Agios Philippos Mine (St Philippos Mine; Agios Philippos Pb-Zn deposit; Kirki Mine; Kirka Mine), Kirki Mines (Kirka), Evros, East Macedonia and Thrace, Greece i
Regional Level Types
Agios Philippos Mine (St Philippos Mine; Agios Philippos Pb-Zn deposit; Kirki Mine; Kirka Mine) Mine
Kirki Mines (Kirka) Group of Mines
Evros Regional Unit
East Macedonia and Thrace Administrative Region
Greece Country

Regional Level Types
Agios Philippos Mine (St Philippos Mine; Agios Philippos Pb-Zn deposit; Kirki Mine; Kirka Mine)	Mine
Kirki Mines (Kirka)	Group of Mines
Evros	Regional Unit
East Macedonia and Thrace	Administrative Region
Greece	Country

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Agios Philippos mine

Agios Philippos Mine, Kirki Mines, Evros, East Macedonia and Thrace, Greece

Agios Philippos mine

Agios Philippos Mine, Kirki Mines, Evros, East Macedonia and Thrace, Greece

Old mining entrance

Agios Philippos Mine, Kirki Mines, Evros, East Macedonia and Thrace, Greece

Agios Philippos mine

Agios Philippos Mine, Kirki Mines, Evros, East Macedonia and Thrace, Greece

Agios Philippos mine

Agios Philippos Mine, Kirki Mines, Evros, East Macedonia and Thrace, Greece

Old mining entrance

Agios Philippos Mine, Kirki Mines, Evros, East Macedonia and Thrace, Greece

Agios Philippos mine

Agios Philippos Mine, Kirki Mines, Evros, East Macedonia and Thrace, Greece

Agios Philippos mine

Agios Philippos Mine, Kirki Mines, Evros, East Macedonia and Thrace, Greece

Latitude & Longitude (WGS84):

40° 58' 59'' North , 25° 46' 59'' East

Latitude & Longitude (decimal):

G#: sx634syc5

Locality type:

Köppen climate type:

Csa : Hot-summer Mediterranean climate

Nearest Settlements:

Place	Population	Distance
Sápes	4,506 (2012)	9.1km
Agiochóri	226 (2013)	11.5km
Lýkeio	1,081 (2013)	12.2km
Arrianá	1,158 (2013)	13.2km
Alexandroupoli	52,979 (2016)	16.8km

Name(s) in local language(s):

Ορυχείο Αγίου Φιλίππου, Κίρκη, Έβρου, Θράκη, Ελλάδα

The most important Pb-Zn mine of the Kirki mines, located 9 km NE of Kirki village.
Two groups of NNW veins in Eocene sandstones and pelites, with intrusions of dacite, rhyodacites and granodiorites.
Low-T / high-fS2 mineralisation.

Occasionally mined during 1973-1998 (Skarpelis & Triantafyllidis, 2004). An acid lake in the pit contains high concentrations of metals.

Located north of the genetically related Pagoni Rachi prospect.
A lead-zinc mine closed in 1945.

Select Mineral List Type

Standard Detailed Gallery Strunz Dana Chemical Elements

Mineral List

ⓘ 'Kaolinite Subgroup'

ⓘ Kësterite

ⓘ Kirkiite (TL)

ⓘ Lévyclaudite (TL)

ⓘ 'Tennantite Subgroup'

ⓘ 'Tetrahedrite Subgroup'

ⓘ Watanabeite ?

ⓘ Wroewolfeite

ⓘ Wurtzite

ⓘ var. Cadmium-rich Wurtzite

52 valid minerals. 2 (TL) - type locality of valid minerals.

Rock Types Recorded

Note: data is currently VERY limited. Please bear with us while we work towards adding this information!

Select Rock List Type

Alphabetical List Tree Diagram

Detailed Mineral List:

ⓘ Alunite

Formula: KAl₃(SO₄)₂(OH)₆

ⓘ '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

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.

ⓘ Arsenopyrite

Formula: FeAsS

ⓘ 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.

ⓘ 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

Reference: Bull. Minéral. , 1985, 108, pp. 667-677.; 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.

ⓘ 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

Reference: Rocks and Minerals, (2009) 84:52

ⓘ 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

Reference: Bull. Minéral. , 1985, 108, pp. 667-677.; N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60

ⓘ '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.

ⓘ Cerussite

Formula: PbCO₃

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.

ⓘ 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.

ⓘ 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

ⓘ Dolomite

Formula: CaMg(CO₃)₂

ⓘ Enargite

Formula: Cu₃AsS₄

ⓘ Epidote

Formula: {Ca₂}{Al₂Fe³⁺}(Si₂O₇)(SiO₄)O(OH)

Reference: N. Skarpelis (1998) Bull. Geol Soc. Greece 33:51-60

ⓘ Famatinite

Formula: Cu₃SbS₄

ⓘ Franckeite

Formula: Fe²⁺(Pb,Sn²⁺)₆Sn⁴⁺₂Sb₂S₁₄

Reference: Bull. Minéral. , 1985, 108, pp. 667-677.

