ó., Szebényi, G., & Kovács, G. P. COMMON AND EXTREME CONCENTRATIONS OF ORE-FORMING CHEMICAL ELEMENTS IN THE RECSK COMPLEX, HUNGARY.; Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.; Takács, Á., Molnár, F., Turi, J., Mogessie, A. & Menzies, J. C. (2017): Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology 112, 1461-1481.
Goldfieldite
Formula: (Cu102)Te4S12S
Reference: Szakáll & Gatter: Hun. Min. Spec., 1993; Takács, Á., Molnár, F., Turi, J., Mogessie, A. & Menzies, J. C. (2017): Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology 112, 1461-1481.
Gypsum
Formula: CaSO4 · 2H2O
Reference: ACTA MIN. PETR. Suppl. Tomus XXXVIII., 1997; Sánoor Szakáll, Mária Foldvári, Gábor Papp, Péter Kovács-pálffy, Árpád Kovács (1997) Secondary Sulphate Minerals From Hungary. Acta Mineralogica-petrographica, Szeged, Xxxviii, Supplementum, 7-63.; Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.
Halotrichite
Formula: FeAl2(SO4)4 · 22H2O
Reference: ACTA MIN. PETR. Suppl. Tomus XXXVIII., 1997
Hessite
Formula: Ag2Te
Reference: Takács, Á., Molnár, F., Turi, J., Mogessie, A. & Menzies, J. C. (2017): Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology 112, 1461-1481.
Jarosite
Formula: KFe3+ 3(SO4)2(OH)6
Reference: ACTA MIN. PETR. Suppl. Tomus XXXVIII., 1997; Sánoor Szakáll, Mária Foldvári, Gábor Papp, Péter Kovács-pálffy, Árpád Kovács (1997) Secondary Sulphate Minerals From Hungary. Acta Mineralogica-petrographica, Szeged, Xxxviii, Supplementum, 7-63.
Kalinite
Formula: KAl(SO4)2 · 11H2O
Reference: ACTA MIN. PETR. Suppl. Tomus XXXVIII., 1997
Kaolinite
Formula: Al2(Si2O5)(OH)4
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.
Kawazulite
Formula: Bi2Te2Se
Reference: Takács, Á., Molnár, F., Turi, J., Mogessie, A. & Menzies, J. C. (2017): Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology 112, 1461-1481.
'K Feldspar'
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.
'K Feldspar var: Adularia'
Formula: KAlSi3O8
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.
Kuramite
Formula: Cu3SnS4
Reference: No reference listed
Lautite
Formula: CuAsS
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.
'Leucoxene'
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.
Luzonite
Formula: Cu3AsS4
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.; Takács, Á., & Molnár, F. Enargite from the Lahóca high-sulphidation epithermal gold deposit at Recsk, Hungary: joint application of infrared microscopy–microthermometry and orientation imaging microscopy.; Takács, Á., Molnár, F., Turi, J., Mogessie, A. & Menzies, J. C. (2017): Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology 112, 1461-1481.
Marcasite
Formula: FeS2
Reference: Sánoor Szakáll, Mária Foldvári, Gábor Papp, Péter Kovács-pálffy, Árpád Kovács (1997) Secondary Sulphate Minerals From Hungary. Acta Mineralogica-petrographica, Szeged, Xxxviii, Supplementum, 7-63.; Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.
Mawsonite
Formula: Cu6Fe2SnS8
Reference: No reference listed
Melanterite
Formula: Fe2+(H2O)6SO4 · H2O
Reference: Sánoor Szakáll, Mária Foldvári, Gábor Papp, Péter Kovács-pálffy, Árpád Kovács (1997) Secondary Sulphate Minerals From Hungary. Acta Mineralogica-petrographica, Szeged, Xxxviii, Supplementum, 7-63.
