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Kirki Mines (Kirka), Evros, East Macedonia and Thrace, Greecei
Regional Level Types
Kirki Mines (Kirka)Group of Mines
EvrosRegional Unit
East Macedonia and ThraceAdministrative Region
GreeceCountry

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Key
Lock Map
Latitude & Longitude (WGS84):
41° North , 26° East (est.)
Estimate based on other nearby localities or region boundaries.
Margin of Error:
~99km
Locality type:
Group of Mines


The name 'Kirki mines" is used for a group of mines that operated to work the high sulphidation epigenetic polymetallic mineralisation of the area 20 km north of Alexandroupoli city (capital of Evros prefecture). Most important of these mines is the Agios Philippos Mine (St.Philipp Mine), also known as 'Kirki mine" because of the nearby located Kirki village (so comes the general name "Kirki mines").
The most known mines in Kirki area are: Agios Philippos, Aberdeen, King Arthur, Armuchuk (old Turkish name), Kapakli-Bunar (old Turkish name), Mavropetra, Konatziki, Ak-Bomba (old Turkish name), Iatridis mine, Acha Tarla (old Turkish name), Profitis Ilias, Achatkioi (old Turkish name) and a few others that are just very small scale pits schattered in the hills of the area.

Anastasios Tsinidis information (see messageboard at http://www.mindat.org/mesg-7-284452.html)

Regions containing this locality

Eurasian PlateTectonic Plate
EuropeContinent
Rhodope Mts, Bulgaria/GreeceMountain Range

Select Mineral List Type

Standard Detailed Strunz Dana Chemical Elements

Mineral List

Mineral list contains entries from the region specified including sub-localities

67 valid minerals. 2 (TL) - type locality of 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!

Rock list contains entries from the region specified including sub-localities

Select Rock List Type

Alphabetical List Tree Diagram

Detailed Mineral List:

