Lahóca Hill, Recsk, Heves County, Hungaryi
Regional Level Types | |
---|---|
Lahóca Hill | Hill |
Recsk | Village |
Heves County | County |
Hungary | Country |
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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:
Place | Population | Distance |
---|---|---|
Mátraderecske | 2,232 (2006) | 0.6km |
Recsk | 2,992 (2006) | 3.3km |
Parád | 2,111 (2012) | 5.5km |
Pétervására | 2,568 (2014) | 6.9km |
Sirok | 2,068 (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.
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Standard Detailed Strunz Dana Chemical ElementsMineral 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 DiagramDetailed 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: (Cu10◻2)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 | |||
---|---|---|---|
ⓘ | Copper | 1.AA.05 | Cu |
ⓘ | Gold | 1.AA.05 | Au |
ⓘ | Sulphur | 1.CC.05 | S8 |
ⓘ | Tellurium | 1.CC.10 | Te |
Group 2 - Sulphides and Sulfosalts | |||
ⓘ | Aikinite | 2.HB.05a | PbCuBiS3 |
ⓘ | Altaite | 2.CD.10 | PbTe |
ⓘ | Bismuthinite | 2.DB.05 | Bi2S3 |
ⓘ | Bohdanowiczite | 2.JA.20 | AgBiSe2 |
ⓘ | Calaverite | 2.EA.10 | AuTe2 |
ⓘ | Chalcopyrite | 2.CB.10a | CuFeS2 |
ⓘ | Clausthalite | 2.CD.10 | PbSe |
ⓘ | Coloradoite | 2.CB.05a | HgTe |
ⓘ | Colusite | 2.CB.30 | Cu13VAs3S16 |
ⓘ | Emplectite | 2.HA.05 | CuBiS2 |
ⓘ | Enargite | 2.KA.05 | Cu3AsS4 |
ⓘ | Galena | 2.CD.10 | PbS |
ⓘ | Goldfieldite | 2.GB.05 | (Cu10◻2)Te4S12S |
ⓘ | Hessite | 2.BA.60 | Ag2Te |
ⓘ | Kawazulite | 2.DC.05 | Bi2Te2Se |
ⓘ | Kuramite | 2.CB.15a | Cu3SnS4 |
ⓘ | Lautite | 2.CB.40 | CuAsS |
ⓘ | Luzonite | 2.KA.10 | Cu3AsS4 |
ⓘ | Marcasite | 2.EB.10a | FeS2 |
ⓘ | Mawsonite | 2.CB.20 | Cu6Fe2SnS8 |
ⓘ | Melonite | 2.EA.20 | NiTe2 |
ⓘ | Petzite | 2.BA.75 | Ag3AuTe2 |
ⓘ | Pyrite | 2.EB.05a | FeS2 |
ⓘ | Seligmannite | 2.GA.50 | PbCuAsS3 |
ⓘ | Sphalerite | 2.CB.05a | ZnS |
ⓘ | Stannoidite | 2.CB.15c | Cu+6Cu2+2(Fe2+,Zn)3Sn2S12 |
ⓘ | Sylvanite | 2.EA.05 | (Au,Ag)2Te4 |
ⓘ | 'Tennantite' | 2.GB.05 | Cu6[Cu4(X)2]As4S12S |
ⓘ | 'Tetrahedrite' | 2.GB.05 | Cu6Cu4(X)2Sb4S13 |
ⓘ | Tiemannite | 2.CB.05a | HgSe |