ⓘ Galena

Formula: PbS

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; 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; Mavris, C., Tsinidis, A., and Fitros, M. (2014) La wurtzite di Aghios Philippos, Kirki, Grecia. Rivista Mineralogica Italiana, 38, 4 (4-2014), 240-247.

ⓘ Goethite

Formula: α-Fe³⁺O(OH)

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.

ⓘ Gypsum

Formula: CaSO₄ · 2H₂O

ⓘ Hessite

Formula: Ag₂Te

ⓘ 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, etc.

Agios Philippos Mine, Kirki Mines, Evros, East Macedonia and Thrace, Greece

ⓘ 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

ⓘ 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

Reference: Rocks and Minerals, (2009) 84:52

ⓘ Luzonite

Formula: Cu₃AsS₄

ⓘ Magnetite

Formula: Fe²⁺Fe³⁺₂O₄

Description: Inclusions in marcasite.

Reference: Bull. Minéral. , 1985, 108, pp. 667-677.

ⓘ Marcasite

Formula: FeS₂

Reference: Bull. Minéral. , 1985, 108, pp. 667-677.

ⓘ Melanterite

Formula: Fe²⁺(H₂O)₆SO₄ · H₂O

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.

ⓘ 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

ⓘ Pearceite

Formula: [Ag₉CuS₄][(Ag,Cu)₆(As,Sb)₂S₇]

ⓘ Pyrite

Formula: FeS₂

Reference: Anthony, Bideaux, Bladh, Nichols: "Handbook of Mineralogy", Vol. 1, 1990; 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; 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.

ⓘ Pyrophyllite

Formula: Al₂Si₄O₁₀(OH)₂

ⓘ Pyrrhotite

Formula: Fe_1-xS

Reference: Bull. Minéral. , 1985, 108, pp. 667-677.

ⓘ Quartz

Formula: SiO₂

Reference: Bull. Minéral. , 1985, 108, pp. 667-677.; 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.

ⓘ 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

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.

ⓘ 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

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; 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.

ⓘ Sphalerite var. Schalenblende

Reference: Bull. Minéral. , 1985, 108, pp. 667-677.

ⓘ Stannoidite

Formula: Cu⁺₆Cu²⁺₂(Fe²⁺,Zn)₃Sn₂S₁₂

ⓘ 'Tennantite Subgroup'

Formula: Cu₆(Cu₄ C²⁺₂)As₄S₁₂S

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.

ⓘ 'Tetrahedrite Subgroup'

Formula: Cu₆(Cu₄ C²⁺₂)Sb₄S₁₂S

ⓘ Watanabeite ?

Formula: Cu₄(As,Sb)₂S₅

ⓘ 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

Agios Philippos Mine, Kirki Mines, Evros, East Macedonia and Thrace, Greece

ⓘ 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.

ⓘ Wurtzite var. Cadmium-rich Wurtzite

Formula: (Zn,Cd)S

Reference: https://e-rocks.com/item/pfk786652/cadmian-wurtzite https://e-rocks.com/item/pfk731063/cadmian-wurtzite

