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Tada mine (Tada-gin-douzan; Tada-ginzan; Tada silver-copper mine), Inagawa-cho, Kawabe District, Hyogo, Japani
Regional Level Types
Tada mine (Tada-gin-douzan; Tada-ginzan; Tada silver-copper mine)Mine
Inagawa-cho- not defined -
Kawabe DistrictDistrict
HyogoPrefecture
JapanCountry

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Latitude & Longitude (WGS84):
34° 53' 35'' North , 135° 21' 29'' East
Latitude & Longitude (decimal):
Locality type:
Köppen climate type:
Nearest Settlements:
PlacePopulationDistance
Kawanishi160,520 (2017)10.0km
Ikeda99,476 (2017)10.2km
Takarazuka219,789 (2017)10.4km
Sandachō132,858 (2017)12.0km
Mino129,127 (2017)12.6km
Name(s) in local language(s):
多田鉱山 (多田銀銅山), 兵庫県 川辺郡 猪名川町


A copper-tin-silver mine, started in 1211 (described in ancient document), closed in 1973.
Final mining right holder was Nihon-Kogyo Co. Ltd. (now, JX Nippon Mining & Metals Corporation).

Whole area of Tada mine is owned by private owners.
Owners prohibit mineral collection activity in their land without permission.

Regions containing this locality

AsiaContinent
Amur PlateTectonic Plate
Honshu Island, JapanIsland

Select Mineral List Type

Standard Detailed Strunz Dana Chemical Elements

Mineral List


38 valid minerals.

Detailed Mineral List:

Acanthite
Formula: Ag2S
Reference: Kamitani, M., Okumura, K., Teraoka, Y., Miyano, S., and Watanabe, Y. (2007): Mineral Resources Map of East Asia. Geological Survey of Japan.; Kato, a., & Fujiki, Y. (1969). The Occurrence of Stannoidites from the Xenothermal Ore Deposits of the Akenobe, Ikuno, and Tada Mines, Hyogo Prefecfure, and the Fukoku Mine, Kyoto Prefecture, Japan. Mineralogical Journal, 5(6), 417-433.
Anglesite
Formula: PbSO4
Reference: Alfredo Petrov collection; Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)
Aurichalcite
Formula: (Zn,Cu)5(CO3)2(OH)6
Reference: Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)
Bornite
Formula: Cu5FeS4
Reference: Canadian Mineralogist Vol. 25, pp,229-236 (1987); Shimizu, M., Shimizu, M., & Tsunoda, K. (2008). Physicochemical Environment of Formation of Tin Sulfide-Bearing. Far Eastern Studies 7:23-40; Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press); Kato, a., & Fujiki, Y. (1969). The Occurrence of Stannoidites from the Xenothermal Ore Deposits of the Akenobe, Ikuno, and Tada Mines, Hyogo Prefecfure, and the Fukoku Mine, Kyoto Prefecture, Japan. Mineralogical Journal, 5(6), 417-433.
Brochantite
Formula: Cu4(SO4)(OH)6
Reference: (Tada-ginzan article in the show guide for the 5th Osaka mineral show); Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)
Calcite
Formula: CaCO3
Reference: Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press); Kato, a., & Fujiki, Y. (1969). The Occurrence of Stannoidites from the Xenothermal Ore Deposits of the Akenobe, Ikuno, and Tada Mines, Hyogo Prefecfure, and the Fukoku Mine, Kyoto Prefecture, Japan. Mineralogical Journal, 5(6), 417-433.
Caledonite
Formula: Pb5Cu2(SO4)3(CO3)(OH)6
Reference: (Tada-ginzan article in the show guide for the 5th Osaka mineral show); Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)
Cassiterite
Formula: SnO2
Reference: Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press); Kato, a., & Fujiki, Y. (1969). The Occurrence of Stannoidites from the Xenothermal Ore Deposits of the Akenobe, Ikuno, and Tada Mines, Hyogo Prefecfure, and the Fukoku Mine, Kyoto Prefecture, Japan. Mineralogical Journal, 5(6), 417-433.
Cerussite
Formula: PbCO3
Reference: Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)
Chalcocite
Formula: Cu2S
Reference: Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)
Chalcopyrite
Formula: CuFeS2
Reference: Canadian Mineralogist Vol. 25, pp,229-236 (1987); Shimizu, M., Shimizu, M., & Tsunoda, K. (2008). Physicochemical Environment of Formation of Tin Sulfide-Bearing. Far Eastern Studies 7:23-40; Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press); Kato, a., & Fujiki, Y. (1969). The Occurrence of Stannoidites from the Xenothermal Ore Deposits of the Akenobe, Ikuno, and Tada Mines, Hyogo Prefecfure, and the Fukoku Mine, Kyoto Prefecture, Japan. Mineralogical Journal, 5(6), 417-433.
'Chlorite Group'
Reference: Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)
Covellite
Formula: CuS
Reference: Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)
Cuprite
Formula: Cu2O
Reference: Kyoto University collection; Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)
Devilline
Formula: CaCu4(SO4)2(OH)6 · 3H2O
Reference: Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)
Digenite
Formula: Cu9S5
Reference: Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)
Fluorite
Formula: CaF2
Reference: Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.); Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press); Kato, a., & Fujiki, Y. (1969). The Occurrence of Stannoidites from the Xenothermal Ore Deposits of the Akenobe, Ikuno, and Tada Mines, Hyogo Prefecfure, and the Fukoku Mine, Kyoto Prefecture, Japan. Mineralogical Journal, 5(6), 417-433.
Galena
Formula: PbS
Reference: Canadian Mineralogist Vol. 25, pp,229-236 (1987); Shimizu, M., Shimizu, M., & Tsunoda, K. (2008). Physicochemical Environment of Formation of Tin Sulfide-Bearing. Far Eastern Studies 7:23-40; Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press); Kato, a., & Fujiki, Y. (1969). The Occurrence of Stannoidites from the Xenothermal Ore Deposits of the Akenobe, Ikuno, and Tada Mines, Hyogo Prefecfure, and the Fukoku Mine, Kyoto Prefecture, Japan. Mineralogical Journal, 5(6), 417-433.
Gold
Formula: Au
Reference: Okamoto collection (curated at the Geological Survey museum, Japan)
Jalpaite ?
Formula: Ag3CuS2
Description: Or mckinstryite.
Reference: Imai, H. & Lee, M. S. (1972): Silver minerals from the xenothermal deposits in the western Kinki Metallogenetic Province, with special reference to silver minerals from the Tada Mine. Journal of the Faculty of Engineering, University of Tokyo, Series A: Annual Report, No. 10, 54-55 (in Japanese).; Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)
Langite
Formula: Cu4(SO4)(OH)6 · 2H2O
Reference: Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)
Leadhillite
Formula: Pb4(CO3)2(SO4)(OH)2
Reference: Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)
Linarite
Formula: PbCu(SO4)(OH)2