Aikinite
Formula: PbCuBiS3
Reference: HAKLI, T. (1970). THE PRESENCE OF AIKINITE IN THE ABERDEEN AREA OF THE KIRKI MINE, WESTERN THRACE, GREECE. Bulletin of the Geological Society of Finland, 42(42), 53-55.
Allophane
Formula: (Al2O3)(SiO2)1.3-2 · 2.5-3H2O
Reference: L. Rantos collection
Alunite
Formula: KAl3(SO4)2(OH)6
Reference: Skarpelis, N. (1999): The Agios Filippos ore deposit, Kirki (Western Thrace). A base-metal part of a high-sulfidation epithermal system. Bulletin Geological Society of Greece. 33, 51-60.
'Alunite Group'
Reference: Triantafyllidis, S. & Skarpelis, N. (2006): Mineral formation in an acid pit lake from a high-sulfidation ore deposit: Kirki, NE Greece. Journal of Geochemical Exploration 88, 68-71.
Anglesite
Formula: PbSO4
Aplowite
Formula: (Co,Mn,Ni)SO4 · 4H2O
Reference: Skarpelis, N., & Triantafyllidis, S. (2004). Environmental impact from supergene alteration and exploitation of a high sulphidation epithermal type mineralisation (Kirki, NE Greece). Applied Earth Science, 113(1), 110-116.
Arsenopyrite
Formula: FeAsS
Aubertite
Formula: CuAl(SO4)2Cl · 14H2O
Reference: Skarpelis, N., & Triantafyllidis, S. (2004). Environmental impact from supergene alteration and exploitation of a high sulphidation epithermal type mineralisation (Kirki, NE Greece). Applied Earth Science, 113(1), 110-116.
Baryte
Formula: BaSO4
Reference: Bull. Minéral. , 1985, 108, pp. 667-677.; N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60
Beaverite-(Cu)
Formula: Pb(Fe3+2Cu)(SO4)2(OH)6
Reference: Triantafyllidis, S. & Skarpelis, N. (2006): Mineral formation in an acid pit lake from a high-sulfidation ore deposit: Kirki, NE Greece. Journal of Geochemical Exploration 88, 68-71.
Benstonite
Formula: Ba6Ca6Mg(CO3)13
Reference: Skarpelis, N., & Triantafyllidis, S. (2004). Environmental impact from supergene alteration and exploitation of a high sulphidation epithermal type mineralisation (Kirki, NE Greece). Applied Earth Science, 113(1), 110-116.
Bismuthinite
Formula: Bi2S3
Description: In schalenblende.
Reference: Anthony, Bideaux, Bladh, Nichols: "Handbook of Mineralogy", Vol. 1, 1990; American Mineralogist, Volume 71, pages 1277-1282, 1986; N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60
Bornite
Formula: Cu5FeS4
Bournonite
Formula: PbCuSbS3
Reference: Bull. Minéral. , 1985, 108, pp. 667-677.; N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60
Brochantite
Formula: Cu4(SO4)(OH)6
Bukovskýite
Formula: Fe3+2(AsO4)(SO4)(OH) · 9H2O
Reference: Triantafyllidis, S. & Skarpelis, N. (2006): Mineral formation in an acid pit lake from a high-sulfidation ore deposit: Kirki, NE Greece. Journal of Geochemical Exploration 88, 68-71.
Calcite
Formula: CaCO3
'Calcite Group'
Formula: AXO3
Reference: Voudouris, P., Papavasiliou, C., Melfos, V. (2005): Silver mineralogy of St. Philippos deposit (NE Greece) and its relationship to a Te-bearing porphyry-Cu-Mo mineralization. Geochemistry, Mineralogy and Petrology, 43, 155-160.
Caledonite
Formula: Pb5Cu2(SO4)3(CO3)(OH)6
Reference: L. Rantos collection
Cerussite
Formula: PbCO3
Chalcopyrite
Formula: CuFeS2
'Chlorite Group'
Reference: Bull. Minéral. , 1985, 108, pp. 667-677.; N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60; Voudouris, P., Papavasiliou, C., Melfos, V. (2005): Silver mineralogy of St. Philippos deposit (NE Greece) and its relationship to a Te-bearing porphyry-Cu-Mo mineralization. Geochemistry, Mineralogy and Petrology, 43, 155-160.
Clinoclase
Formula: Cu3(AsO4)(OH)3
Reference: Skarpelis, N., & Triantafyllidis, S. (2004). Environmental impact from supergene alteration and exploitation of a high sulphidation epithermal type mineralisation (Kirki, NE Greece). Applied Earth Science, 113(1), 110-116.
Cosalite
Formula: Pb2Bi2S5
Description: In schalenblende.
Reference: Anthony, Bideaux, Bladh, Nichols: "Handbook of Mineralogy", Vol. 1, 1990; American Mineralogist, Volume 71, pages 1277-1282, 1986; N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60
Covellite
Formula: CuS
Dickite
Formula: Al2(Si2O5)(OH)4
Reference: Skarpelis, N. (1999): The Agios Filippos ore deposit, Kirki (Western Thrace). A base-metal part of a high-sulfidation epithermal system. Bulletin Geological Society of Greece. 33, 51-60.
Dolomite
Formula: CaMg(CO3)2
Reference: Skarpelis, N. (1999): The Agios Filippos ore deposit, Kirki (Western Thrace). A base-metal part of a high-sulfidation epithermal system. Bulletin Geological Society of Greece. 33, 51-60.
Enargite
Formula: Cu3AsS4
Reference: Skarpelis, N. (1999): The Agios Filippos ore deposit, Kirki (Western Thrace). A base-metal part of a high-sulfidation epithermal system. Bulletin Geological Society of Greece. 33, 51-60.