List of minerals arranged by Strunz 10th Edition classification

Group 2 - Sulphides and Sulfosalts
ⓘ	Arsenopyrite	2.EB.20	FeAsS
ⓘ	Bismuthinite	2.DB.05	Bi₂S₃
ⓘ	Bornite	2.BA.15	Cu₅FeS₄
ⓘ	Bournonite	2.GA.50	PbCuSbS₃
ⓘ	Chalcopyrite	2.CB.10a	CuFeS₂
ⓘ	Cosalite	2.JB.10	Pb₂Bi₂S₅
ⓘ	Covellite	2.CA.05a	CuS
ⓘ	Enargite	2.KA.05	Cu₃AsS₄
ⓘ	Famatinite	2.KA.10	Cu₃SbS₄
ⓘ	Franckeite	2.HF.25b	Fe²⁺(Pb,Sn²⁺)₆Sn⁴⁺₂Sb₂S₁₄
ⓘ	Galena	2.CD.10	PbS
ⓘ	Hessite	2.BA.60	Ag₂Te
ⓘ	Jordanite	2.JB.30a	Pb₁₄(As,Sb)₆S₂₃
ⓘ	Kirkiite (TL)	2.JB.30b	Pb₁₀Bi₃As₃S₁₉
ⓘ	Kësterite	2.CB.15a	Cu₂ZnSnS₄
ⓘ	Luzonite	2.KA.10	Cu₃AsS₄
ⓘ	Lévyclaudite (TL)	2.HF.25a	Pb₈Sn₇Cu₃(Bi,Sb)₃S₂₈
ⓘ	Marcasite	2.EB.10a	FeS₂
ⓘ	Pearceite	2.GB.15	[Ag₉CuS₄][(Ag,Cu)₆(As,Sb)₂S₇]
ⓘ	Pyrite	2.EB.05a	FeS₂
ⓘ	Pyrrhotite	2.CC.10	Fe_1-xS
ⓘ	Rammelsbergite	2.EB.15a	NiAs₂
ⓘ	Seligmannite	2.GA.50	PbCuAsS₃
ⓘ	Sphalerite	2.CB.05a	ZnS
ⓘ	var. Schalenblende	2.CB.05a	ZnS
ⓘ	Stannoidite	2.CB.15c	Cu⁺₆Cu²⁺₂(Fe²⁺,Zn)₃Sn₂S₁₂
ⓘ	'Tennantite Subgroup'	2.GB.05	Cu₆(Cu₄C²⁺₂)As₄S₁₂S
ⓘ	'Tetrahedrite Subgroup'	2.GB.05	Cu₆(Cu₄C²⁺₂)Sb₄S₁₂S
ⓘ	Watanabeite ?	2.GC.15	Cu₄(As,Sb)₂S₅
ⓘ	Wurtzite	2.CB.45	(Zn,Fe)S
ⓘ	var. Cadmium-rich Wurtzite	2.CB.45	(Zn,Cd)S
Group 4 - Oxides and Hydroxides
ⓘ	Goethite	4.00.	α-Fe³⁺O(OH)
ⓘ	Magnetite	4.BB.05	Fe²⁺Fe³⁺₂O₄
ⓘ	Quartz	4.DA.05	SiO₂
Group 5 - Nitrates and Carbonates
ⓘ	Calcite	5.AB.05	CaCO₃
ⓘ	Cerussite	5.AB.15	PbCO₃
ⓘ	Dolomite	5.AB.10	CaMg(CO₃)₂
ⓘ	Rhodochrosite	5.AB.05	MnCO₃
ⓘ	Siderite	5.AB.05	FeCO₃
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
ⓘ	Alunite	7.BC.10	KAl₃(SO₄)₂(OH)₆
ⓘ	Anglesite	7.AD.35	PbSO₄
ⓘ	Baryte	7.AD.35	BaSO₄
ⓘ	Beaverite-(Cu)	7.BC.10	Pb(Fe³⁺₂Cu)(SO₄)₂(OH)₆
ⓘ	Brochantite	7.BB.25	Cu₄(SO₄)(OH)₆
ⓘ	Gypsum	7.CD.40	CaSO₄ · 2H₂O
ⓘ	Linarite	7.BC.65	PbCu(SO₄)(OH)₂
ⓘ	Melanterite	7.CB.35	Fe²⁺(H₂O)₆SO₄ · H₂O
ⓘ	Rozenite	7.CB.15	FeSO₄ · 4H₂O
ⓘ	Wroewolfeite	7.DD.10	Cu₄(SO₄)(OH)₆ · 2H₂O
Group 8 - Phosphates, Arsenates and Vanadates
ⓘ	Bukovskýite	8.DB.40	Fe³⁺₂(AsO₄)(SO₄)(OH) · 9H₂O
ⓘ	Scorodite	8.CD.10	Fe³⁺AsO₄ · 2H₂O
Group 9 - Silicates
ⓘ	Dickite	9.ED.05	Al₂(Si₂O₅)(OH)₄
ⓘ	Epidote	9.BG.05a	{Ca₂}{Al₂Fe³⁺}(Si₂O₇)(SiO₄)O(OH)
ⓘ	Kaolinite	9.ED.05	Al₂(Si₂O₅)(OH)₄
ⓘ	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
Unclassified Minerals, Rocks, etc.
ⓘ	'Alunite Group'	-
ⓘ	'Calcite Group'	-	AXO₃
ⓘ	'Chlorite Group'	-
ⓘ	'Kaolinite Subgroup'	-	Al₂Si₂O₅(OH)₄