Reference: (Tada-ginzan article in the show guide for the 5th Osaka mineral show)
Mawsonite
Formula: Cu6Fe2SnS8
Reference: Handbook of Mineralogy - Anthony, Bideaux, Bladh, Nichols; Canadian Mineralogist Vol. 25, pp,229-236 (1987); Shimizu, M., Shimizu, M., & Tsunoda, K. (2008). Physicochemical Environment of Formation of Tin Sulfide-Bearing. Far Eastern Studies 7:23-40; Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press); Kato, a., & Fujiki, Y. (1969). The Occurrence of Stannoidites from the Xenothermal Ore Deposits of the Akenobe, Ikuno, and Tada Mines, Hyogo Prefecfure, and the Fukoku Mine, Kyoto Prefecture, Japan. Mineralogical Journal, 5(6), 417-433.
Mckinstryite ?
Formula: Ag5-xCu3+xS4
Description: Or jalpaite.
Reference: Imai, H. & Lee, M. S. (1972): Silver minerals from the xenothermal deposits in the western Kinki Metallogenetic Province, with special reference to silver minerals from the Tada Mine. Journal of the Faculty of Engineering, University of Tokyo, Series A: Annual Report, No. 10, 54-55 (in Japanese).; Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)
Muscovite
Formula: KAl2(AlSi3O10)(OH)2
Reference: Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)
Muscovite var: Sericite
Formula: KAl2(AlSi3O10)(OH)2
Reference: Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)
Pyrite
Formula: FeS2
Reference: Kamitani, M., Okumura, K., Teraoka, Y., Miyano, S., and Watanabe, Y. (2007): Mineral Resources Map of East Asia. Geological Survey of Japan.; Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)
Pyromorphite
Formula: Pb5(PO4)3Cl
Reference: Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)
Pyrrhotite
Formula: Fe7S8
Reference: Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)
Quartz
Formula: SiO2
Reference: Alfredo Petrov, field observations.; Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press); Kato, a., & Fujiki, Y. (1969). The Occurrence of Stannoidites from the Xenothermal Ore Deposits of the Akenobe, Ikuno, and Tada Mines, Hyogo Prefecfure, and the Fukoku Mine, Kyoto Prefecture, Japan. Mineralogical Journal, 5(6), 417-433.
Serpierite
Formula: Ca(Cu,Zn)4(SO4)2(OH)6 · 3H2O
Reference: Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)
Silver
Formula: Ag
Reference: Imai, H. & Lee, M. S. (1972): Silver minerals from the xenothermal deposits in the western Kinki Metallogenetic Province, with special reference to silver minerals from the Tada Mine. Journal of the Faculty of Engineering, University of Tokyo, Series A: Annual Report, No. 10, 54-55 (in Japanese).; Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press); Kato, a., & Fujiki, Y. (1969). The Occurrence of Stannoidites from the Xenothermal Ore Deposits of the Akenobe, Ikuno, and Tada Mines, Hyogo Prefecfure, and the Fukoku Mine, Kyoto Prefecture, Japan. Mineralogical Journal, 5(6), 417-433.
Sphalerite
Formula: ZnS
Reference: Canadian Mineralogist Vol. 25, pp,229-236 (1987); Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press); Kato, a., & Fujiki, Y. (1969). The Occurrence of Stannoidites from the Xenothermal Ore Deposits of the Akenobe, Ikuno, and Tada Mines, Hyogo Prefecfure, and the Fukoku Mine, Kyoto Prefecture, Japan. Mineralogical Journal, 5(6), 417-433.
Stannite
Formula: Cu2FeSnS4
Reference: Kamitani, M., Okumura, K., Teraoka, Y., Miyano, S., and Watanabe, Y. (2007): Mineral Resources Map of East Asia. Geological Survey of Japan.; Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)
Stannoidite
Formula: Cu+6Cu2+2(Fe2+,Zn)3Sn2S12
Reference: Canadian Mineralogist Vol. 25, pp,229-236 (1987); Shimizu, M., Shimizu, M., & Tsunoda, K. (2008). Physicochemical Environment of Formation of Tin Sulfide-Bearing. Far Eastern Studies 7:23-40; Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press); Kato, a., & Fujiki, Y. (1969). The Occurrence of Stannoidites from the Xenothermal Ore Deposits of the Akenobe, Ikuno, and Tada Mines, Hyogo Prefecfure, and the Fukoku Mine, Kyoto Prefecture, Japan. Mineralogical Journal, 5(6), 417-433.
Stromeyerite
Formula: AgCuS
Reference: Masutomi Museum specimens (Kyoto); Imai, H. & Lee, M. S. (1972): Silver minerals from the xenothermal deposits in the western Kinki Metallogenetic Province, with special reference to silver minerals from the Tada Mine. Journal of the Faculty of Engineering, University of Tokyo, Series A: Annual Report, No. 10, 54-55 (in Japanese).; Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)
Tennantite
Formula: Cu6[Cu4(Fe,Zn)2]As4S13
Reference: Canadian Mineralogist Vol. 25, pp,229-236 (1987)
Tetrahedrite
Formula: Cu6[Cu4(Fe,Zn)2]Sb4S13
Reference: Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.); Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press); Kato, a., & Fujiki, Y. (1969). The Occurrence of Stannoidites from the Xenothermal Ore Deposits of the Akenobe, Ikuno, and Tada Mines, Hyogo Prefecfure, and the Fukoku Mine, Kyoto Prefecture, Japan. Mineralogical Journal, 5(6), 417-433.
Troilite
Formula: FeS
Reference: Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