Epidote
Formula: {Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Reference: N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60
Famatinite
Formula: Cu3SbS4
Reference: Skarpelis, N. (1999): The Agios Filippos ore deposit, Kirki (Western Thrace). A base-metal part of a high-sulfidation epithermal system. Bulletin Geological Society of Greece. 33, 51-60.
Franckeite
Formula: Fe2+(Pb,Sn2+)6Sn4+2Sb2S14
Reference: Bull. Minéral. , 1985, 108, pp. 667-677.
Galena
Formula: PbS
Goethite
Formula: α-Fe3+O(OH)
Gypsum
Formula: CaSO4 · 2H2O
Reference: Skarpelis, N. (1999): The Agios Filippos ore deposit, Kirki (Western Thrace). A base-metal part of a high-sulfidation epithermal system. Bulletin Geological Society of Greece. 33, 51-60.; Triantafyllidis, S. & Skarpelis, N. (2006): Mineral formation in an acid pit lake from a high-sulfidation ore deposit: Kirki, NE Greece. Journal of Geochemical Exploration 88, 68-71.
Hessite
Formula: Ag2Te
Reference: Voudouris, P., Papavasiliou, C., Melfos, V. (2005): Silver mineralogy of St. Philippos deposit (NE Greece) and its relationship to a Te-bearing porphyry-Cu-Mo mineralization. Geochemistry, Mineralogy and Petrology, 43, 155-160.
Jordanite
Formula: Pb14(As,Sb)6S23
Description: In schalenblende.
Reference: Bull. Minéral. , 1985, 108, pp. 667-677.; American Mineralogist, Volume 71, pages 1277-1282, 1986; N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60; Voudouris, P., Papavasiliou, C., Melfos, V. (2005): Silver mineralogy of St. Philippos deposit (NE Greece) and its relationship to a Te-bearing porphyry-Cu-Mo mineralization. Geochemistry, Mineralogy and Petrology, 43, 155-160.
Kaolinite
Formula: Al2(Si2O5)(OH)4
Reference: Bull. Minéral. , 1985, 108, pp. 667-677.; N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60
'Kaolinite Subgroup'
Formula: Al2Si2O5(OH)4
Reference: Mavris, C., Tsinidis, A., and Fitros, M. (2014) La wurtzite di Aghios Philippos, Kirki, Grecia. Rivista Mineralogica Italiana, 38, 4 (4-2014), 240-247.
Kësterite
Formula: Cu2ZnSnS4
Reference: Anthony, Bideaux, Bladh, Nichols: "Handbook of Mineralogy", Vol. 1, 1990; European Journal of Mineralogy (1990): 2: 711-723.; N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60
Kirkiite (TL)
Formula: Pb10Bi3As3S19
Type Locality:
Description: In schalenblende.
Reference: European Journal of Mineralogy (1990): 2: 711-723.; American Mineralogist, Volume 71, pages 1277-1282, 1986; N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60
Leadhillite
Formula: Pb4(CO3)2(SO4)(OH)2
Reference: L. Rantos collection
Lévyclaudite (TL)
Formula: Pb8Sn7Cu3(Bi,Sb)3S28
Type Locality:
Reference: European Journal of Mineralogy (1990): 2: 711-723.; N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60
Linarite
Formula: PbCu(SO4)(OH)2
Luzonite
Formula: Cu3AsS4
Reference: Skarpelis, N. (1999): The Agios Filippos ore deposit, Kirki (Western Thrace). A base-metal part of a high-sulfidation epithermal system. Bulletin Geological Society of Greece. 33, 51-60.
Magnetite
Formula: Fe2+Fe3+2O4
Description: Inclusions in marcasite.
Reference: Bull. Minéral. , 1985, 108, pp. 667-677.
Malachite
Formula: Cu2(CO3)(OH)2
Reference: L. Rantos collection
Marcasite
Formula: FeS2
Reference: Bull. Minéral. , 1985, 108, pp. 667-677.
Melanterite
Formula: Fe2+(H2O)6SO4 · H2O
Muscovite
Formula: KAl2(AlSi3O10)(OH)2
Reference: Bull. Minéral. , 1985, 108, pp. 667-677.; N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60; Voudouris, P., Papavasiliou, C., Melfos, V. (2005): Silver mineralogy of St. Philippos deposit (NE Greece) and its relationship to a Te-bearing porphyry-Cu-Mo mineralization. Geochemistry, Mineralogy and Petrology, 43, 155-160.
Muscovite var: Illite
Formula: K0.65Al2.0[Al0.65Si3.35O10](OH)2
Reference: Skarpelis, N. (1999): The Agios Filippos ore deposit, Kirki (Western Thrace). A base-metal part of a high-sulfidation epithermal system. Bulletin Geological Society of Greece. 33, 51-60.
Muscovite var: Sericite
Formula: KAl2(AlSi3O10)(OH)2
Reference: Bull. Minéral. , 1985, 108, pp. 667-677.; N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60; Voudouris, P., Papavasiliou, C., Melfos, V. (2005): Silver mineralogy of St. Philippos deposit (NE Greece) and its relationship to a Te-bearing porphyry-Cu-Mo mineralization. Geochemistry, Mineralogy and Petrology, 43, 155-160.
Pearceite
Formula: [Ag9CuS4][(Ag,Cu)6(As,Sb)2S7]
Reference: Voudouris, P., Papavasiliou, C., Melfos, V. (2005): Silver mineralogy of St. Philippos deposit (NE Greece) and its relationship to a Te-bearing porphyry-Cu-Mo mineralization. Geochemistry, Mineralogy and Petrology, 43, 155-160.