ⓘ | Wittichenite | 2.GA.20 | Cu3BiS3 |
Group 4 - Oxides and Hydroxides | |||
ⓘ | Quartz | 4.DA.05 | SiO2 |
ⓘ | Rutile | 4.DB.05 | TiO2 |
Group 5 - Nitrates and Carbonates | |||
ⓘ | Calcite | 5.AB.05 | CaCO3 |
ⓘ | Dawsonite | 5.BB.10 | NaAlCO3(OH)2 |
Group 7 - Sulphates, Chromates, Molybdates and Tungstates | |||
ⓘ | Alunite | 7.BC.10 | KAl3(SO4)2(OH)6 |
ⓘ | Baryte | 7.AD.35 | BaSO4 |
ⓘ | Brochantite | 7.BB.25 | Cu4(SO4)(OH)6 |
ⓘ | Chalcanthite | 7.CB.20 | CuSO4 · 5H2O |
ⓘ | Copiapite | 7.DB.35 | Fe2+Fe3+4(SO4)6(OH)2 · 20H2O |
ⓘ | Coquimbite | 7.CB.55 | Fe2-xAlx(SO4)3 · 9H2O, x ~0.5 |
ⓘ | Gypsum | 7.CD.40 | CaSO4 · 2H2O |
ⓘ | Halotrichite | 7.CB.85 | FeAl2(SO4)4 · 22H2O |
ⓘ | Jarosite | 7.BC.10 | KFe3+3(SO4)2(OH)6 |
ⓘ | Kalinite | 7.CC.15 | KAl(SO4)2 · 11H2O |
ⓘ | Melanterite | 7.CB.35 | Fe2+(H2O)6SO4 · H2O |
ⓘ | Mendozite | 7.CC.15 | NaAl(SO4)2 · 11H2O |
ⓘ | Szomolnokite | 7.CB.05 | FeSO4 · H2O |
Group 9 - Silicates | |||
ⓘ | Dickite | 9.ED.05 | Al2(Si2O5)(OH)4 |
ⓘ | Kaolinite | 9.ED.05 | Al2(Si2O5)(OH)4 |
ⓘ | Montmorillonite | 9.EC.40 | (Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O |
ⓘ | Muscovite | 9.EC.15 | KAl2(AlSi3O10)(OH)2 |
ⓘ | var: Illite | 9.EC.15 | K0.65Al2.0[Al0.65Si3.35O10](OH)2 |
ⓘ | var: Sericite | 9.EC.15 | KAl2(AlSi3O10)(OH)2 |
ⓘ | Pyrophyllite | 9.EC.10 | Al2Si4O10(OH)2 |
Group 10 - Organic Compounds | |||
ⓘ | Whewellite | 10.AB.45 | Ca(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 | |||
ⓘ | Copper | 1.1.1.3 | Cu |
ⓘ | Gold | 1.1.1.1 | Au |
Semi-metals and non-metals | |||
ⓘ | Sulphur | 1.3.5.1 | S8 |
ⓘ | Tellurium | 1.3.4.2 | Te |
Group 2 - SULFIDES | |||
AmBnXp, with (m+n):p = 2:1 | |||
ⓘ | Hessite | 2.4.2.1 | Ag2Te |
ⓘ | Petzite | 2.4.3.3 | Ag3AuTe2 |
AmXp, with m:p = 1:1 | |||
ⓘ | Altaite | 2.8.1.3 | PbTe |
ⓘ | Clausthalite | 2.8.1.2 | PbSe |
ⓘ | Coloradoite | 2.8.2.5 | HgTe |
ⓘ | Galena | 2.8.1.1 | PbS |
ⓘ | Sphalerite | 2.8.2.1 | ZnS |
ⓘ | Tiemannite | 2.8.2.4 | HgSe |
AmBnXp, with (m+n):p = 1:1 | |||
ⓘ | Chalcopyrite | 2.9.1.1 | CuFeS2 |
ⓘ | Kuramite | 2.9.2.4 | Cu3SnS4 |
ⓘ | Mawsonite | 2.9.3.1 | Cu6Fe2SnS8 |
ⓘ | Stannoidite | 2.9.3.3 | Cu+6Cu2+2(Fe2+,Zn)3Sn2S12 |
AmBnXp, with (m+n):p = 2:3 | |||