List of minerals arranged by Strunz 10th Edition classification

Group 1 - Elements
Gold1.AA.05Au
Silver1.AA.05Ag
Group 2 - Sulphides and Sulfosalts
Acanthite2.BA.35Ag2S
Bornite2.BA.15Cu5FeS4
Chalcocite2.BA.05Cu2S
Chalcopyrite2.CB.10aCuFeS2
Covellite2.CA.05aCuS
Digenite2.BA.10Cu9S5
Galena2.CD.10PbS
Jalpaite ?2.BA.45Ag3CuS2
Mawsonite2.CB.20Cu6Fe2SnS8
Mckinstryite ?2.BA.40Ag5-xCu3+xS4
Pyrite2.EB.05aFeS2
Pyrrhotite2.CC.10Fe7S8
Sphalerite2.CB.05aZnS
Stannite2.CB.15aCu2FeSnS4
Stannoidite2.CB.15cCu+6Cu2+2(Fe2+,Zn)3Sn2S12
Stromeyerite2.BA.40AgCuS
Tennantite2.GB.05Cu6[Cu4(Fe,Zn)2]As4S13
Tetrahedrite2.GB.05Cu6[Cu4(Fe,Zn)2]Sb4S13
Troilite2.CC.10FeS
Group 3 - Halides
Fluorite3.AB.25CaF2
Group 4 - Oxides and Hydroxides
Cassiterite4.DB.05SnO2
Cuprite4.AA.10Cu2O
Quartz4.DA.05SiO2
Group 5 - Nitrates and Carbonates
Aurichalcite5.BA.15(Zn,Cu)5(CO3)2(OH)6
Calcite5.AB.05CaCO3
Cerussite5.AB.15PbCO3
Leadhillite5.BF.40Pb4(CO3)2(SO4)(OH)2
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
Anglesite7.AD.35PbSO4
Brochantite7.BB.25Cu4(SO4)(OH)6
Caledonite7.BC.50Pb5Cu2(SO4)3(CO3)(OH)6
Devilline7.DD.30CaCu4(SO4)2(OH)6 · 3H2O
Langite7.DD.10Cu4(SO4)(OH)6 · 2H2O
Linarite7.BC.65PbCu(SO4)(OH)2
Serpierite7.DD.30Ca(Cu,Zn)4(SO4)2(OH)6 · 3H2O
Group 8 - Phosphates, Arsenates and Vanadates
Pyromorphite8.BN.05Pb5(PO4)3Cl
Group 9 - Silicates
Muscovite9.EC.15KAl2(AlSi3O10)(OH)2
var: Sericite9.EC.15KAl2(AlSi3O10)(OH)2
Unclassified Minerals, Rocks, etc.
'Chlorite Group'-