List of minerals arranged by Dana 8th Edition classification

Group 2 - SULFIDES
A_mB_nX_p, with (m+n):p = 2:1
ⓘ	Hessite	2.4.2.1	Ag₂Te
A_mB_nX_p, with (m+n):p = 3:2
ⓘ	Bornite	2.5.2.1	Cu₅FeS₄
A_mX_p, with m:p = 1:1
ⓘ	Covellite	2.8.12.1	CuS
ⓘ	Galena	2.8.1.1	PbS
ⓘ	Pyrrhotite	2.8.10.1	Fe_1-xS
ⓘ	Sphalerite	2.8.2.1	ZnS
ⓘ	Wurtzite	2.8.7.1	(Zn,Fe)S
A_mB_nX_p, with (m+n):p = 1:1
ⓘ	Chalcopyrite	2.9.1.1	CuFeS₂
ⓘ	Kësterite	2.9.2.9	Cu₂ZnSnS₄
ⓘ	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
A_mB_nX_p, with (m+n):p = 1:2
ⓘ	Arsenopyrite	2.12.4.1	FeAsS
ⓘ	Marcasite	2.12.2.1	FeS₂
ⓘ	Pyrite	2.12.1.1	FeS₂
ⓘ	Rammelsbergite	2.12.2.12	NiAs₂
Group 3 - SULFOSALTS
ø > 4
ⓘ	Franckeite	3.1.4.2	Fe²⁺(Pb,Sn²⁺)₆Sn⁴⁺₂Sb₂S₁₄
ⓘ	Lévyclaudite (TL)	3.1.3.1	Pb₈Sn₇Cu₃(Bi,Sb)₃S₂₈
ⓘ	Pearceite	3.1.8.1	[Ag₉CuS₄][(Ag,Cu)₆(As,Sb)₂S₇]
ø = 4
ⓘ	Enargite	3.2.1.1	Cu₃AsS₄
ⓘ	Famatinite	3.2.2.2	Cu₃SbS₄
ⓘ	Luzonite	3.2.2.1	Cu₃AsS₄
3 <ø < 4
ⓘ	Jordanite	3.3.1.1	Pb₁₄(As,Sb)₆S₂₃
ⓘ	'Tennantite Subgroup'	3.3.6.2	Cu₆(Cu₄ C²⁺₂)As₄S₁₂S
ⓘ	'Tetrahedrite Subgroup'	3.3.6.1	Cu₆(Cu₄ C²⁺₂)Sb₄S₁₂S
ø = 3
ⓘ	Bournonite	3.4.3.2	PbCuSbS₃
ⓘ	Kirkiite (TL)	3.4.17.1	Pb₁₀Bi₃As₃S₁₉
ⓘ	Seligmannite	3.4.3.1	PbCuAsS₃
2.5 < ø < 3
ⓘ	Cosalite	3.5.9.1	Pb₂Bi₂S₅
ⓘ	Watanabeite ?	3.5.15.1	Cu₄(As,Sb)₂S₅
Group 6 - HYDROXIDES AND OXIDES CONTAINING HYDROXYL
XO(OH)
ⓘ	Goethite	6.1.1.2	α-Fe³⁺O(OH)
Group 7 - MULTIPLE OXIDES
AB₂X₄
ⓘ	Magnetite	7.2.2.3	Fe²⁺Fe³⁺₂O₄
Group 14 - ANHYDROUS NORMAL CARBONATES
A(XO₃)
ⓘ	Calcite	14.1.1.1	CaCO₃
ⓘ	Cerussite	14.1.3.4	PbCO₃
ⓘ	Rhodochrosite	14.1.1.4	MnCO₃
ⓘ	Siderite	14.1.1.3	FeCO₃
AB(XO₃)₂
ⓘ	Dolomite	14.2.1.1	CaMg(CO₃)₂
Group 28 - ANHYDROUS ACID AND NORMAL SULFATES
AXO₄
ⓘ	Anglesite	28.3.1.3	PbSO₄
ⓘ	Baryte	28.3.1.1	BaSO₄
Group 29 - HYDRATED ACID AND NORMAL SULFATES
AXO₄·xH₂O
ⓘ	Gypsum	29.6.3.1	CaSO₄ · 2H₂O
ⓘ	Melanterite	29.6.10.1	Fe²⁺(H₂O)₆SO₄ · H₂O
ⓘ	Rozenite	29.6.6.1	FeSO₄ · 4H₂O
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
ⓘ	Beaverite-(Cu)	30.2.5.7	Pb(Fe³⁺₂Cu)(SO₄)₂(OH)₆
ⓘ	Linarite	30.2.3.1	PbCu(SO₄)(OH)₂
Group 31 - HYDRATED SULFATES CONTAINING HYDROXYL OR HALOGEN
(AB)₄(XO₄)Z_q·xH₂O
ⓘ	Wroewolfeite	31.4.2.1	Cu₄(SO₄)(OH)₆ · 2H₂O
Group 40 - HYDRATED NORMAL PHOSPHATES,ARSENATES AND VANADATES
(AB)₅(XO₄)₂·xH₂O
ⓘ	Scorodite	40.4.1.3	Fe³⁺AsO₄ · 2H₂O
Group 43 - COMPOUND PHOSPHATES, ETC.
Hydrated Compound Phosphates, etc·, Containing Hydroxyl or Halogen
ⓘ	Bukovskýite	43.5.1.2	Fe³⁺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)
ⓘ	Epidote	58.2.1a.7	{Ca₂}{Al₂Fe³⁺}(Si₂O₇)(SiO₄)O(OH)
Group 71 - PHYLLOSILICATES Sheets of Six-Membered Rings
Sheets of 6-membered rings with 1:1 layers
ⓘ	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
Group 75 - TECTOSILICATES Si Tetrahedral Frameworks
Si Tetrahedral Frameworks - SiO₂ with [4] coordinated Si
ⓘ	Quartz	75.1.3.1	SiO₂
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
ⓘ	Wurtzite var. Cadmium-rich Wurtzite	-	(Zn,Cd)S