Melonite
Formula: NiTe2
Reference: Gellert, Balazs; Buzogany, Peter; Weiszburg, Tamas (1999): Melonite (NiTe2) in the epithermal Cu-Sb-As-Au mineralization of the Lahoca Hill, Recsk, NE-Hungary. Foldtani Kozlony 128, 585-606. [Volume Date 1998]
Mendozite
Formula: NaAl(SO4)2 · 11H2O
Reference: ACTA MIN. PETR. Suppl. Tomus XXXVIII., 1997
Montmorillonite
Formula: (Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.
Muscovite
Formula: KAl2(AlSi3O10)(OH)2
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.
Muscovite var: Illite
Formula: K0.65Al2.0[Al0.65Si3.35O10](OH)2
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.
Muscovite var: Sericite
Formula: KAl2(AlSi3O10)(OH)2
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.
Petzite
Formula: Ag3AuTe2
Reference: Takács, Á., Molnár, F., Turi, J., Mogessie, A. & Menzies, J. C. (2017): Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology 112, 1461-1481.
Pyrite
Formula: FeS2
Reference: Sánoor Szakáll, Mária Foldvári, Gábor Papp, Péter Kovács-pálffy, Árpád Kovács (1997) Secondary Sulphate Minerals From Hungary. Acta Mineralogica-petrographica, Szeged, Xxxviii, Supplementum, 7-63.; Kovács, L. Ó., Szebényi, G., & Kovács, G. P. COMMON AND EXTREME CONCENTRATIONS OF ORE-FORMING CHEMICAL ELEMENTS IN THE RECSK COMPLEX, HUNGARY.; Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.; Takács, Á., Molnár, F., Turi, J., Mogessie, A. & Menzies, J. C. (2017): Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology 112, 1461-1481.
Pyrophyllite
Formula: Al2Si4O10(OH)2
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.
Quartz
Formula: SiO2
Reference: Sánoor Szakáll, Mária Foldvári, Gábor Papp, Péter Kovács-pálffy, Árpád Kovács (1997) Secondary Sulphate Minerals From Hungary. Acta Mineralogica-petrographica, Szeged, Xxxviii, Supplementum, 7-63.
Rutile
Formula: TiO2
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.
Seligmannite
Formula: PbCuAsS3
Reference: Szakáll & Gatter: Hun. Min. Spec., 1993
'Smectite Group'
Formula: A0.3D2-3[T4O10]Z2 · nH2O
Reference: Kovács, L. Ó., Szebényi, G., & Kovács, G. P. COMMON AND EXTREME CONCENTRATIONS OF ORE-FORMING CHEMICAL ELEMENTS IN THE RECSK COMPLEX, HUNGARY.
Sphalerite
Formula: ZnS
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.; Takács, Á., Molnár, F., Turi, J., Mogessie, A. & Menzies, J. C. (2017): Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology 112, 1461-1481.
Stannoidite
Formula: Cu+6Cu2+2(Fe2+,Zn)3Sn2S12
Reference: No reference listed
Sulphur
Formula: S8
Reference: Szakáll-Gatter-Szendrei:Mineral Species of Hungary,2005
Sylvanite
Formula: (Au,Ag)2Te4
Reference: No reference listed
Szomolnokite
Formula: FeSO4 · H2O
Reference: ACTA MIN. PETR. Suppl. Tomus XXXVIII., 1997; Sánoor Szakáll, Mária Foldvári, Gábor Papp, Péter Kovács-pálffy, Árpád Kovács (1997) Secondary Sulphate Minerals From Hungary. Acta Mineralogica-petrographica, Szeged, Xxxviii, Supplementum, 7-63.
Tellurium
Formula: Te
Reference: Takács, Á., Turi J., Molnár F., & Mogessie, A. (2013): Ore mineralogy of a high sulphidation type epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary - Mineral deposit research for a high-tech world. Proceedings of the 12th Biennal SGA Meetingm 12.15 August 2013, Uppsala, Swede, 888-891; Takács, Á., Molnár, F., Turi, J., Mogessie, A. & Menzies, J. C. (2017): Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology 112, 1461-1481.