ⓘ | Bismuthinite | 2.11.2.3 | Bi2S3 |
ⓘ | Kawazulite | 2.11.7.5 | Bi2Te2Se |
AmBnXp, with (m+n):p = 1:2 | |||
ⓘ | Calaverite | 2.12.13.2 | AuTe2 |
ⓘ | Lautite | 2.12.8.1 | CuAsS |
ⓘ | Marcasite | 2.12.2.1 | FeS2 |
ⓘ | Melonite | 2.12.14.1 | NiTe2 |
ⓘ | Pyrite | 2.12.1.1 | FeS2 |
ⓘ | Sylvanite | 2.12.13.3 | (Au,Ag)2Te4 |
Group 3 - SULFOSALTS | |||
ø > 4 | |||
ⓘ | Colusite | 3.1.1.1 | Cu13VAs3S16 |
ø = 4 | |||
ⓘ | Enargite | 3.2.1.1 | Cu3AsS4 |
ⓘ | Luzonite | 3.2.2.1 | Cu3AsS4 |
3 <ø < 4 | |||
ⓘ | Goldfieldite | 3.3.6.6 | (Cu10◻2)Te4S12S |
ⓘ | 'Tennantite' | 3.3.6.2 | Cu6[Cu4(X)2]As4S12S |
ⓘ | 'Tetrahedrite' | 3.3.6.1 | Cu6Cu4(X)2Sb4S13 |
ø = 3 | |||
ⓘ | Aikinite | 3.4.5.1 | PbCuBiS3 |
ⓘ | Seligmannite | 3.4.3.1 | PbCuAsS3 |
ⓘ | Wittichenite | 3.4.8.1 | Cu3BiS3 |
ø = 2 | |||
ⓘ | Bohdanowiczite | 3.7.1.2 | AgBiSe2 |
ⓘ | Emplectite | 3.7.5.2 | CuBiS2 |
Group 4 - SIMPLE OXIDES | |||
AX2 | |||
ⓘ | Rutile | 4.4.1.1 | TiO2 |
Group 14 - ANHYDROUS NORMAL CARBONATES | |||
A(XO3) | |||
ⓘ | Calcite | 14.1.1.1 | CaCO3 |
Group 16a - ANHYDROUS CARBONATES CONTAINING HYDROXYL OR HALOGEN | |||
ⓘ | Dawsonite | 16a.3.8.1 | NaAlCO3(OH)2 |
Group 28 - ANHYDROUS ACID AND NORMAL SULFATES | |||
AXO4 | |||
ⓘ | Baryte | 28.3.1.1 | BaSO4 |
Group 29 - HYDRATED ACID AND NORMAL SULFATES | |||
AB(XO4)2·xH2O | |||
ⓘ | Kalinite | 29.5.4.2 | KAl(SO4)2 · 11H2O |
ⓘ | Mendozite | 29.5.4.1 | NaAl(SO4)2 · 11H2O |
AXO4·xH2O | |||
ⓘ | Chalcanthite | 29.6.7.1 | CuSO4 · 5H2O |
ⓘ | Gypsum | 29.6.3.1 | CaSO4 · 2H2O |
ⓘ | Melanterite | 29.6.10.1 | Fe2+(H2O)6SO4 · H2O |
ⓘ | Szomolnokite | 29.6.2.2 | FeSO4 · H2O |
AB2(XO4)4·H2O | |||
ⓘ | Halotrichite | 29.7.3.2 | FeAl2(SO4)4 · 22H2O |
A2(XO4)3·H2O | |||
ⓘ | Coquimbite | 29.8.3.1 | Fe2-xAlx(SO4)3 · 9H2O, x ~0.5 |
Group 30 - ANHYDROUS SULFATES CONTAINING HYDROXYL OR HALOGEN | |||
(AB)m(XO4)pZq, where m:p>2:1 | |||
ⓘ | Brochantite | 30.1.3.1 | Cu4(SO4)(OH)6 |
(AB)2(XO4)Zq | |||
ⓘ | Alunite | 30.2.4.1 | KAl3(SO4)2(OH)6 |
ⓘ | Jarosite | 30.2.5.1 | KFe3+ 3(SO4)2(OH)6 |
Group 31 - HYDRATED SULFATES CONTAINING HYDROXYL OR HALOGEN | |||
Miscellaneous | |||
ⓘ | Copiapite | 31.10.5.1 | Fe2+Fe3+4(SO4)6(OH)2 · 20H2O |