List of minerals for each chemical element

H	Hydrogen
H	ⓘ Epidote	{Ca₂}{Al₂Fe³⁺}(Si₂O₇)(SiO₄)O(OH)
H	ⓘ Alunite	KAl₃(SO₄)₂(OH)₆
H	ⓘ Dickite	Al₂(Si₂O₅)(OH)₄
H	ⓘ Goethite	α-Fe³⁺O(OH)
H	ⓘ Kaolinite	Al₂(Si₂O₅)(OH)₄
H	ⓘ Muscovite var. Sericite	KAl₂(AlSi₃O₁₀)(OH)₂
H	ⓘ Brochantite	Cu₄(SO₄)(OH)₆
H	ⓘ Linarite	PbCu(SO₄)(OH)₂
H	ⓘ Muscovite var. Illite	K_0.65Al_2.0[Al_0.65Si_3.35O₁₀](OH)₂
H	ⓘ Pyrophyllite	Al₂Si₄O₁₀(OH)₂
H	ⓘ Gypsum	CaSO₄ · 2H₂O
H	ⓘ Rozenite	FeSO₄ · 4H₂O
H	ⓘ Melanterite	Fe²⁺(H₂O)₆SO₄ · H₂O
H	ⓘ Wroewolfeite	Cu₄(SO₄)(OH)₆ · 2H₂O
H	ⓘ Bukovskýite	Fe₂³⁺(AsO₄)(SO₄)(OH) · 9H₂O
H	ⓘ Beaverite-(Cu)	Pb(Fe₂³⁺Cu)(SO₄)₂(OH)₆
H	ⓘ Scorodite	Fe³⁺AsO₄ · 2H₂O
H	ⓘ Muscovite	KAl₂(AlSi₃O₁₀)(OH)₂
H	ⓘ Kaolinite Subgroup	Al₂Si₂O₅(OH)₄
C	Carbon
C	ⓘ Calcite	CaCO₃
C	ⓘ Siderite	FeCO₃
C	ⓘ Rhodochrosite	MnCO₃
C	ⓘ Dolomite	CaMg(CO₃)₂
C	ⓘ Cerussite	PbCO₃
O	Oxygen
O	ⓘ Epidote	{Ca₂}{Al₂Fe³⁺}(Si₂O₇)(SiO₄)O(OH)
O	ⓘ Alunite	KAl₃(SO₄)₂(OH)₆
O	ⓘ Dickite	Al₂(Si₂O₅)(OH)₄
O	ⓘ Goethite	α-Fe³⁺O(OH)
O	ⓘ Anglesite	PbSO₄
O	ⓘ Quartz	SiO₂
O	ⓘ Kaolinite	Al₂(Si₂O₅)(OH)₄
O	ⓘ Calcite	CaCO₃
O	ⓘ Baryte	BaSO₄
O	ⓘ Siderite	FeCO₃
O	ⓘ Rhodochrosite	MnCO₃
O	ⓘ Muscovite var. Sericite	KAl₂(AlSi₃O₁₀)(OH)₂
O	ⓘ Magnetite	Fe²⁺Fe₂³⁺O₄
O	ⓘ Brochantite	Cu₄(SO₄)(OH)₆
O	ⓘ Linarite	PbCu(SO₄)(OH)₂
O	ⓘ Muscovite var. Illite	K_0.65Al_2.0[Al_0.65Si_3.35O₁₀](OH)₂
O	ⓘ Pyrophyllite	Al₂Si₄O₁₀(OH)₂
O	ⓘ Gypsum	CaSO₄ · 2H₂O
O	ⓘ Dolomite	CaMg(CO₃)₂
O	ⓘ Calcite Group	AXO₃
O	ⓘ Rozenite	FeSO₄ · 4H₂O
O	ⓘ Melanterite	Fe²⁺(H₂O)₆SO₄ · H₂O
O	ⓘ Wroewolfeite	Cu₄(SO₄)(OH)₆ · 2H₂O
O	ⓘ Bukovskýite	Fe₂³⁺(AsO₄)(SO₄)(OH) · 9H₂O
O	ⓘ Beaverite-(Cu)	Pb(Fe₂³⁺Cu)(SO₄)₂(OH)₆
O	ⓘ Scorodite	Fe³⁺AsO₄ · 2H₂O
O	ⓘ Muscovite	KAl₂(AlSi₃O₁₀)(OH)₂
O	ⓘ Cerussite	PbCO₃
O	ⓘ Kaolinite Subgroup	Al₂Si₂O₅(OH)₄
Mg	Magnesium
Mg	ⓘ Dolomite	CaMg(CO₃)₂
Al	Aluminium
Al	ⓘ Epidote	{Ca₂}{Al₂Fe³⁺}(Si₂O₇)(SiO₄)O(OH)
Al	ⓘ Alunite	KAl₃(SO₄)₂(OH)₆
Al	ⓘ Dickite	Al₂(Si₂O₅)(OH)₄
Al	ⓘ Kaolinite	Al₂(Si₂O₅)(OH)₄
Al	ⓘ Muscovite var. Sericite	KAl₂(AlSi₃O₁₀)(OH)₂
Al	ⓘ Muscovite var. Illite	K_0.65Al_2.0[Al_0.65Si_3.35O₁₀](OH)₂
Al	ⓘ Pyrophyllite	Al₂Si₄O₁₀(OH)₂
Al	ⓘ Muscovite	KAl₂(AlSi₃O₁₀)(OH)₂
Al	ⓘ Kaolinite Subgroup	Al₂Si₂O₅(OH)₄
Si	Silicon
Si	ⓘ Epidote	{Ca₂}{Al₂Fe³⁺}(Si₂O₇)(SiO₄)O(OH)
Si	ⓘ Dickite	Al₂(Si₂O₅)(OH)₄
Si	ⓘ Quartz	SiO₂
Si	ⓘ Kaolinite	Al₂(Si₂O₅)(OH)₄