Pyrite
Formula: FeS2
Pyrophyllite
Formula: Al2Si4O10(OH)2
Reference: Skarpelis, N. (1999): The Agios Filippos ore deposit, Kirki (Western Thrace). A base-metal part of a high-sulfidation epithermal system. Bulletin Geological Society of Greece. 33, 51-60.
Pyrrhotite
Formula: Fe7S8
Reference: Bull. Minéral. , 1985, 108, pp. 667-677.
Quartz
Formula: SiO2
Rammelsbergite
Formula: NiAs2
Reference: Bull. Minéral. , 1985, 108, pp. 667-677.
Rhodochrosite
Formula: MnCO3
Reference: Bull. Minéral. , 1985, 108, pp. 667-677.; N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60
Rozenite
Formula: FeSO4 · 4H2O
Scorodite
Formula: Fe3+AsO4 · 2H2O
Reference: Triantafyllidis, S. & Skarpelis, N. (2006): Mineral formation in an acid pit lake from a high-sulfidation ore deposit: Kirki, NE Greece. Journal of Geochemical Exploration 88, 68-71.
Seligmannite
Formula: PbCuAsS3
Description: In schalenblende.
Reference: Anthony, Bideaux, Bladh, Nichols: "Handbook of Mineralogy", Vol. 1, 1990; American Mineralogist, Volume 71, pages 1277-1282, 1986; N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60; Voudouris, P., Papavasiliou, C., Melfos, V. (2005): Silver mineralogy of St. Philippos deposit (NE Greece) and its relationship to a Te-bearing porphyry-Cu-Mo mineralization. Geochemistry, Mineralogy and Petrology, 43, 155-160.
Siderite
Formula: FeCO3
Reference: Bull. Minéral. , 1985, 108, pp. 667-677.
Sphalerite
Formula: ZnS
Sphalerite var: Schalenblende
Reference: Bull. Minéral. , 1985, 108, pp. 667-677.
Stannoidite
Formula: Cu+6Cu2+2(Fe2+,Zn)3Sn2S12
Starkeyite
Formula: MgSO4 · 4H2O
Reference: Skarpelis, N., & Triantafyllidis, S. (2004). Environmental impact from supergene alteration and exploitation of a high sulphidation epithermal type mineralisation (Kirki, NE Greece). Applied Earth Science, 113(1), 110-116.
Susannite ?
Formula: Pb4(CO3)2(SO4)(OH)2
Reference: L. Rantos collection
Szmikite
Formula: MnSO4 · H2O
Reference: Skarpelis, N., & Triantafyllidis, S. (2004). Environmental impact from supergene alteration and exploitation of a high sulphidation epithermal type mineralisation (Kirki, NE Greece). Applied Earth Science, 113(1), 110-116.
Szomolnokite
Formula: FeSO4 · H2O
Reference: Skarpelis, N., & Triantafyllidis, S. (2004). Environmental impact from supergene alteration and exploitation of a high sulphidation epithermal type mineralisation (Kirki, NE Greece). Applied Earth Science, 113(1), 110-116.
Tennantite
Formula: Cu6[Cu4(Fe,Zn)2]As4S13
Reference: Y. Moëlo : "Compte-rendu de la réunion "Systématique des Minéraux" du 23 novembre 1989", Bull. Soc. Franç. Minéral. , France; European Journal of Mineralogy (1990): 2: 711-723.; N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60; Voudouris, P., Papavasiliou, C., Melfos, V. (2005): Silver mineralogy of St. Philippos deposit (NE Greece) and its relationship to a Te-bearing porphyry-Cu-Mo mineralization. Geochemistry, Mineralogy and Petrology, 43, 155-160.
'Tennantite-Tetrahedrite Series'
Reference: L. Rantos collection
Tetrahedrite
Formula: Cu6[Cu4(Fe,Zn)2]Sb4S13
Reference: Voudouris, P., Papavasiliou, C., Melfos, V. (2005): Silver mineralogy of St. Philippos deposit (NE Greece) and its relationship to a Te-bearing porphyry-Cu-Mo mineralization. Geochemistry, Mineralogy and Petrology, 43, 155-160.
Watanabeite ?
Formula: Cu4(As,Sb)2S5
Reference: Voudouris, P., Papavasiliou, C., Melfos, V. (2005): Silver mineralogy of St. Philippos deposit (NE Greece) and its relationship to a Te-bearing porphyry-Cu-Mo mineralization. Geochemistry, Mineralogy and Petrology, 43, 155-160.
Wroewolfeite
Formula: Cu4(SO4)(OH)6 · 2H2O
Reference: Triantafyllidis, S. & Skarpelis, N. (2006): Mineral formation in an acid pit lake from a high-sulfidation ore deposit: Kirki, NE Greece. Journal of Geochemical Exploration 88, 68-71.
Wurtzite
Formula: (Zn,Fe)S
Reference: Skarpelis, N. (1999) The Agios Filippos ore deposit, Kirki (Western Thrace). A base-metal part of a high-sulfidation epithermal system. Bulletin Geological Society of Greece, 33, 51-60; Dallegno, A. (2014) Inusuale fotoluminescenza e fosforescenza attivata da Cd, In, Ga, Ge nella wurtzite del giacimento polimetallico epitermale di Aghios Philippos nell'area di Kirki, distretto di Alexandropolis (NE - Grecia). Quaderni del Centro Studi Geominerari Luciano Holzner, 2, 2, 1-10; Mavris, C., Tsinidis, A., and Fitros, M. (2014) La wurtzite di Aghios Philippos, Kirki, Grecia. Rivista Mineralogica Italiana, 38, 4 (4-2014), 240-247.