Group 50 - ORGANIC COMPOUNDS | |||
Oxalates | |||
ⓘ | Whewellite | 50.1.1.1 | Ca(C2O4) · H2O |
Group 71 - PHYLLOSILICATES Sheets of Six-Membered Rings | |||
Sheets of 6-membered rings with 1:1 layers | |||
ⓘ | Dickite | 71.1.1.1 | Al2(Si2O5)(OH)4 |
Sheets of 6-membered rings with 2:1 layers | |||
ⓘ | Muscovite | 71.2.2a.1 | KAl2(AlSi3O10)(OH)2 |
ⓘ | var: Illite | 71.2.2d.2 | K0.65Al2.0[Al0.65Si3.35O10](OH)2 |
ⓘ | Pyrophyllite | 71.2.1.1 | Al2Si4O10(OH)2 |
Sheets of 6-membered rings with 2:1 clays | |||
ⓘ | Montmorillonite | 71.3.1a.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 | |||
ⓘ | Quartz | 75.1.3.1 | SiO2 |
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
H | Hydrogen | |
---|---|---|
H | ⓘ Dickite | Al2(Si2O5)(OH)4 |
H | ⓘ Kaolinite | Al2(Si2O5)(OH)4 |
H | ⓘ Montmorillonite | (Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O |
H | ⓘ Dawsonite | NaAlCO3(OH)2 |
H | ⓘ Chalcanthite | CuSO4 · 5H2O |
H | ⓘ Mendozite | NaAl(SO4)2 · 11H2O |
H | ⓘ Copiapite | Fe2+Fe43+(SO4)6(OH)2 · 20H2O |
H | ⓘ Brochantite | Cu4(SO4)(OH)6 |
H | ⓘ Coquimbite | Fe2-xAlx(SO4)3 · 9H2O, x ~0.5 |
H | ⓘ Gypsum | CaSO4 · 2H2O |
H | ⓘ Halotrichite | FeAl2(SO4)4 · 22H2O |
H | ⓘ Jarosite | KFe3+ 3(SO4)2(OH)6 |
H | ⓘ Kalinite | KAl(SO4)2 · 11H2O |
H | ⓘ Szomolnokite | FeSO4 · H2O |
H | ⓘ Whewellite | Ca(C2O4) · H2O |
H | ⓘ Melanterite | Fe2+(H2O)6SO4 · H2O |
H | ⓘ Smectite Group | A0.3D2-3[T4O10]Z2 · nH2O |
H | ⓘ Pyrophyllite | Al2Si4O10(OH)2 |
H | ⓘ Alunite | KAl3(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 | ⓘ Muscovite | KAl2(AlSi3O10)(OH)2 |
C | Carbon | |
C | ⓘ Calcite | CaCO3 |
C | ⓘ Dawsonite | NaAlCO3(OH)2 |
C | ⓘ Whewellite | Ca(C2O4) · H2O |
O | Oxygen | |
O | ⓘ Dickite | Al2(Si2O5)(OH)4 |
O | ⓘ Kaolinite | Al2(Si2O5)(OH)4 |
O | ⓘ Montmorillonite | (Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O |
O | ⓘ Calcite | CaCO3 |
O | ⓘ Rutile | TiO2 |
O | ⓘ Baryte | BaSO4 |
O | ⓘ Dawsonite | NaAlCO3(OH)2 |
O | ⓘ Chalcanthite | CuSO4 · 5H2O |
O | ⓘ Quartz | SiO2 |
O | ⓘ Mendozite | NaAl(SO4)2 · 11H2O |
O | ⓘ Copiapite | Fe2+Fe43+(SO4)6(OH)2 · 20H2O |
O | ⓘ Brochantite | Cu4(SO4)(OH)6 |