Si	ⓘ Muscovite var. Sericite	KAl₂(AlSi₃O₁₀)(OH)₂
Si	ⓘ Muscovite var. Illite	K_0.65Al_2.0[Al_0.65Si_3.35O₁₀](OH)₂
Si	ⓘ Pyrophyllite	Al₂Si₄O₁₀(OH)₂
Si	ⓘ Muscovite	KAl₂(AlSi₃O₁₀)(OH)₂
Si	ⓘ Kaolinite Subgroup	Al₂Si₂O₅(OH)₄
S	Sulfur
S	ⓘ Kirkiite	Pb₁₀Bi₃As₃S₁₉
S	ⓘ Lévyclaudite	Pb₈Sn₇Cu₃(Bi,Sb)₃S₂₈
S	ⓘ Wurtzite	(Zn,Fe)S
S	ⓘ Sphalerite	ZnS
S	ⓘ Kësterite	Cu₂ZnSnS₄
S	ⓘ Stannoidite	Cu₆⁺Cu₂²⁺(Fe²⁺,Zn)₃Sn₂S₁₂
S	ⓘ Arsenopyrite	FeAsS
S	ⓘ Cosalite	Pb₂Bi₂S₅
S	ⓘ Bismuthinite	Bi₂S₃
S	ⓘ Jordanite	Pb₁₄(As,Sb)₆S₂₃
S	ⓘ Seligmannite	PbCuAsS₃
S	ⓘ Pyrite	FeS₂
S	ⓘ Galena	PbS
S	ⓘ Alunite	KAl₃(SO₄)₂(OH)₆
S	ⓘ Anglesite	PbSO₄
S	ⓘ Marcasite	FeS₂
S	ⓘ Tennantite Subgroup	Cu₆(Cu₄ C₂²⁺)As₄S₁₂S
S	ⓘ Pyrrhotite	Fe_1-xS
S	ⓘ Chalcopyrite	CuFeS₂
S	ⓘ Bornite	Cu₅FeS₄
S	ⓘ Covellite	CuS
S	ⓘ Baryte	BaSO₄
S	ⓘ Franckeite	Fe²⁺(Pb,Sn²⁺)₆Sn₂⁴⁺Sb₂S₁₄
S	ⓘ Bournonite	PbCuSbS₃
S	ⓘ Brochantite	Cu₄(SO₄)(OH)₆
S	ⓘ Linarite	PbCu(SO₄)(OH)₂
S	ⓘ Gypsum	CaSO₄ · 2H₂O
S	ⓘ Luzonite	Cu₃AsS₄
S	ⓘ Famatinite	Cu₃SbS₄
S	ⓘ Enargite	Cu₃AsS₄
S	ⓘ Pearceite	[Ag₉CuS₄][(Ag,Cu)₆(As,Sb)₂S₇]
S	ⓘ Tetrahedrite Subgroup	Cu₆(Cu₄ C₂²⁺)Sb₄S₁₂S
S	ⓘ Rozenite	FeSO₄ · 4H₂O
S	ⓘ Melanterite	Fe²⁺(H₂O)₆SO₄ · H₂O
S	ⓘ Wroewolfeite	Cu₄(SO₄)(OH)₆ · 2H₂O
S	ⓘ Bukovskýite	Fe₂³⁺(AsO₄)(SO₄)(OH) · 9H₂O
S	ⓘ Beaverite-(Cu)	Pb(Fe₂³⁺Cu)(SO₄)₂(OH)₆
S	ⓘ Wurtzite var. Cadmium-rich Wurtzite	(Zn,Cd)S
S	ⓘ Watanabeite	Cu₄(As,Sb)₂S₅
K	Potassium
K	ⓘ Alunite	KAl₃(SO₄)₂(OH)₆
K	ⓘ Muscovite var. Sericite	KAl₂(AlSi₃O₁₀)(OH)₂
K	ⓘ Muscovite var. Illite	K_0.65Al_2.0[Al_0.65Si_3.35O₁₀](OH)₂
K	ⓘ Muscovite	KAl₂(AlSi₃O₁₀)(OH)₂
Ca	Calcium
Ca	ⓘ Epidote	{Ca₂}{Al₂Fe³⁺}(Si₂O₇)(SiO₄)O(OH)
Ca	ⓘ Calcite	CaCO₃
Ca	ⓘ Gypsum	CaSO₄ · 2H₂O
Ca	ⓘ Dolomite	CaMg(CO₃)₂
Mn	Manganese
Mn	ⓘ Rhodochrosite	MnCO₃
Fe	Iron
Fe	ⓘ Stannoidite	Cu₆⁺Cu₂²⁺(Fe²⁺,Zn)₃Sn₂S₁₂
Fe	ⓘ Arsenopyrite	FeAsS
Fe	ⓘ Pyrite	FeS₂
Fe	ⓘ Epidote	{Ca₂}{Al₂Fe³⁺}(Si₂O₇)(SiO₄)O(OH)
Fe	ⓘ Goethite	α-Fe³⁺O(OH)
Fe	ⓘ Marcasite	FeS₂
Fe	ⓘ Pyrrhotite	Fe_1-xS
Fe	ⓘ Chalcopyrite	CuFeS₂
Fe	ⓘ Bornite	Cu₅FeS₄
Fe	ⓘ Siderite	FeCO₃
Fe	ⓘ Magnetite	Fe²⁺Fe₂³⁺O₄
Fe	ⓘ Franckeite	Fe²⁺(Pb,Sn²⁺)₆Sn₂⁴⁺Sb₂S₁₄
Fe	ⓘ Rozenite	FeSO₄ · 4H₂O
Fe	ⓘ Melanterite	Fe²⁺(H₂O)₆SO₄ · H₂O
Fe	ⓘ Bukovskýite	Fe₂³⁺(AsO₄)(SO₄)(OH) · 9H₂O
Fe	ⓘ Beaverite-(Cu)	Pb(Fe₂³⁺Cu)(SO₄)₂(OH)₆
Fe	ⓘ Scorodite	Fe³⁺AsO₄ · 2H₂O
Ni	Nickel
Ni	ⓘ Rammelsbergite	NiAs₂
Cu	Copper
Cu	ⓘ Lévyclaudite	Pb₈Sn₇Cu₃(Bi,Sb)₃S₂₈