List of minerals arranged by Dana 8th Edition classification

Group 1 - NATIVE ELEMENTS AND ALLOYS
Metals, other than the Platinum Group
Gold1.1.1.1Au
Silver1.1.1.2Ag
Group 2 - SULFIDES
AmBnXp, with (m+n):p = 2:1
Acanthite2.4.1.1Ag2S
Chalcocite2.4.7.1Cu2S
Digenite2.4.7.3Cu9S5
Jalpaite ?2.4.4.1Ag3CuS2
Mckinstryite ?2.4.5.1Ag5-xCu3+xS4
Stromeyerite2.4.6.1AgCuS
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
Troilite2.8.9.1FeS
AmBnXp, with (m+n):p = 1:1
Chalcopyrite2.9.1.1CuFeS2
Mawsonite2.9.3.1Cu6Fe2SnS8
Stannite2.9.2.1Cu2FeSnS4
Stannoidite2.9.3.3Cu+6Cu2+2(Fe2+,Zn)3Sn2S12
AmBnXp, with (m+n):p = 1:2
Pyrite2.12.1.1FeS2
Group 3 - SULFOSALTS
3 <ø < 4
Tennantite3.3.6.2Cu6[Cu4(Fe,Zn)2]As4S13
Tetrahedrite3.3.6.1Cu6[Cu4(Fe,Zn)2]Sb4S13
Group 4 - SIMPLE OXIDES
A2X
Cuprite4.1.1.1Cu2O
AX2
Cassiterite4.4.1.5SnO2
Group 9 - NORMAL HALIDES
AX2
Fluorite9.2.1.1CaF2
Group 14 - ANHYDROUS NORMAL CARBONATES
A(XO3)
Calcite14.1.1.1CaCO3
Cerussite14.1.3.4PbCO3
Group 16a - ANHYDROUS CARBONATES CONTAINING HYDROXYL OR HALOGEN
Aurichalcite16a.4.2.1(Zn,Cu)5(CO3)2(OH)6
Group 17 - COMPOUND CARBONATES
Miscellaneous
Leadhillite17.1.2.1Pb4(CO3)2(SO4)(OH)2
Group 28 - ANHYDROUS ACID AND NORMAL SULFATES
AXO4
Anglesite28.3.1.3PbSO4
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
Linarite30.2.3.1PbCu(SO4)(OH)2
Group 31 - HYDRATED SULFATES CONTAINING HYDROXYL OR HALOGEN
(AB)4(XO4)Zq·xH2O
Langite31.4.3.1Cu4(SO4)(OH)6 · 2H2O
(AB)5(XO4)2Zq·xH2O
Devilline31.6.1.1CaCu4(SO4)2(OH)6 · 3H2O
Serpierite31.6.2.1Ca(Cu,Zn)4(SO4)2(OH)6 · 3H2O
Group 32 - COMPOUND SULFATES
Anhydrous Compound Sulfates containing Hydroxyl or Halogen
Caledonite32.3.2.1Pb5Cu2(SO4)3(CO3)(OH)6
Group 41 - ANHYDROUS PHOSPHATES, ETC.CONTAINING HYDROXYL OR HALOGEN
A5(XO4)3Zq
Pyromorphite41.8.4.1Pb5(PO4)3Cl
Group 71 - PHYLLOSILICATES Sheets of Six-Membered Rings
Sheets of 6-membered rings with 2:1 layers
Muscovite71.2.2a.1KAl2(AlSi3O10)(OH)2
Group 75 - TECTOSILICATES Si Tetrahedral Frameworks
Si Tetrahedral Frameworks - SiO2 with [4] coordinated Si
Quartz75.1.3.1SiO2
Unclassified Minerals, Mixtures, etc.
'Chlorite Group'-
Muscovite
var: Sericite
-KAl2(AlSi3O10)(OH)2