'Tennantite'
Formula: Cu6[Cu4(X)2]As4S12S
Reference: Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.; Takács, Á., Molnár, F., Turi, J., Mogessie, A. & Menzies, J. C. (2017): Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology 112, 1461-1481.
'Tetrahedrite'
Formula: Cu6Cu4(X)2Sb4S13
Reference: Takács, Á., Molnár, F., Turi, J., Mogessie, A. & Menzies, J. C. (2017): Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology 112, 1461-1481.
Tiemannite
Formula: HgSe
Reference: Takács, Á., Turi J., Molnár F., & Mogessie, A. (2013): Ore mineralogy of a high sulphidation type epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary - Mineral deposit research for a high-tech world. Proceedings of the 12th Biennal SGA Meetingm 12.15 August 2013, Uppsala, Swede, 888-891
Whewellite
Formula: Ca(C2O4) · H2O
Reference: Zsivny,1925
Wittichenite
Formula: Cu3BiS3
Reference: Szakáll & Gatter: Hun. Min. Spec., 1993; Földessy, J., Hartai, É., & Kupi, L. (2008). NEW DATA ABOUT THE LAHÓCA HIGH SULFIDA-TION MINERALIZATION. Recsk and Lahóca, Geology of the Paleogene Ore Complex, Proceedings of the University of Miskolc, Series A, Mining, 73, 129-143.

List of minerals arranged by Strunz 10th Edition classification

Group 1 - Elements
Copper1.AA.05Cu
Gold1.AA.05Au
Sulphur1.CC.05S8
Tellurium1.CC.10Te
Group 2 - Sulphides and Sulfosalts
Aikinite2.HB.05aPbCuBiS3
Altaite2.CD.10PbTe
Bismuthinite2.DB.05Bi2S3
Bohdanowiczite2.JA.20AgBiSe2
Calaverite2.EA.10AuTe2
Chalcopyrite2.CB.10aCuFeS2
Clausthalite2.CD.10PbSe
Coloradoite2.CB.05aHgTe
Colusite2.CB.30Cu13VAs3S16
Emplectite2.HA.05CuBiS2
Enargite2.KA.05Cu3AsS4
Galena2.CD.10PbS
Goldfieldite2.GB.05(Cu102)Te4S12S
Hessite2.BA.60Ag2Te
Kawazulite2.DC.05Bi2Te2Se
Kuramite2.CB.15aCu3SnS4
Lautite2.CB.40CuAsS
Luzonite2.KA.10Cu3AsS4
Marcasite2.EB.10aFeS2
Mawsonite2.CB.20Cu6Fe2SnS8
Melonite2.EA.20NiTe2
Petzite2.BA.75Ag3AuTe2
Pyrite2.EB.05aFeS2
Seligmannite2.GA.50PbCuAsS3
Sphalerite2.CB.05aZnS
Stannoidite2.CB.15cCu+6Cu2+2(Fe2+,Zn)3Sn2S12
Sylvanite2.EA.05(Au,Ag)2Te4
'Tennantite'2.GB.05Cu6[Cu4(X)2]As4S12S