List of minerals arranged by Strunz 10th Edition classification

Group 2 - Sulphides and Sulfosalts
Aikinite2.HB.05aPbCuBiS3
Arsenopyrite2.EB.20FeAsS
Bismuthinite2.DB.05Bi2S3
Bornite2.BA.15Cu5FeS4
Bournonite2.GA.50PbCuSbS3
Chalcopyrite2.CB.10aCuFeS2
Cosalite2.JB.10Pb2Bi2S5
Covellite2.CA.05aCuS
Enargite2.KA.05Cu3AsS4
Famatinite2.KA.10Cu3SbS4
Franckeite2.HF.25bFe2+(Pb,Sn2+)6Sn4+2Sb2S14
Galena2.CD.10PbS
Hessite2.BA.60Ag2Te
Jordanite2.JB.30aPb14(As,Sb)6S23
Kirkiite (TL)2.JB.30bPb10Bi3As3S19
Kësterite 2.CB.15aCu2ZnSnS4
Luzonite2.KA.10Cu3AsS4
Lévyclaudite (TL)2.HF.25aPb8Sn7Cu3(Bi,Sb)3S28
Marcasite2.EB.10aFeS2
Pearceite2.GB.15[Ag9CuS4][(Ag,Cu)6(As,Sb)2S7]
Pyrite2.EB.05aFeS2
Pyrrhotite2.CC.10Fe7S8
Rammelsbergite2.EB.15aNiAs2
Seligmannite2.GA.50PbCuAsS3
Sphalerite2.CB.05aZnS
var: Schalenblende2.CB.05aZnS
Stannoidite2.CB.15cCu+6Cu2+2(Fe2+,Zn)3Sn2S12
Tennantite2.GB.05Cu6[Cu4(Fe,Zn)2]As4S13
Tetrahedrite2.GB.05Cu6[Cu4(Fe,Zn)2]Sb4S13
Watanabeite ?2.GC.15Cu4(As,Sb)2S5
Wurtzite2.CB.45(Zn,Fe)S
Group 4 - Oxides and Hydroxides
Goethite4.00.α-Fe3+O(OH)
Magnetite4.BB.05Fe2+Fe3+2O4
Quartz4.DA.05SiO2
Group 5 - Nitrates and Carbonates
Benstonite5.AB.55Ba6Ca6Mg(CO3)13
Calcite5.AB.05CaCO3
Cerussite5.AB.15PbCO3
Dolomite5.AB.10CaMg(CO3)2
Leadhillite5.BF.40Pb4(CO3)2(SO4)(OH)2
Malachite5.BA.10Cu2(CO3)(OH)2
Rhodochrosite5.AB.05MnCO3
Siderite5.AB.05FeCO3
Susannite ?5.BF.40Pb4(CO3)2(SO4)(OH)2
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
Alunite7.BC.10KAl3(SO4)2(OH)6
Anglesite7.AD.35PbSO4
Aplowite7.CB.15(Co,Mn,Ni)SO4 · 4H2O
Aubertite7.DB.05CuAl(SO4)2Cl · 14H2O
Baryte7.AD.35BaSO4
Beaverite-(Cu)7.BC.10Pb(Fe3+2Cu)(SO4)2(OH)6
Brochantite7.BB.25Cu4(SO4)(OH)6
Caledonite7.BC.50Pb5Cu2(SO4)3(CO3)(OH)6
Gypsum7.CD.40CaSO4 · 2H2O
Linarite7.BC.65PbCu(SO4)(OH)2
Melanterite7.CB.35Fe2+(H2O)6SO4 · H2O
Rozenite7.CB.15FeSO4 · 4H2O
Starkeyite7.CB.15MgSO4 · 4H2O
Szmikite7.CB.05MnSO4 · H2O
Szomolnokite7.CB.05FeSO4 · H2O
Wroewolfeite7.DD.10Cu4(SO4)(OH)6 · 2H2O
Group 8 - Phosphates, Arsenates and Vanadates
Bukovskýite8.DB.40Fe3+2(AsO4)(SO4)(OH) · 9H2O
Clinoclase8.BE.20Cu3(AsO4)(OH)3
Scorodite8.CD.10Fe3+AsO4 · 2H2O
Group 9 - Silicates
Allophane9.ED.20(Al2O3)(SiO2)1.3-2 · 2.5-3H2O
Dickite9.ED.05Al2(Si2O5)(OH)4
Epidote9.BG.05a{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Kaolinite9.ED.05Al2(Si2O5)(OH)4
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
Unclassified Minerals, Rocks, etc.
'Alunite Group'-
'Calcite Group'-AXO3
'Chlorite Group'-
'Kaolinite Subgroup'-Al2Si2O5(OH)4
'Tennantite-Tetrahedrite Series'-