O | ⓘ Coquimbite | Fe2-xAlx(SO4)3 · 9H2O, x ~0.5 |
O | ⓘ Gypsum | CaSO4 · 2H2O |
O | ⓘ Halotrichite | FeAl2(SO4)4 · 22H2O |
O | ⓘ Jarosite | KFe3+ 3(SO4)2(OH)6 |
O | ⓘ Kalinite | KAl(SO4)2 · 11H2O |
O | ⓘ Szomolnokite | FeSO4 · H2O |
O | ⓘ Whewellite | Ca(C2O4) · H2O |
O | ⓘ Melanterite | Fe2+(H2O)6SO4 · H2O |
O | ⓘ Smectite Group | A0.3D2-3[T4O10]Z2 · nH2O |
O | ⓘ Pyrophyllite | Al2Si4O10(OH)2 |
O | ⓘ K Feldspar (var: Adularia) | KAlSi3O8 |
O | ⓘ Alunite | KAl3(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 | ⓘ Muscovite | KAl2(AlSi3O10)(OH)2 |
Na | Sodium | |
Na | ⓘ Montmorillonite | (Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O |
Na | ⓘ Dawsonite | NaAlCO3(OH)2 |
Na | ⓘ Mendozite | NaAl(SO4)2 · 11H2O |
Mg | Magnesium | |
Mg | ⓘ Montmorillonite | (Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O |
Al | Aluminium | |
Al | ⓘ Dickite | Al2(Si2O5)(OH)4 |
Al | ⓘ Kaolinite | Al2(Si2O5)(OH)4 |
Al | ⓘ Montmorillonite | (Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O |
Al | ⓘ Dawsonite | NaAlCO3(OH)2 |
Al | ⓘ Mendozite | NaAl(SO4)2 · 11H2O |
Al | ⓘ Halotrichite | FeAl2(SO4)4 · 22H2O |
Al | ⓘ Kalinite | KAl(SO4)2 · 11H2O |
Al | ⓘ Pyrophyllite | Al2Si4O10(OH)2 |
Al | ⓘ K Feldspar (var: Adularia) | KAlSi3O8 |
Al | ⓘ Alunite | KAl3(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 | ⓘ Muscovite | KAl2(AlSi3O10)(OH)2 |
Si | Silicon | |
Si | ⓘ Dickite | Al2(Si2O5)(OH)4 |
Si | ⓘ Kaolinite | Al2(Si2O5)(OH)4 |
Si | ⓘ Montmorillonite | (Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O |
Si | ⓘ Quartz | SiO2 |
Si | ⓘ Pyrophyllite | Al2Si4O10(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 | ⓘ Muscovite | KAl2(AlSi3O10)(OH)2 |
S | Sulfur | |
S | ⓘ Colusite | Cu13VAs3S16 |
S | ⓘ Kuramite | Cu3SnS4 |
S | ⓘ Mawsonite | Cu6Fe2SnS8 |
S | ⓘ Stannoidite | Cu6+Cu22+(Fe2+,Zn)3Sn2S12 |
S | ⓘ Pyrite | FeS2 |
S | ⓘ Enargite | Cu3AsS4 |
S | ⓘ Luzonite | Cu3AsS4 |
S | ⓘ Tetrahedrite | Cu6Cu4(X)2Sb4S13 |
S | ⓘ Baryte | BaSO4 |
S | ⓘ Chalcanthite | CuSO4 · 5H2O |
S | ⓘ Goldfieldite | (Cu10◻2)Te4S12S |
S | ⓘ Seligmannite | PbCuAsS3 |
S | ⓘ Mendozite | NaAl(SO4)2 · 11H2O |