'Tetrahedrite'2.GB.05Cu6Cu4(X)2Sb4S13
Tiemannite2.CB.05aHgSe
Wittichenite2.GA.20Cu3BiS3
Group 4 - Oxides and Hydroxides
Quartz4.DA.05SiO2
Rutile4.DB.05TiO2
Group 5 - Nitrates and Carbonates
Calcite5.AB.05CaCO3
Dawsonite5.BB.10NaAlCO3(OH)2
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
Alunite7.BC.10KAl3(SO4)2(OH)6
Baryte7.AD.35BaSO4
Brochantite7.BB.25Cu4(SO4)(OH)6
Chalcanthite7.CB.20CuSO4 · 5H2O
Copiapite7.DB.35Fe2+Fe3+4(SO4)6(OH)2 · 20H2O
Coquimbite7.CB.55Fe2-xAlx(SO4)3 · 9H2O, x ~0.5
Gypsum7.CD.40CaSO4 · 2H2O
Halotrichite7.CB.85FeAl2(SO4)4 · 22H2O
Jarosite7.BC.10KFe3+3(SO4)2(OH)6
Kalinite7.CC.15KAl(SO4)2 · 11H2O
Melanterite7.CB.35Fe2+(H2O)6SO4 · H2O
Mendozite7.CC.15NaAl(SO4)2 · 11H2O
Szomolnokite7.CB.05FeSO4 · H2O
Group 9 - Silicates
Dickite9.ED.05Al2(Si2O5)(OH)4
Kaolinite9.ED.05Al2(Si2O5)(OH)4
Montmorillonite9.EC.40(Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O
Muscovite9.EC.15KAl2(AlSi3O10)(OH)2
var: Illite9.EC.15K0.65Al2.0[Al0.65Si3.35O10](OH)2
var: Sericite9.EC.15KAl2(AlSi3O10)(OH)2
Pyrophyllite9.EC.10Al2Si4O10(OH)2
Group 10 - Organic Compounds
Whewellite10.AB.45Ca(C2O4) · H2O
Unclassified Minerals, Rocks, etc.
'Chlorite Group'-
'K Feldspar'-
'var: Adularia'-KAlSi3O8
'Leucoxene'-
'Smectite Group'-A0.3D2-3[T4O10]Z2 · nH2O

List of minerals arranged by Dana 8th Edition classification

Group 1 - NATIVE ELEMENTS AND ALLOYS
Metals, other than the Platinum Group
Copper1.1.1.3Cu
Gold1.1.1.1Au
Semi-metals and non-metals
Sulphur1.3.5.1S8
Tellurium1.3.4.2Te
Group 2 - SULFIDES
AmBnXp, with (m+n):p = 2:1
Hessite2.4.2.1Ag2Te
Petzite2.4.3.3Ag3AuTe2
AmXp, with m:p = 1:1
Altaite2.8.1.3PbTe
Clausthalite2.8.1.2PbSe
Coloradoite2.8.2.5HgTe
Galena2.8.1.1PbS
Sphalerite2.8.2.1ZnS
Tiemannite2.8.2.4HgSe
AmBnXp, with (m+n):p = 1:1
Chalcopyrite2.9.1.1CuFeS2
Kuramite2.9.2.4Cu3SnS4
Mawsonite2.9.3.1Cu6Fe2SnS8
Stannoidite2.9.3.3Cu+6Cu2+2(Fe2+,Zn)3Sn2S12
AmBnXp, with (m+n):p = 2:3
Bismuthinite2.11.2.3Bi2S3
Kawazulite2.11.7.5Bi2Te2Se
AmBnXp, with (m+n):p = 1:2
Calaverite2.12.13.2AuTe2
Lautite2.12.8.1CuAsS
Marcasite2.12.2.1FeS2
Melonite2.12.14.1NiTe2