List of minerals arranged by Dana 8th Edition classification

Group 2 - SULFIDES
AmBnXp, with (m+n):p = 2:1
Hessite2.4.2.1Ag2Te
AmBnXp, with (m+n):p = 3:2
Bornite2.5.2.1Cu5FeS4
AmXp, with m:p = 1:1
Covellite2.8.12.1CuS
Galena2.8.1.1PbS
Pyrrhotite2.8.10.1Fe7S8
Sphalerite2.8.2.1ZnS
Wurtzite2.8.7.1(Zn,Fe)S
AmBnXp, with (m+n):p = 1:1
Chalcopyrite2.9.1.1CuFeS2
Kësterite 2.9.2.9Cu2ZnSnS4
Stannoidite2.9.3.3Cu+6Cu2+2(Fe2+,Zn)3Sn2S12
AmBnXp, with (m+n):p = 2:3
Bismuthinite2.11.2.3Bi2S3
AmBnXp, with (m+n):p = 1:2
Arsenopyrite2.12.4.1FeAsS
Marcasite2.12.2.1FeS2
Pyrite2.12.1.1FeS2
Rammelsbergite2.12.2.12NiAs2
Group 3 - SULFOSALTS
ø > 4
Franckeite3.1.4.2Fe2+(Pb,Sn2+)6Sn4+2Sb2S14
Lévyclaudite (TL)3.1.3.1Pb8Sn7Cu3(Bi,Sb)3S28
Pearceite3.1.8.1[Ag9CuS4][(Ag,Cu)6(As,Sb)2S7]
ø = 4
Enargite3.2.1.1Cu3AsS4
Famatinite3.2.2.2Cu3SbS4
Luzonite3.2.2.1Cu3AsS4
3 <ø < 4
Jordanite3.3.1.1Pb14(As,Sb)6S23
Tennantite3.3.6.2Cu6[Cu4(Fe,Zn)2]As4S13
Tetrahedrite3.3.6.1Cu6[Cu4(Fe,Zn)2]Sb4S13
ø = 3
Aikinite3.4.5.1PbCuBiS3
Bournonite3.4.3.2PbCuSbS3
Kirkiite (TL)3.4.17.1Pb10Bi3As3S19
Seligmannite3.4.3.1PbCuAsS3
2.5 < ø < 3
Cosalite3.5.9.1Pb2Bi2S5
Watanabeite ?3.5.15.1Cu4(As,Sb)2S5
Group 6 - HYDROXIDES AND OXIDES CONTAINING HYDROXYL
XO(OH)
Goethite6.1.1.2α-Fe3+O(OH)
Group 7 - MULTIPLE OXIDES
AB2X4
Magnetite7.2.2.3Fe2+Fe3+2O4
Group 14 - ANHYDROUS NORMAL CARBONATES
A(XO3)
Calcite14.1.1.1CaCO3
Cerussite14.1.3.4PbCO3
Rhodochrosite14.1.1.4MnCO3
Siderite14.1.1.3FeCO3
AB(XO3)2
Benstonite14.2.3.1Ba6Ca6Mg(CO3)13
Dolomite14.2.1.1CaMg(CO3)2
Group 16a - ANHYDROUS CARBONATES CONTAINING HYDROXYL OR HALOGEN
Malachite16a.3.1.1Cu2(CO3)(OH)2
Group 17 - COMPOUND CARBONATES
Miscellaneous
Leadhillite17.1.2.1Pb4(CO3)2(SO4)(OH)2
Susannite ?17.1.3.1Pb4(CO3)2(SO4)(OH)2
Group 28 - ANHYDROUS ACID AND NORMAL SULFATES
AXO4
Anglesite28.3.1.3PbSO4
Baryte28.3.1.1BaSO4
Group 29 - HYDRATED ACID AND NORMAL SULFATES
AXO4·xH2O
Aplowite29.6.6.4(Co,Mn,Ni)SO4 · 4H2O
Gypsum29.6.3.1CaSO4 · 2H2O
Melanterite29.6.10.1Fe2+(H2O)6SO4 · H2O
Rozenite29.6.6.1FeSO4 · 4H2O
Starkeyite29.6.6.2MgSO4 · 4H2O
Szmikite29.6.2.3MnSO4 · H2O
Szomolnokite29.6.2.2FeSO4 · H2O
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
Beaverite-(Cu)30.2.5.7Pb(Fe3+2Cu)(SO4)2(OH)6
Linarite30.2.3.1PbCu(SO4)(OH)2
Group 31 - HYDRATED SULFATES CONTAINING HYDROXYL OR HALOGEN
(AB)4(XO4)Zq·xH2O
Wroewolfeite31.4.2.1Cu4(SO4)(OH)6 · 2H2O
(AB)(XO4)Zq·xH2O
Aubertite31.9.8.1CuAl(SO4)2Cl · 14H2O
Group 32 - COMPOUND SULFATES
Anhydrous Compound Sulfates containing Hydroxyl or Halogen
Caledonite32.3.2.1Pb5Cu2(SO4)3(CO3)(OH)6
Group 40 - HYDRATED NORMAL PHOSPHATES,ARSENATES AND VANADATES
(AB)5(XO4)2·xH2O
Scorodite40.4.1.3Fe3+AsO4 · 2H2O
Group 41 - ANHYDROUS PHOSPHATES, ETC.CONTAINING HYDROXYL OR HALOGEN
(AB)3(XO4)Zq
Clinoclase41.3.1.1Cu3(AsO4)(OH)3
Group 43 - COMPOUND PHOSPHATES, ETC.
Hydrated Compound Phosphates, etc·, Containing Hydroxyl or Halogen
Bukovskýite43.5.1.2Fe3+2(AsO4)(SO4)(OH) · 9H2O
Group 58 - SOROSILICATES Insular, Mixed, Single, and Larger Tetrahedral Groups
Insular, Mixed, Single, and Larger Tetrahedral Groups with cations in [6] and higher coordination; single and double groups (n = 1, 2)
Epidote58.2.1a.7{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Group 71 - PHYLLOSILICATES Sheets of Six-Membered Rings
Sheets of 6-membered rings with 1:1 layers
Allophane71.1.5.1(Al2O3)(SiO2)1.3-2 · 2.5-3H2O
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
Group 75 - TECTOSILICATES Si Tetrahedral Frameworks
Si Tetrahedral Frameworks - SiO2 with [4] coordinated Si
Quartz75.1.3.1SiO2
Unclassified Minerals, Mixtures, etc.
'Alunite Group'-
'Calcite Group'-AXO3
'Chlorite Group'-
Kaolinite-Al2(Si2O5)(OH)4
'Kaolinite Subgroup'-Al2Si2O5(OH)4
Muscovite
var: Sericite
-KAl2(AlSi3O10)(OH)2
Sphalerite
var: Schalenblende
-ZnS
'Tennantite-Tetrahedrite Series'-