Cu	ⓘ Kësterite	Cu₂ZnSnS₄
Cu	ⓘ Stannoidite	Cu₆⁺Cu₂²⁺(Fe²⁺,Zn)₃Sn₂S₁₂
Cu	ⓘ Seligmannite	PbCuAsS₃
Cu	ⓘ Tennantite Subgroup	Cu₆(Cu₄ C₂²⁺)As₄S₁₂S
Cu	ⓘ Chalcopyrite	CuFeS₂
Cu	ⓘ Bornite	Cu₅FeS₄
Cu	ⓘ Covellite	CuS
Cu	ⓘ Bournonite	PbCuSbS₃
Cu	ⓘ Brochantite	Cu₄(SO₄)(OH)₆
Cu	ⓘ Linarite	PbCu(SO₄)(OH)₂
Cu	ⓘ Luzonite	Cu₃AsS₄
Cu	ⓘ Famatinite	Cu₃SbS₄
Cu	ⓘ Enargite	Cu₃AsS₄
Cu	ⓘ Pearceite	[Ag₉CuS₄][(Ag,Cu)₆(As,Sb)₂S₇]
Cu	ⓘ Tetrahedrite Subgroup	Cu₆(Cu₄ C₂²⁺)Sb₄S₁₂S
Cu	ⓘ Wroewolfeite	Cu₄(SO₄)(OH)₆ · 2H₂O
Cu	ⓘ Beaverite-(Cu)	Pb(Fe₂³⁺Cu)(SO₄)₂(OH)₆
Cu	ⓘ Watanabeite	Cu₄(As,Sb)₂S₅
Zn	Zinc
Zn	ⓘ Wurtzite	(Zn,Fe)S
Zn	ⓘ Sphalerite	ZnS
Zn	ⓘ Kësterite	Cu₂ZnSnS₄
Zn	ⓘ Stannoidite	Cu₆⁺Cu₂²⁺(Fe²⁺,Zn)₃Sn₂S₁₂
Zn	ⓘ Wurtzite var. Cadmium-rich Wurtzite	(Zn,Cd)S
As	Arsenic
As	ⓘ Kirkiite	Pb₁₀Bi₃As₃S₁₉
As	ⓘ Arsenopyrite	FeAsS
As	ⓘ Jordanite	Pb₁₄(As,Sb)₆S₂₃
As	ⓘ Seligmannite	PbCuAsS₃
As	ⓘ Tennantite Subgroup	Cu₆(Cu₄ C₂²⁺)As₄S₁₂S
As	ⓘ Rammelsbergite	NiAs₂
As	ⓘ Luzonite	Cu₃AsS₄
As	ⓘ Enargite	Cu₃AsS₄
As	ⓘ Pearceite	[Ag₉CuS₄][(Ag,Cu)₆(As,Sb)₂S₇]
As	ⓘ Bukovskýite	Fe₂³⁺(AsO₄)(SO₄)(OH) · 9H₂O
As	ⓘ Scorodite	Fe³⁺AsO₄ · 2H₂O
As	ⓘ Watanabeite	Cu₄(As,Sb)₂S₅
Ag	Silver
Ag	ⓘ Pearceite	[Ag₉CuS₄][(Ag,Cu)₆(As,Sb)₂S₇]
Ag	ⓘ Hessite	Ag₂Te
Cd	Cadmium
Cd	ⓘ Wurtzite var. Cadmium-rich Wurtzite	(Zn,Cd)S
Sn	Tin
Sn	ⓘ Lévyclaudite	Pb₈Sn₇Cu₃(Bi,Sb)₃S₂₈
Sn	ⓘ Kësterite	Cu₂ZnSnS₄
Sn	ⓘ Stannoidite	Cu₆⁺Cu₂²⁺(Fe²⁺,Zn)₃Sn₂S₁₂
Sn	ⓘ Franckeite	Fe²⁺(Pb,Sn²⁺)₆Sn₂⁴⁺Sb₂S₁₄
Sb	Antimony
Sb	ⓘ Lévyclaudite	Pb₈Sn₇Cu₃(Bi,Sb)₃S₂₈
Sb	ⓘ Jordanite	Pb₁₄(As,Sb)₆S₂₃
Sb	ⓘ Franckeite	Fe²⁺(Pb,Sn²⁺)₆Sn₂⁴⁺Sb₂S₁₄
Sb	ⓘ Bournonite	PbCuSbS₃
Sb	ⓘ Famatinite	Cu₃SbS₄
Sb	ⓘ Pearceite	[Ag₉CuS₄][(Ag,Cu)₆(As,Sb)₂S₇]
Sb	ⓘ Tetrahedrite Subgroup	Cu₆(Cu₄ C₂²⁺)Sb₄S₁₂S
Sb	ⓘ Watanabeite	Cu₄(As,Sb)₂S₅
Te	Tellurium
Te	ⓘ Hessite	Ag₂Te
Ba	Barium
Ba	ⓘ Baryte	BaSO₄
Pb	Lead
Pb	ⓘ Kirkiite	Pb₁₀Bi₃As₃S₁₉
Pb	ⓘ Lévyclaudite	Pb₈Sn₇Cu₃(Bi,Sb)₃S₂₈
Pb	ⓘ Cosalite	Pb₂Bi₂S₅
Pb	ⓘ Jordanite	Pb₁₄(As,Sb)₆S₂₃
Pb	ⓘ Seligmannite	PbCuAsS₃
Pb	ⓘ Galena	PbS
Pb	ⓘ Anglesite	PbSO₄
Pb	ⓘ Franckeite	Fe²⁺(Pb,Sn²⁺)₆Sn₂⁴⁺Sb₂S₁₄
Pb	ⓘ Bournonite	PbCuSbS₃
Pb	ⓘ Linarite	PbCu(SO₄)(OH)₂
Pb	ⓘ Beaverite-(Cu)	Pb(Fe₂³⁺Cu)(SO₄)₂(OH)₆
Pb	ⓘ Cerussite	PbCO₃
Bi	Bismuth
Bi	ⓘ Kirkiite	Pb₁₀Bi₃As₃S₁₉
Bi	ⓘ Lévyclaudite	Pb₈Sn₇Cu₃(Bi,Sb)₃S₂₈
Bi	ⓘ Cosalite	Pb₂Bi₂S₅
Bi	ⓘ Bismuthinite	Bi₂S₃

