Lahóca Hill, Recsk, Heves County, Hungary i
Regional Level Types
Lahóca Hill Hill
Recsk Village
Heves County County
Hungary Country

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

Formula: BaSO₄

Formula: Bi₂S₃

Formula: AgBiSe₂

Formula: Cu₄(SO₄)(OH)₆

Reference: ACTA MIN. PETR. Suppl. Tomus XXXVIII., 1997

ⓘ Calaverite

Formula: AuTe₂

ⓘ Calcite

Formula: CaCO₃

Chalcanthite

Lahóca Hill, Recsk, Heves County, Hungary

ⓘ Chalcanthite

Formula: CuSO₄ · 5H₂O

Formula: CuFeS₂

Formula: PbSe

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: Fe_2-xAl_x(SO₄)₃ · 9H₂O, x ~0.5

ⓘ 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

ⓘ Emplectite

Formula: CuBiS₂

Enargite

Lahóca Hill, Recsk, Heves County, Hungary

ⓘ 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

Lahóca Hill, Recsk, Heves County, Hungary

ⓘ Halotrichite

Formula: FeAl₂(SO₄)₄ · 22H₂O

Reference: ACTA MIN. PETR. Suppl. Tomus XXXVIII., 1997

ⓘ Hessite

Formula: Ag₂Te

ⓘ Jarosite

Formula: KFe³⁺ ₃(SO₄)₂(OH)₆

ⓘ Kalinite

Formula: KAl(SO₄)₂ · 11H₂O

Reference: ACTA MIN. PETR. Suppl. Tomus XXXVIII., 1997

ⓘ Kaolinite

Formula: Al₂(Si₂O₅)(OH)₄

ⓘ Kawazulite

Formula: Bi₂Te₂Se

ⓘ 'K Feldspar'

ⓘ 'K Feldspar var: Adularia'

Formula: KAlSi₃O₈

ⓘ Kuramite

Formula: Cu₃SnS₄

Reference: No reference listed

ⓘ Lautite

Formula: CuAsS

ⓘ 'Leucoxene'

Luzonite, etc.

Lahóca Hill, Recsk, Heves County, Hungary

ⓘ 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

ⓘ Mawsonite

Formula: Cu₆Fe₂SnS₈

Reference: No reference listed

ⓘ Melanterite

Formula: Fe²⁺(H₂O)₆SO₄ · H₂O

ⓘ 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

ⓘ Muscovite

Formula: KAl₂(AlSi₃O₁₀)(OH)₂

ⓘ Muscovite var: Illite

Formula: K_0.65Al_2.0[Al_0.65Si_3.35O₁₀](OH)₂

ⓘ Muscovite var: Sericite

Formula: KAl₂(AlSi₃O₁₀)(OH)₂

ⓘ Petzite

Formula: Ag₃AuTe₂

Pyrite, etc.

Lahóca Hill, Recsk, Heves County, Hungary

ⓘ 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

ⓘ Quartz

Formula: SiO₂

ⓘ Rutile

Formula: TiO₂

ⓘ Seligmannite

Formula: PbCuAsS₃

Reference: Szakáll & Gatter: Hun. Min. Spec., 1993

ⓘ 'Smectite Group'

Formula: A_0.3D_2-3[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

ⓘ 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

ⓘ 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

ⓘ 'Tetrahedrite'

Formula: Cu₆Cu₄(X)₂Sb₄S₁₃

ⓘ Tiemannite

Formula: HgSe

ⓘ 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	Fe_2-xAl_x(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	K_0.65Al_2.0[Al_0.65Si_3.35O₁₀](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'	-	A_0.3D_2-3[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
A_mB_nX_p, with (m+n):p = 2:1
ⓘ	Hessite	2.4.2.1	Ag₂Te
ⓘ	Petzite	2.4.3.3	Ag₃AuTe₂
A_mX_p, 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
A_mB_nX_p, 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
A_mB_nX_p, with (m+n):p = 2:3
ⓘ	Bismuthinite	2.11.2.3	Bi₂S₃
ⓘ	Kawazulite	2.11.7.5	Bi₂Te₂Se
A_mB_nX_p, 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	Fe_2-xAl_x(SO₄)₃ · 9H₂O, x ~0.5
Group 30 - ANHYDROUS SULFATES CONTAINING HYDROXYL OR HALOGEN
(AB)_m(XO₄)_pZ_q, where m:p>2:1
ⓘ	Brochantite	30.1.3.1	Cu₄(SO₄)(OH)₆
(AB)₂(XO₄)Z_q
ⓘ	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	K_0.65Al_2.0[Al_0.65Si_3.35O₁₀](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'	-	A_0.3D_2-3[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	Fe_2-xAl_x(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	A_0.3D_2-3[T₄O₁₀]Z₂ · nH₂O
H	ⓘ Pyrophyllite	Al₂Si₄O₁₀(OH)₂
H	ⓘ Alunite	KAl₃(SO₄)₂(OH)₆
H	ⓘ Muscovite (var: Illite)	K_0.65Al_2.0[Al_0.65Si_3.35O₁₀](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	Fe_2-xAl_x(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	A_0.3D_2-3[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)	K_0.65Al_2.0[Al_0.65Si_3.35O₁₀](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)	K_0.65Al_2.0[Al_0.65Si_3.35O₁₀](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)	K_0.65Al_2.0[Al_0.65Si_3.35O₁₀](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	Fe_2-xAl_x(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)	K_0.65Al_2.0[Al_0.65Si_3.35O₁₀](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	Fe_2-xAl_x(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, HungaryiRegional Level TypesLahóca HillHill RecskVillage Heves CountyCounty HungaryCountry function showexplain() { $("#locexplain").toggle(); if (typeof movemap === "function") movemap(); }

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Detailed Mineral List:

List of minerals arranged by Strunz 10th Edition classification

List of minerals arranged by Dana 8th Edition classification

List of minerals for each chemical element

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Lahóca Hill, Recsk, Heves County, Hungary i
Regional Level Types
Lahóca Hill Hill
Recsk Village
Heves County County
Hungary Country