Pyrite2.12.1.1FeS2
Sylvanite2.12.13.3(Au,Ag)2Te4
Group 3 - SULFOSALTS
ø > 4
Colusite3.1.1.1Cu13VAs3S16
ø = 4
Enargite3.2.1.1Cu3AsS4
Luzonite3.2.2.1Cu3AsS4
3 <ø < 4
Goldfieldite3.3.6.6(Cu102)Te4S12S
'Tennantite'3.3.6.2Cu6[Cu4(X)2]As4S12S
'Tetrahedrite'3.3.6.1Cu6Cu4(X)2Sb4S13
ø = 3
Aikinite3.4.5.1PbCuBiS3
Seligmannite3.4.3.1PbCuAsS3
Wittichenite3.4.8.1Cu3BiS3
ø = 2
Bohdanowiczite3.7.1.2AgBiSe2
Emplectite3.7.5.2CuBiS2
Group 4 - SIMPLE OXIDES
AX2
Rutile4.4.1.1TiO2
Group 14 - ANHYDROUS NORMAL CARBONATES
A(XO3)
Calcite14.1.1.1CaCO3
Group 16a - ANHYDROUS CARBONATES CONTAINING HYDROXYL OR HALOGEN
Dawsonite16a.3.8.1NaAlCO3(OH)2
Group 28 - ANHYDROUS ACID AND NORMAL SULFATES
AXO4
Baryte28.3.1.1BaSO4
Group 29 - HYDRATED ACID AND NORMAL SULFATES
AB(XO4)2·xH2O
Kalinite29.5.4.2KAl(SO4)2 · 11H2O
Mendozite29.5.4.1NaAl(SO4)2 · 11H2O
AXO4·xH2O
Chalcanthite29.6.7.1CuSO4 · 5H2O
Gypsum29.6.3.1CaSO4 · 2H2O
Melanterite29.6.10.1Fe2+(H2O)6SO4 · H2O
Szomolnokite29.6.2.2FeSO4 · H2O
AB2(XO4)4·H2O
Halotrichite29.7.3.2FeAl2(SO4)4 · 22H2O
A2(XO4)3·H2O
Coquimbite29.8.3.1Fe2-xAlx(SO4)3 · 9H2O, x ~0.5
Group 30 - ANHYDROUS SULFATES CONTAINING HYDROXYL OR HALOGEN
(AB)m(XO4)pZq, where m:p>2:1
Brochantite30.1.3.1Cu4(SO4)(OH)6
(AB)2(XO4)Zq
Alunite30.2.4.1KAl3(SO4)2(OH)6
Jarosite30.2.5.1KFe3+ 3(SO4)2(OH)6
Group 31 - HYDRATED SULFATES CONTAINING HYDROXYL OR HALOGEN
Miscellaneous
Copiapite31.10.5.1Fe2+Fe3+4(SO4)6(OH)2 · 20H2O
Group 50 - ORGANIC COMPOUNDS
Oxalates
Whewellite50.1.1.1Ca(C2O4) · H2O
Group 71 - PHYLLOSILICATES Sheets of Six-Membered Rings
Sheets of 6-membered rings with 1:1 layers
Dickite71.1.1.1Al2(Si2O5)(OH)4
Sheets of 6-membered rings with 2:1 layers
Muscovite71.2.2a.1KAl2(AlSi3O10)(OH)2
var: Illite71.2.2d.2K0.65Al2.0[Al0.65Si3.35O10](OH)2
Pyrophyllite71.2.1.1Al2Si4O10(OH)2
Sheets of 6-membered rings with 2:1 clays
Montmorillonite71.3.1a.2(Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O
Group 75 - TECTOSILICATES Si Tetrahedral Frameworks
Si Tetrahedral Frameworks - SiO2 with [4] coordinated Si
Quartz75.1.3.1SiO2
Unclassified Minerals, Mixtures, etc.