S | ⓘ Copiapite | Fe2+Fe43+(SO4)6(OH)2 · 20H2O |
S | ⓘ Wittichenite | Cu3BiS3 |
S | ⓘ Brochantite | Cu4(SO4)(OH)6 |
S | ⓘ Coquimbite | Fe2-xAlx(SO4)3 · 9H2O, x ~0.5 |
S | ⓘ Gypsum | CaSO4 · 2H2O |
S | ⓘ Halotrichite | FeAl2(SO4)4 · 22H2O |
S | ⓘ Jarosite | KFe3+ 3(SO4)2(OH)6 |
S | ⓘ Kalinite | KAl(SO4)2 · 11H2O |
S | ⓘ Szomolnokite | FeSO4 · H2O |
S | ⓘ Sulphur | S8 |
S | ⓘ Marcasite | FeS2 |
S | ⓘ Melanterite | Fe2+(H2O)6SO4 · H2O |
S | ⓘ Lautite | CuAsS |
S | ⓘ Alunite | KAl3(SO4)2(OH)6 |
S | ⓘ Galena | PbS |
S | ⓘ Sphalerite | ZnS |
S | ⓘ Tennantite | Cu6[Cu4(X)2]As4S12S |
S | ⓘ Emplectite | CuBiS2 |
S | ⓘ Chalcopyrite | CuFeS2 |
S | ⓘ Bismuthinite | Bi2S3 |
S | ⓘ Aikinite | PbCuBiS3 |
K | Potassium | |
K | ⓘ Jarosite | KFe3+ 3(SO4)2(OH)6 |
K | ⓘ Kalinite | KAl(SO4)2 · 11H2O |
K | ⓘ K Feldspar (var: Adularia) | KAlSi3O8 |
K | ⓘ Alunite | KAl3(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 | ⓘ Muscovite | KAl2(AlSi3O10)(OH)2 |
Ca | Calcium | |
Ca | ⓘ Montmorillonite | (Na,Ca)0.33(Al,Mg)2(Si4O10)(OH)2 · nH2O |
Ca | ⓘ Calcite | CaCO3 |
Ca | ⓘ Gypsum | CaSO4 · 2H2O |
Ca | ⓘ Whewellite | Ca(C2O4) · H2O |
Ti | Titanium | |
Ti | ⓘ Rutile | TiO2 |
V | Vanadium | |
V | ⓘ Colusite | Cu13VAs3S16 |
Fe | Iron | |
Fe | ⓘ Mawsonite | Cu6Fe2SnS8 |
Fe | ⓘ Stannoidite | Cu6+Cu22+(Fe2+,Zn)3Sn2S12 |
Fe | ⓘ Pyrite | FeS2 |
Fe | ⓘ Copiapite | Fe2+Fe43+(SO4)6(OH)2 · 20H2O |
Fe | ⓘ Coquimbite | Fe2-xAlx(SO4)3 · 9H2O, x ~0.5 |
Fe | ⓘ Halotrichite | FeAl2(SO4)4 · 22H2O |
Fe | ⓘ Jarosite | KFe3+ 3(SO4)2(OH)6 |
Fe | ⓘ Szomolnokite | FeSO4 · H2O |
Fe | ⓘ Marcasite | FeS2 |
Fe | ⓘ Melanterite | Fe2+(H2O)6SO4 · H2O |
Fe | ⓘ Chalcopyrite | CuFeS2 |
Ni | Nickel | |
Ni | ⓘ Melonite | NiTe2 |
Cu | Copper | |
Cu | ⓘ Colusite | Cu13VAs3S16 |
Cu | ⓘ Kuramite | Cu3SnS4 |
Cu | ⓘ Mawsonite | Cu6Fe2SnS8 |
Cu | ⓘ Stannoidite | Cu6+Cu22+(Fe2+,Zn)3Sn2S12 |
Cu | ⓘ Enargite | Cu3AsS4 |
Cu | ⓘ Luzonite | Cu3AsS4 |
Cu | ⓘ Tetrahedrite | Cu6Cu4(X)2Sb4S13 |
Cu | ⓘ Chalcanthite | CuSO4 · 5H2O |
Cu | ⓘ Goldfieldite | (Cu10◻2)Te4S12S |
Cu | ⓘ Seligmannite | PbCuAsS3 |
Cu | ⓘ Wittichenite | Cu3BiS3 |
Cu | ⓘ Brochantite | Cu4(SO4)(OH)6 |
Cu | ⓘ Copper | Cu |
Cu | ⓘ Lautite | CuAsS |