List of minerals for each chemical element

HHydrogen
H BrochantiteCu4(SO4)(OH)6
H CaledonitePb5Cu2(SO4)3(CO3)(OH)6
H LinaritePbCu(SO4)(OH)2
H Aurichalcite(Zn,Cu)5(CO3)2(OH)6
H DevillineCaCu4(SO4)2(OH)6 · 3H2O
H LangiteCu4(SO4)(OH)6 · 2H2O
H LeadhillitePb4(CO3)2(SO4)(OH)2
H SerpieriteCa(Cu,Zn)4(SO4)2(OH)6 · 3H2O
H Muscovite (var: Sericite)KAl2(AlSi3O10)(OH)2
H MuscoviteKAl2(AlSi3O10)(OH)2
CCarbon
C CaledonitePb5Cu2(SO4)3(CO3)(OH)6
C Aurichalcite(Zn,Cu)5(CO3)2(OH)6
C LeadhillitePb4(CO3)2(SO4)(OH)2
C CerussitePbCO3
C CalciteCaCO3
OOxygen
O QuartzSiO2
O BrochantiteCu4(SO4)(OH)6
O CaledonitePb5Cu2(SO4)3(CO3)(OH)6
O LinaritePbCu(SO4)(OH)2
O AnglesitePbSO4
O CupriteCu2O
O Aurichalcite(Zn,Cu)5(CO3)2(OH)6
O DevillineCaCu4(SO4)2(OH)6 · 3H2O
O LangiteCu4(SO4)(OH)6 · 2H2O
O LeadhillitePb4(CO3)2(SO4)(OH)2
O SerpieriteCa(Cu,Zn)4(SO4)2(OH)6 · 3H2O
O CerussitePbCO3
O PyromorphitePb5(PO4)3Cl
O CassiteriteSnO2
O Muscovite (var: Sericite)KAl2(AlSi3O10)(OH)2
O CalciteCaCO3
O MuscoviteKAl2(AlSi3O10)(OH)2
FFluorine
F FluoriteCaF2
AlAluminium
Al Muscovite (var: Sericite)KAl2(AlSi3O10)(OH)2
Al MuscoviteKAl2(AlSi3O10)(OH)2
SiSilicon
Si QuartzSiO2
Si Muscovite (var: Sericite)KAl2(AlSi3O10)(OH)2
Si MuscoviteKAl2(AlSi3O10)(OH)2
PPhosphorus
P PyromorphitePb5(PO4)3Cl
SSulfur
S MawsoniteCu6Fe2SnS8
S BorniteCu5FeS4
S StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
S ChalcopyriteCuFeS2
S SphaleriteZnS
S GalenaPbS
S BrochantiteCu4(SO4)(OH)6
S CaledonitePb5Cu2(SO4)3(CO3)(OH)6
S LinaritePbCu(SO4)(OH)2
S StromeyeriteAgCuS
S AnglesitePbSO4
S TennantiteCu6[Cu4(Fe,Zn)2]As4S13
S AcanthiteAg2S
S PyriteFeS2
S StanniteCu2FeSnS4
S TetrahedriteCu6[Cu4(Fe,Zn)2]Sb4S13
S CovelliteCuS
S DevillineCaCu4(SO4)2(OH)6 · 3H2O
S LangiteCu4(SO4)(OH)6 · 2H2O
S LeadhillitePb4(CO3)2(SO4)(OH)2
S SerpieriteCa(Cu,Zn)4(SO4)2(OH)6 · 3H2O
S PyrrhotiteFe7S8
S ChalcociteCu2S
S DigeniteCu9S5
S TroiliteFeS
S MckinstryiteAg5-xCu3+xS4
S JalpaiteAg3CuS2
ClChlorine
Cl PyromorphitePb5(PO4)3Cl
KPotassium
K Muscovite (var: Sericite)KAl2(AlSi3O10)(OH)2
K MuscoviteKAl2(AlSi3O10)(OH)2
CaCalcium
Ca DevillineCaCu4(SO4)2(OH)6 · 3H2O
Ca SerpieriteCa(Cu,Zn)4(SO4)2(OH)6 · 3H2O
Ca FluoriteCaF2
Ca CalciteCaCO3
FeIron
Fe MawsoniteCu6Fe2SnS8
Fe BorniteCu5FeS4
Fe StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
Fe ChalcopyriteCuFeS2
Fe PyriteFeS2
Fe StanniteCu2FeSnS4
Fe TetrahedriteCu6[Cu4(Fe,Zn)2]Sb4S13
Fe PyrrhotiteFe7S8
Fe TroiliteFeS
CuCopper
Cu MawsoniteCu6Fe2SnS8
Cu BorniteCu5FeS4
Cu StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
Cu ChalcopyriteCuFeS2
Cu BrochantiteCu4(SO4)(OH)6
Cu CaledonitePb5Cu2(SO4)3(CO3)(OH)6
Cu LinaritePbCu(SO4)(OH)2
Cu StromeyeriteAgCuS
Cu TennantiteCu6[Cu4(Fe,Zn)2]As4S13
Cu StanniteCu2FeSnS4
Cu CupriteCu2O
Cu TetrahedriteCu6[Cu4(Fe,Zn)2]Sb4S13
Cu Aurichalcite(Zn,Cu)5(CO3)2(OH)6
Cu CovelliteCuS
Cu DevillineCaCu4(SO4)2(OH)6 · 3H2O
Cu LangiteCu4(SO4)(OH)6 · 2H2O
Cu SerpieriteCa(Cu,Zn)4(SO4)2(OH)6 · 3H2O
Cu ChalcociteCu2S
Cu DigeniteCu9S5
Cu MckinstryiteAg5-xCu3+xS4
Cu JalpaiteAg3CuS2
ZnZinc
Zn StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
Zn SphaleriteZnS
Zn TetrahedriteCu6[Cu4(Fe,Zn)2]Sb4S13
Zn Aurichalcite(Zn,Cu)5(CO3)2(OH)6
Zn SerpieriteCa(Cu,Zn)4(SO4)2(OH)6 · 3H2O
AsArsenic
As TennantiteCu6[Cu4(Fe,Zn)2]As4S13
AgSilver
Ag StromeyeriteAgCuS
Ag SilverAg
Ag AcanthiteAg2S
Ag MckinstryiteAg5-xCu3+xS4
Ag JalpaiteAg3CuS2
SnTin
Sn MawsoniteCu6Fe2SnS8
Sn StannoiditeCu6+Cu22+(Fe2+,Zn)3Sn2S12
Sn StanniteCu2FeSnS4
Sn CassiteriteSnO2
SbAntimony
Sb TetrahedriteCu6[Cu4(Fe,Zn)2]Sb4S13
AuGold
Au GoldAu
PbLead
Pb GalenaPbS
Pb CaledonitePb5Cu2(SO4)3(CO3)(OH)6
Pb LinaritePbCu(SO4)(OH)2
Pb AnglesitePbSO4
Pb LeadhillitePb4(CO3)2(SO4)(OH)2
Pb CerussitePbCO3
Pb PyromorphitePb5(PO4)3Cl