List of minerals for each chemical element

HHydrogen
H Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
H AluniteKAl3(SO4)2(OH)6
H DickiteAl2(Si2O5)(OH)4
H Goethiteα-Fe3+O(OH)
H KaoliniteAl2(Si2O5)(OH)4
H Muscovite (var: Sericite)KAl2(AlSi3O10)(OH)2
H BrochantiteCu4(SO4)(OH)6
H LinaritePbCu(SO4)(OH)2
H Muscovite (var: Illite)K0.65Al2.0[Al0.65Si3.35O10](OH)2
H PyrophylliteAl2Si4O10(OH)2
H GypsumCaSO4 · 2H2O
H CaledonitePb5Cu2(SO4)3(CO3)(OH)6
H Allophane(Al2O3)(SiO2)1.3-2 · 2.5-3H2O
H MalachiteCu2(CO3)(OH)2
H LeadhillitePb4(CO3)2(SO4)(OH)2
H RozeniteFeSO4 · 4H2O
H MelanteriteFe2+(H2O)6SO4 · H2O
H WroewolfeiteCu4(SO4)(OH)6 · 2H2O
H BukovskýiteFe23+(AsO4)(SO4)(OH) · 9H2O
H Beaverite-(Cu)Pb(Fe23+Cu)(SO4)2(OH)6
H ScoroditeFe3+AsO4 · 2H2O
H MuscoviteKAl2(AlSi3O10)(OH)2
H SzomolnokiteFeSO4 · H2O
H ClinoclaseCu3(AsO4)(OH)3
H StarkeyiteMgSO4 · 4H2O
H AubertiteCuAl(SO4)2Cl · 14H2O
H Aplowite(Co,Mn,Ni)SO4 · 4H2O
H SzmikiteMnSO4 · H2O
H Kaolinite SubgroupAl2Si2O5(OH)4
H SusannitePb4(CO3)2(SO4)(OH)2
CCarbon
C CalciteCaCO3
C SideriteFeCO3
C RhodochrositeMnCO3
C DolomiteCaMg(CO3)2
C CaledonitePb5Cu2(SO4)3(CO3)(OH)6
C CerussitePbCO3
C MalachiteCu2(CO3)(OH)2
C LeadhillitePb4(CO3)2(SO4)(OH)2
C BenstoniteBa6Ca6Mg(CO3)13
C SusannitePb4(CO3)2(SO4)(OH)2
OOxygen
O Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
O AluniteKAl3(SO4)2(OH)6
O DickiteAl2(Si2O5)(OH)4
O Goethiteα-Fe3+O(OH)
O AnglesitePbSO4
O QuartzSiO2
O KaoliniteAl2(Si2O5)(OH)4
O CalciteCaCO3
O BaryteBaSO4
O SideriteFeCO3
O RhodochrositeMnCO3
O Muscovite (var: Sericite)KAl2(AlSi3O10)(OH)2
O MagnetiteFe2+Fe23+O4
O BrochantiteCu4(SO4)(OH)6
O LinaritePbCu(SO4)(OH)2
O Muscovite (var: Illite)K0.65Al2.0[Al0.65Si3.35O10](OH)2
O PyrophylliteAl2Si4O10(OH)2
O GypsumCaSO4 · 2H2O
O DolomiteCaMg(CO3)2
O Calcite GroupAXO3
O CaledonitePb5Cu2(SO4)3(CO3)(OH)6
O Allophane(Al2O3)(SiO2)1.3-2 · 2.5-3H2O
O CerussitePbCO3
O MalachiteCu2(CO3)(OH)2
O LeadhillitePb4(CO3)2(SO4)(OH)2
O RozeniteFeSO4 · 4H2O
O MelanteriteFe2+(H2O)6SO4 · H2O
O WroewolfeiteCu4(SO4)(OH)6 · 2H2O
O BukovskýiteFe23+(AsO4)(SO4)(OH) · 9H2O
O Beaverite-(Cu)Pb(Fe23+Cu)(SO4)2(OH)6
O ScoroditeFe3+AsO4 · 2H2O
O MuscoviteKAl2(AlSi3O10)(OH)2
O SzomolnokiteFeSO4 · H2O
O BenstoniteBa6Ca6Mg(CO3)13
O ClinoclaseCu3(AsO4)(OH)3
O StarkeyiteMgSO4 · 4H2O
O AubertiteCuAl(SO4)2Cl · 14H2O
O Aplowite(Co,Mn,Ni)SO4 · 4H2O
O SzmikiteMnSO4 · H2O
O Kaolinite SubgroupAl2Si2O5(OH)4
O SusannitePb4(CO3)2(SO4)(OH)2
MgMagnesium
Mg DolomiteCaMg(CO3)2
Mg BenstoniteBa6Ca6Mg(CO3)13
Mg StarkeyiteMgSO4 · 4H2O
AlAluminium
Al Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Al AluniteKAl3(SO4)2(OH)6
Al DickiteAl2(Si2O5)(OH)4
Al KaoliniteAl2(Si2O5)(OH)4
Al Muscovite (var: Sericite)KAl2(AlSi3O10)(OH)2
Al Muscovite (var: Illite)K0.65Al2.0[Al0.65Si3.35O10](OH)2
Al PyrophylliteAl2Si4O10(OH)2
Al Allophane(Al2O3)(SiO2)1.3-2 · 2.5-3H2O
Al MuscoviteKAl2(AlSi3O10)(OH)2
Al AubertiteCuAl(SO4)2Cl · 14H2O
Al Kaolinite SubgroupAl2Si2O5(OH)4
SiSilicon
Si Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Si DickiteAl2(Si2O5)(OH)4
Si QuartzSiO2
Si KaoliniteAl2(Si2O5)(OH)4
Si Muscovite (var: Sericite)KAl2(AlSi3O10)(OH)2
Si Muscovite (var: Illite)K0.65Al2.0[Al0.65Si3.35O10](OH)2
Si PyrophylliteAl2Si4O10(OH)2
Si Allophane(Al2O3)(SiO2)1.3-2 · 2.5-3H2O
Si MuscoviteKAl2(AlSi3O10)(OH)2
Si Kaolinite SubgroupAl2Si2O5(OH)4
SSulfur
S KirkiitePb10Bi3As3S19
S LévyclauditePb8Sn7Cu3(Bi,Sb)3S28
S Wurtzite(Zn,Fe)S
S SphaleriteZnS
S Kësterite Cu2ZnSnS4
S StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
S ArsenopyriteFeAsS
S CosalitePb2Bi2S5
S BismuthiniteBi2S3
S JordanitePb14(As,Sb)6S23
S SeligmannitePbCuAsS3
S PyriteFeS2
S GalenaPbS
S AluniteKAl3(SO4)2(OH)6
S AnglesitePbSO4
S MarcasiteFeS2
S TennantiteCu6[Cu4(Fe,Zn)2]As4S13
S PyrrhotiteFe7S8
S ChalcopyriteCuFeS2
S BorniteCu5FeS4
S CovelliteCuS
S BaryteBaSO4
S FranckeiteFe2+(Pb,Sn2+)6Sn24+Sb2S14
S BournonitePbCuSbS3
S BrochantiteCu4(SO4)(OH)6
S LinaritePbCu(SO4)(OH)2
S GypsumCaSO4 · 2H2O
S LuzoniteCu3AsS4
S FamatiniteCu3SbS4
S EnargiteCu3AsS4
S Pearceite[Ag9CuS4][(Ag,Cu)6(As,Sb)2S7]
S TetrahedriteCu6[Cu4(Fe,Zn)2]Sb4S13
S CaledonitePb5Cu2(SO4)3(CO3)(OH)6
S LeadhillitePb4(CO3)2(SO4)(OH)2
S AikinitePbCuBiS3
S RozeniteFeSO4 · 4H2O
S MelanteriteFe2+(H2O)6SO4 · H2O
S WroewolfeiteCu4(SO4)(OH)6 · 2H2O
S BukovskýiteFe23+(AsO4)(SO4)(OH) · 9H2O
S Beaverite-(Cu)Pb(Fe23+Cu)(SO4)2(OH)6
S SzomolnokiteFeSO4 · H2O
S StarkeyiteMgSO4 · 4H2O
S AubertiteCuAl(SO4)2Cl · 14H2O
S Aplowite(Co,Mn,Ni)SO4 · 4H2O