Cu | ⓘ Tennantite | Cu6[Cu4(X)2]As4S12S |
Cu | ⓘ Emplectite | CuBiS2 |
Cu | ⓘ Chalcopyrite | CuFeS2 |
Cu | ⓘ Aikinite | PbCuBiS3 |
Zn | Zinc | |
Zn | ⓘ Stannoidite | Cu6+Cu22+(Fe2+,Zn)3Sn2S12 |
Zn | ⓘ Sphalerite | ZnS |
As | Arsenic | |
As | ⓘ Colusite | Cu13VAs3S16 |
As | ⓘ Enargite | Cu3AsS4 |
As | ⓘ Luzonite | Cu3AsS4 |
As | ⓘ Seligmannite | PbCuAsS3 |
As | ⓘ Lautite | CuAsS |
As | ⓘ Tennantite | Cu6[Cu4(X)2]As4S12S |
Se | Selenium | |
Se | ⓘ Bohdanowiczite | AgBiSe2 |
Se | ⓘ Tiemannite | HgSe |
Se | ⓘ Clausthalite | PbSe |
Se | ⓘ Kawazulite | Bi2Te2Se |
Ag | Silver | |
Ag | ⓘ Petzite | Ag3AuTe2 |
Ag | ⓘ Sylvanite | (Au,Ag)2Te4 |
Ag | ⓘ Bohdanowiczite | AgBiSe2 |
Ag | ⓘ Hessite | Ag2Te |
Sn | Tin | |
Sn | ⓘ Kuramite | Cu3SnS4 |
Sn | ⓘ Mawsonite | Cu6Fe2SnS8 |
Sn | ⓘ Stannoidite | Cu6+Cu22+(Fe2+,Zn)3Sn2S12 |
Sb | Antimony | |
Sb | ⓘ Tetrahedrite | Cu6Cu4(X)2Sb4S13 |
Te | Tellurium | |
Te | ⓘ Altaite | PbTe |
Te | ⓘ Coloradoite | HgTe |
Te | ⓘ Melonite | NiTe2 |
Te | ⓘ Petzite | Ag3AuTe2 |
Te | ⓘ Sylvanite | (Au,Ag)2Te4 |
Te | ⓘ Goldfieldite | (Cu10◻2)Te4S12S |
Te | ⓘ Tellurium | Te |
Te | ⓘ Kawazulite | Bi2Te2Se |
Te | ⓘ Calaverite | AuTe2 |
Te | ⓘ Hessite | Ag2Te |
Ba | Barium | |
Ba | ⓘ Baryte | BaSO4 |
Au | Gold | |
Au | ⓘ Petzite | Ag3AuTe2 |
Au | ⓘ Sylvanite | (Au,Ag)2Te4 |
Au | ⓘ Gold | Au |
Au | ⓘ Calaverite | AuTe2 |
Hg | Mercury | |
Hg | ⓘ Coloradoite | HgTe |
Hg | ⓘ Tiemannite | HgSe |
Pb | Lead | |
Pb | ⓘ Altaite | PbTe |
Pb | ⓘ Seligmannite | PbCuAsS3 |
Pb | ⓘ Galena | PbS |
Pb | ⓘ Clausthalite | PbSe |
Pb | ⓘ Aikinite | PbCuBiS3 |
Bi | Bismuth | |
Bi | ⓘ Wittichenite | Cu3BiS3 |
Bi | ⓘ Emplectite | CuBiS2 |
Bi | ⓘ Bohdanowiczite | AgBiSe2 |
Bi | ⓘ Bismuthinite | Bi2S3 |
Bi | ⓘ Kawazulite | Bi2Te2Se |
Bi | ⓘ Aikinite | PbCuBiS3 |
References
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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.
External Links
http://opac.geologie.ac.at/wwwopacx/wwwopac.ashx?command=getcontent&server=images&value=BR0087_190_A.pdf [Takács & Molnar, 2011]
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Lahóca Hill, Recsk, Heves County, Hungary