'Chlorite Group'-
'K Feldspar'-
'var: Adularia'-KAlSi3O8
Kaolinite-Al2(Si2O5)(OH)4
'Leucoxene'-
Muscovite
var: Sericite
-KAl2(AlSi3O10)(OH)2
'Smectite Group'-A0.3D2-3[T4O10]Z2 · nH2O

List of minerals for each chemical element

HHydrogen
H DickiteAl2(Si2O5)(OH)4
H KaoliniteAl2(Si2O5)(OH)4
H Montmorillonite(Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O
H DawsoniteNaAlCO3(OH)2
H ChalcanthiteCuSO4 · 5H2O
H MendoziteNaAl(SO4)2 · 11H2O
H CopiapiteFe2+Fe43+(SO4)6(OH)2 · 20H2O
H BrochantiteCu4(SO4)(OH)6
H CoquimbiteFe2-xAlx(SO4)3 · 9H2O, x ~0.5
H GypsumCaSO4 · 2H2O
H HalotrichiteFeAl2(SO4)4 · 22H2O
H JarositeKFe3+ 3(SO4)2(OH)6
H KaliniteKAl(SO4)2 · 11H2O
H SzomolnokiteFeSO4 · H2O
H WhewelliteCa(C2O4) · H2O
H MelanteriteFe2+(H2O)6SO4 · H2O
H Smectite GroupA0.3D2-3[T4O10]Z2 · nH2O
H PyrophylliteAl2Si4O10(OH)2
H AluniteKAl3(SO4)2(OH)6
H Muscovite (var: Illite)K0.65Al2.0[Al0.65Si3.35O10](OH)2
H Muscovite (var: Sericite)KAl2(AlSi3O10)(OH)2
H MuscoviteKAl2(AlSi3O10)(OH)2
CCarbon
C CalciteCaCO3
C DawsoniteNaAlCO3(OH)2
C WhewelliteCa(C2O4) · H2O
OOxygen
O DickiteAl2(Si2O5)(OH)4
O KaoliniteAl2(Si2O5)(OH)4
O Montmorillonite(Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O
O CalciteCaCO3
O RutileTiO2
O BaryteBaSO4
O DawsoniteNaAlCO3(OH)2
O ChalcanthiteCuSO4 · 5H2O
O QuartzSiO2
O MendoziteNaAl(SO4)2 · 11H2O
O CopiapiteFe2+Fe43+(SO4)6(OH)2 · 20H2O
O BrochantiteCu4(SO4)(OH)6
O CoquimbiteFe2-xAlx(SO4)3 · 9H2O, x ~0.5
O GypsumCaSO4 · 2H2O
O HalotrichiteFeAl2(SO4)4 · 22H2O
O JarositeKFe3+ 3(SO4)2(OH)6
O KaliniteKAl(SO4)2 · 11H2O
O SzomolnokiteFeSO4 · H2O
O WhewelliteCa(C2O4) · H2O
O MelanteriteFe2+(H2O)6SO4 · H2O
O Smectite GroupA0.3D2-3[T4O10]Z2 · nH2O
O PyrophylliteAl2Si4O10(OH)2
O K Feldspar (var: Adularia)KAlSi3O8
O AluniteKAl3(SO4)2(OH)6
O Muscovite (var: Illite)K0.65Al2.0[Al0.65Si3.35O10](OH)2
O Muscovite (var: Sericite)KAl2(AlSi3O10)(OH)2
O MuscoviteKAl2(AlSi3O10)(OH)2
NaSodium
Na Montmorillonite(Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O
Na DawsoniteNaAlCO3(OH)2
Na MendoziteNaAl(SO4)2 · 11H2O
MgMagnesium
Mg Montmorillonite(Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O
AlAluminium
Al DickiteAl2(Si2O5)(OH)4
Al KaoliniteAl2(Si2O5)(OH)4
Al Montmorillonite(Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O
Al DawsoniteNaAlCO3(OH)2
Al MendoziteNaAl(SO4)2 · 11H2O
Al HalotrichiteFeAl2(SO4)4 · 22H2O
Al KaliniteKAl(SO4)2 · 11H2O
Al PyrophylliteAl2Si4O10(OH)2
Al K Feldspar (var: Adularia)KAlSi3O8
Al AluniteKAl3(SO4)2(OH)6
Al Muscovite (var: Illite)K0.65Al2.0[Al0.65Si3.35O10](OH)2
Al Muscovite (var: Sericite)KAl2(AlSi3O10)(OH)2
Al MuscoviteKAl2(AlSi3O10)(OH)2
SiSilicon
Si DickiteAl2(Si2O5)(OH)4