References

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Year (asc) Year (desc) Author (A-Z) Author (Z-A)

Bureau of Mines Mineral Trade Notes (Sep, 1947).

Skarpelis, N. (1999): The Agios Filippos ore deposit, Kirki (Western Thrace). A base-metal part of a high-sulfidation epithermal system. Bulletin of the Geological Society of Greece 33, 51-60. [http://geolib.geo.auth.gr/index.php/bgsg/article/view/1157/1030]

Skarpelis, N. & Triantafyllidis, S. (2004): Environmental impact from supergene alteration and exploitation of a high sulfidation epithermal type mineralization (Kirki, NE Greece). Transactions of the Institutions of Mining and Metallurgy, Section B: Applied Earth Science 113, B110-B116.

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. [http://www.geology.bas.bg/mineralogy/gmp_files/gmp43/Voudouris.pdf]

Rocks & Minerals: 23: 123.

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.

Triantafyllidis, S. and Skarpelis, N. (2010): Geochemical investigation and modelling of an acid pit lake from a high sulfidation ore deposit: Kirki, NE Greece. Bulletin of the Geological Society of Greece 43, 2417-2424.

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.

Other Regions, Features and Areas containing this locality

Eurasian PlateTectonic Plate

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Mineral List

Rock Types Recorded

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Detailed Mineral List:

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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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