S SzmikiteMnSO4 · H2O
S WatanabeiteCu4(As,Sb)2S5
S SusannitePb4(CO3)2(SO4)(OH)2
ClChlorine
Cl AubertiteCuAl(SO4)2Cl · 14H2O
KPotassium
K AluniteKAl3(SO4)2(OH)6
K Muscovite (var: Sericite)KAl2(AlSi3O10)(OH)2
K Muscovite (var: Illite)K0.65Al2.0[Al0.65Si3.35O10](OH)2
K MuscoviteKAl2(AlSi3O10)(OH)2
CaCalcium
Ca Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Ca CalciteCaCO3
Ca GypsumCaSO4 · 2H2O
Ca DolomiteCaMg(CO3)2
Ca BenstoniteBa6Ca6Mg(CO3)13
MnManganese
Mn RhodochrositeMnCO3
Mn SzmikiteMnSO4 · H2O
FeIron
Fe StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
Fe ArsenopyriteFeAsS
Fe PyriteFeS2
Fe Epidote{Ca2}{Al2Fe3+}(Si2O7)(SiO4)O(OH)
Fe Goethiteα-Fe3+O(OH)
Fe MarcasiteFeS2
Fe PyrrhotiteFe7S8
Fe ChalcopyriteCuFeS2
Fe BorniteCu5FeS4
Fe SideriteFeCO3
Fe MagnetiteFe2+Fe23+O4
Fe FranckeiteFe2+(Pb,Sn2+)6Sn24+Sb2S14
Fe TetrahedriteCu6[Cu4(Fe,Zn)2]Sb4S13
Fe RozeniteFeSO4 · 4H2O
Fe MelanteriteFe2+(H2O)6SO4 · H2O
Fe BukovskýiteFe23+(AsO4)(SO4)(OH) · 9H2O
Fe Beaverite-(Cu)Pb(Fe23+Cu)(SO4)2(OH)6
Fe ScoroditeFe3+AsO4 · 2H2O
Fe SzomolnokiteFeSO4 · H2O
CoCobalt
Co Aplowite(Co,Mn,Ni)SO4 · 4H2O
NiNickel
Ni RammelsbergiteNiAs2
CuCopper
Cu LévyclauditePb8Sn7Cu3(Bi,Sb)3S28
Cu Kësterite Cu2ZnSnS4
Cu StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
Cu SeligmannitePbCuAsS3
Cu TennantiteCu6[Cu4(Fe,Zn)2]As4S13
Cu ChalcopyriteCuFeS2
Cu BorniteCu5FeS4
Cu CovelliteCuS
Cu BournonitePbCuSbS3
Cu BrochantiteCu4(SO4)(OH)6
Cu LinaritePbCu(SO4)(OH)2
Cu LuzoniteCu3AsS4
Cu FamatiniteCu3SbS4
Cu EnargiteCu3AsS4
Cu Pearceite[Ag9CuS4][(Ag,Cu)6(As,Sb)2S7]
Cu TetrahedriteCu6[Cu4(Fe,Zn)2]Sb4S13
Cu CaledonitePb5Cu2(SO4)3(CO3)(OH)6
Cu MalachiteCu2(CO3)(OH)2
Cu AikinitePbCuBiS3
Cu WroewolfeiteCu4(SO4)(OH)6 · 2H2O
Cu Beaverite-(Cu)Pb(Fe23+Cu)(SO4)2(OH)6
Cu ClinoclaseCu3(AsO4)(OH)3
Cu AubertiteCuAl(SO4)2Cl · 14H2O
Cu WatanabeiteCu4(As,Sb)2S5
ZnZinc
Zn Wurtzite(Zn,Fe)S
Zn SphaleriteZnS
Zn Kësterite Cu2ZnSnS4
Zn StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
Zn TetrahedriteCu6[Cu4(Fe,Zn)2]Sb4S13
AsArsenic
As KirkiitePb10Bi3As3S19
As ArsenopyriteFeAsS
As JordanitePb14(As,Sb)6S23
As SeligmannitePbCuAsS3
As TennantiteCu6[Cu4(Fe,Zn)2]As4S13
As RammelsbergiteNiAs2
As LuzoniteCu3AsS4
As EnargiteCu3AsS4
As Pearceite[Ag9CuS4][(Ag,Cu)6(As,Sb)2S7]
As BukovskýiteFe23+(AsO4)(SO4)(OH) · 9H2O
As ScoroditeFe3+AsO4 · 2H2O
As ClinoclaseCu3(AsO4)(OH)3
As WatanabeiteCu4(As,Sb)2S5
AgSilver
Ag Pearceite[Ag9CuS4][(Ag,Cu)6(As,Sb)2S7]
Ag HessiteAg2Te
SnTin
Sn LévyclauditePb8Sn7Cu3(Bi,Sb)3S28
Sn Kësterite Cu2ZnSnS4
Sn StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
Sn FranckeiteFe2+(Pb,Sn2+)6Sn24+Sb2S14
SbAntimony
Sb LévyclauditePb8Sn7Cu3(Bi,Sb)3S28
Sb JordanitePb14(As,Sb)6S23
Sb FranckeiteFe2+(Pb,Sn2+)6Sn24+Sb2S14
Sb BournonitePbCuSbS3
Sb FamatiniteCu3SbS4
Sb Pearceite[Ag9CuS4][(Ag,Cu)6(As,Sb)2S7]
Sb TetrahedriteCu6[Cu4(Fe,Zn)2]Sb4S13
Sb WatanabeiteCu4(As,Sb)2S5
TeTellurium
Te HessiteAg2Te
BaBarium
Ba BaryteBaSO4
Ba BenstoniteBa6Ca6Mg(CO3)13
PbLead
Pb KirkiitePb10Bi3As3S19
Pb LévyclauditePb8Sn7Cu3(Bi,Sb)3S28
Pb CosalitePb2Bi2S5
Pb JordanitePb14(As,Sb)6S23
Pb SeligmannitePbCuAsS3
Pb GalenaPbS
Pb AnglesitePbSO4
Pb FranckeiteFe2+(Pb,Sn2+)6Sn24+Sb2S14
Pb BournonitePbCuSbS3
Pb LinaritePbCu(SO4)(OH)2
Pb CaledonitePb5Cu2(SO4)3(CO3)(OH)6
Pb CerussitePbCO3
Pb LeadhillitePb4(CO3)2(SO4)(OH)2
Pb AikinitePbCuBiS3
Pb Beaverite-(Cu)Pb(Fe23+Cu)(SO4)2(OH)6
Pb SusannitePb4(CO3)2(SO4)(OH)2
BiBismuth
Bi KirkiitePb10Bi3As3S19
Bi LévyclauditePb8Sn7Cu3(Bi,Sb)3S28
Bi CosalitePb2Bi2S5
Bi BismuthiniteBi2S3
Bi AikinitePbCuBiS3

References

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Year (asc) Year (desc) Author (A-Z) Author (Z-A)
Maratos, G. & Andronopoulos, B. (1966): The mineral wealth of Northern Greece (Macedonia-Thraki departments). Institute for Geology and Subsurface Research, Athens 1966. (In Greek).
Maratos. G. (????): Mineralogical analysis of ore from Kirki, Aberdeen, King Arthur, etc (Alexandroupolis). (In Greek with small French abstract)
Vavelidis, M., Filippidis, A., Michailidis, K. and Evangelou, E. (1989): The polymetallic ore mineralization of the Kirki area, Alexandroupolis district, Northeast Greece. Geologica Rhodopica 1, 350-365.
Skarpelis, N., & Triantafyllidis, S. (2004). Environmental impact from supergene alteration and exploitation of a high sulphidation epithermal type mineralisation (Kirki, NE Greece). Applied Earth Science, 113(1), 110-116.

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