Si KaoliniteAl2(Si2O5)(OH)4
Si Montmorillonite(Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O
Si QuartzSiO2
Si PyrophylliteAl2Si4O10(OH)2
Si K Feldspar (var: Adularia)KAlSi3O8
Si Muscovite (var: Illite)K0.65Al2.0[Al0.65Si3.35O10](OH)2
Si Muscovite (var: Sericite)KAl2(AlSi3O10)(OH)2
Si MuscoviteKAl2(AlSi3O10)(OH)2
SSulfur
S ColusiteCu13VAs3S16
S KuramiteCu3SnS4
S MawsoniteCu6Fe2SnS8
S StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
S PyriteFeS2
S EnargiteCu3AsS4
S LuzoniteCu3AsS4
S TetrahedriteCu6Cu4(X)2Sb4S13
S BaryteBaSO4
S ChalcanthiteCuSO4 · 5H2O
S Goldfieldite(Cu102)Te4S12S
S SeligmannitePbCuAsS3
S MendoziteNaAl(SO4)2 · 11H2O
S CopiapiteFe2+Fe43+(SO4)6(OH)2 · 20H2O
S WitticheniteCu3BiS3
S BrochantiteCu4(SO4)(OH)6
S CoquimbiteFe2-xAlx(SO4)3 · 9H2O, x ~0.5
S GypsumCaSO4 · 2H2O
S HalotrichiteFeAl2(SO4)4 · 22H2O
S JarositeKFe3+ 3(SO4)2(OH)6
S KaliniteKAl(SO4)2 · 11H2O
S SzomolnokiteFeSO4 · H2O
S SulphurS8
S MarcasiteFeS2
S MelanteriteFe2+(H2O)6SO4 · H2O
S LautiteCuAsS
S AluniteKAl3(SO4)2(OH)6
S GalenaPbS
S SphaleriteZnS
S TennantiteCu6[Cu4(X)2]As4S12S
S EmplectiteCuBiS2
S ChalcopyriteCuFeS2
S BismuthiniteBi2S3
S AikinitePbCuBiS3
KPotassium
K JarositeKFe3+ 3(SO4)2(OH)6
K KaliniteKAl(SO4)2 · 11H2O
K K Feldspar (var: Adularia)KAlSi3O8
K AluniteKAl3(SO4)2(OH)6
K Muscovite (var: Illite)K0.65Al2.0[Al0.65Si3.35O10](OH)2
K Muscovite (var: Sericite)KAl2(AlSi3O10)(OH)2
K MuscoviteKAl2(AlSi3O10)(OH)2
CaCalcium
Ca Montmorillonite(Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O
Ca CalciteCaCO3
Ca GypsumCaSO4 · 2H2O
Ca WhewelliteCa(C2O4) · H2O
TiTitanium
Ti RutileTiO2
VVanadium
V ColusiteCu13VAs3S16
FeIron
Fe MawsoniteCu6Fe2SnS8
Fe StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
Fe PyriteFeS2
Fe CopiapiteFe2+Fe43+(SO4)6(OH)2 · 20H2O
Fe CoquimbiteFe2-xAlx(SO4)3 · 9H2O, x ~0.5
Fe HalotrichiteFeAl2(SO4)4 · 22H2O
Fe JarositeKFe3+ 3(SO4)2(OH)6
Fe SzomolnokiteFeSO4 · H2O
Fe MarcasiteFeS2
Fe MelanteriteFe2+(H2O)6SO4 · H2O
Fe ChalcopyriteCuFeS2
NiNickel
Ni MeloniteNiTe2
CuCopper
Cu ColusiteCu13VAs3S16
Cu KuramiteCu3SnS4
Cu MawsoniteCu6Fe2SnS8
Cu StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
Cu EnargiteCu3AsS4
Cu LuzoniteCu3AsS4
Cu TetrahedriteCu6Cu4(X)2Sb4S13
Cu ChalcanthiteCuSO4 · 5H2O
Cu Goldfieldite(Cu102)Te4S12S
Cu SeligmannitePbCuAsS3
Cu WitticheniteCu3BiS3
Cu BrochantiteCu4(SO4)(OH)6
Cu CopperCu
Cu LautiteCuAsS
Cu TennantiteCu6[Cu4(X)2]As4S12S
Cu EmplectiteCuBiS2
Cu ChalcopyriteCuFeS2
Cu AikinitePbCuBiS3
ZnZinc
Zn StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
Zn SphaleriteZnS
AsArsenic
As ColusiteCu13VAs3S16
As EnargiteCu3AsS4
As LuzoniteCu3AsS4