Regional Geology

This geological map and associated information on rock units at or nearby to the coordinates given for this locality is based on relatively small scale geological maps provided by various national Geological Surveys. This does not necessarily represent the complete geology at this locality but it gives a background for the region in which it is found.

Click on geological units on the map for more information. Click here to view full-screen map on Macrostrat.org

Paleogene - Cretaceous
23.03 - 145 Ma



ID: 3185777
Mesozoic-Cenozoic volcanic and intrusive rocks

Age: Phanerozoic (23.03 - 145 Ma)

Lithology: Intermediate-felsic volcanic rocks

Reference: Chorlton, L.B. Generalized geology of the world: bedrock domains and major faults in GIS format: a small-scale world geology map with an extended geological attribute database. doi: 10.4095/223767. Geological Survey of Canada, Open File 5529. [154]

Data and map coding provided by Macrostrat.org, used under Creative Commons Attribution 4.0 License

References

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Year (asc) Year (desc) Author (A-Z) Author (Z-A)
Kato, a., & Fujiki, Y. (1969). The Occurrence of Stannoidites from the Xenothermal Ore Deposits of the Akenobe, Ikuno, and Tada Mines, Hyogo Prefecfure, and the Fukoku Mine, Kyoto Prefecture, Japan. Mineralogical Journal, 5(6), 417-433.
- Imai, H. & Lee, M. S. (1972): Silver minerals from the xenothermal deposits in the western Kinki Metallogenetic Province, with special reference to silver minerals from the Tada Mine. Journal of the Faculty of Engineering, University of Tokyo, Series A: Annual Report, No. 10, 54-55 (in Japanese).


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