As SeligmannitePbCuAsS3
As LautiteCuAsS
As TennantiteCu6[Cu4(X)2]As4S12S
SeSelenium
Se BohdanowicziteAgBiSe2
Se TiemanniteHgSe
Se ClausthalitePbSe
Se KawazuliteBi2Te2Se
AgSilver
Ag PetziteAg3AuTe2
Ag Sylvanite(Au,Ag)2Te4
Ag BohdanowicziteAgBiSe2
Ag HessiteAg2Te
SnTin
Sn KuramiteCu3SnS4
Sn MawsoniteCu6Fe2SnS8
Sn StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
SbAntimony
Sb TetrahedriteCu6Cu4(X)2Sb4S13
TeTellurium
Te AltaitePbTe
Te ColoradoiteHgTe
Te MeloniteNiTe2
Te PetziteAg3AuTe2
Te Sylvanite(Au,Ag)2Te4
Te Goldfieldite(Cu102)Te4S12S
Te TelluriumTe
Te KawazuliteBi2Te2Se
Te CalaveriteAuTe2
Te HessiteAg2Te
BaBarium
Ba BaryteBaSO4
AuGold
Au PetziteAg3AuTe2
Au Sylvanite(Au,Ag)2Te4
Au GoldAu
Au CalaveriteAuTe2
HgMercury
Hg ColoradoiteHgTe
Hg TiemanniteHgSe
PbLead
Pb AltaitePbTe
Pb SeligmannitePbCuAsS3
Pb GalenaPbS
Pb ClausthalitePbSe
Pb AikinitePbCuBiS3
BiBismuth
Bi WitticheniteCu3BiS3
Bi EmplectiteCuBiS2
Bi BohdanowicziteAgBiSe2
Bi BismuthiniteBi2S3
Bi KawazuliteBi2Te2Se
Bi AikinitePbCuBiS3

References

Sort by

Year (asc) Year (desc) Author (A-Z) Author (Z-A)
Huber, S., Huber, P. (1979) Asvanyok Magyarorszagon - Mineralien aus Ungarn. Lapis, 4(11), 21-24.
Seres-Hartai, Eva, Foldessy, Janos (2001) Native gold in the epithermal HS mineralization of the Recsk ore complex. Acta Geologica Hungarica, 44, 463-473.
Földessy, J., Szebényi, G. (2008) The mineralizations of the Recsk Deeps and Lahóca—short geological overview. Recsk and Lahóca. Geology of the Paleogene ore complex: Publications of the University of Miskolc, ser. A, Mining, 73, 85-98.
Szakáll, S., Földessy, J., Less, G., Fűköh, Dávid, A., Németh, N., Hadobás, S., Piros, O. (2010) Mineralizations in Mesozoic-Tertiary volcanic and sedimentary units of NE Hungary (with a tour in the Baradla Cave, Aggtelek). Acta Mineralogica-Petrographica Field Guide Series, 14, 1-32.
Takács, Ágnes, Molnár, Ferenc (2011) Enargite from the Lahóca high-sulphidation epithermal gold deposit at Recsk, Hungary: joint application of infrared microscopy – microthermometry and orientation imaging microscopy. European Current Research on Fluid Inclusions (ECROFI-XXI) Montanuniversität Leoben, Austria, 9–11 August, 2011. Abstracts, 190.
Takács, Á., Molnár, F., Turi, J., Mogessie, A., Menzies, J.C. (2017) Ore mineralogy and fluid inclusion constraints on the temporal and spatial evolution of a high-sulfidation epithermal Cu-Au-Ag deposit in the Recsk Ore Complex, Hungary. Economic Geology, 112, 1461-1481.

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Other Regions, Features and Areas containg this locality

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