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Tada mine (Tada-gin-douzan; Tada-ginzan; Tada silver-copper mine), Inagawa-cho, Kawabe District, Hyogo Prefecture, Japan i
Regional Level Types
Tada mine (Tada-gin-douzan; Tada-ginzan; Tada silver-copper mine) Mine
Inagawa-cho - not defined -
Kawabe District District
Hyogo Prefecture Prefecture
Japan Country

Regional Level Types
Tada mine (Tada-gin-douzan; Tada-ginzan; Tada silver-copper mine)	Mine
Inagawa-cho	- not defined -
Kawabe District	District
Hyogo Prefecture	Prefecture
Japan	Country

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Latitude & Longitude (WGS84):

34° 53' 35'' North , 135° 21' 29'' East

Latitude & Longitude (decimal):

G#: xn0q80hfv

Type:

Köppen climate type:

Cfa : Humid subtropical climate

Nearest Settlements:

Place	Population	Distance
Kawanishi	160,520 (2017)	10.0km
Ikeda	99,476 (2017)	10.2km
Takarazuka	219,789 (2017)	10.4km
Sandachō	132,858 (2017)	12.0km
Mino	129,127 (2017)	12.6km

Mindat Locality ID:

132661

Long-form identifier:

mindat:1:2:132661:4

GUID (UUID V4):

698cc922-ccec-4847-a838-81b48b51729a

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. The owners prohibit mineral collection activity in their land without permission.

Select Mineral List Type

Standard Detailed Gallery Strunz Chemical Elements

Mineral List

39 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:

ⓘ Acanthite

Formula: Ag₂S

References:

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., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Kamitani, M., Okumura, K., Teraoka, Y., Miyano, S., Watanabe, Y. (2007) Mineral Resources Map of East Asia, Geological Survey of Japan.

ⓘ Anglesite

Formula: PbSO₄

References:

Petrov, Alfredo (n.d.) Personal Communication.

Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)

ⓘ Aurichalcite

Formula: (Zn,Cu)₅(CO₃)₂(OH)₆

References:

Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)

ⓘ Bornite

Formula: Cu₅FeS₄

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

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

ⓘ Brochantite

Formula: Cu₄(SO₄)(OH)₆

References:

(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

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

ⓘ Caledonite

Formula: Pb₅Cu₂(SO₄)₃(CO₃)(OH)₆

References:

(Tada-ginzan article in the show guide for the 5th Osaka mineral show)

Yamaha, T., Yamada, S. (1996) Caledonite from Tada Mine. Hyogo Prefecture, (Japan), Chigaku Kenkyu, 44(3/4), 179-182.

Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.).

ⓘ Cassiterite

Formula: SnO₂

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

ⓘ Cerussite

Formula: PbCO₃

References:

Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)

ⓘ Chalcocite

Formula: Cu₂S

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

ⓘ Chalcopyrite

Formula: CuFeS₂

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

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

ⓘ 'Chlorite Group'

References:

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

ⓘ Covellite

Formula: CuS

References:

Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)

ⓘ Cuprite

Formula: Cu₂O

References:

Kyoto University collection

Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)

ⓘ Devilline

Formula: CaCu₄(SO₄)₂(OH)₆ · 3H₂O

References:

Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)

ⓘ Digenite

Formula: Cu₉S₅

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

ⓘ Fluorite

Formula: CaF₂

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)

ⓘ Galena

Formula: PbS

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

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

ⓘ Gold

Formula: Au

References:

Okamoto collection (curated at the Geological Survey museum, Japan)

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

ⓘ Jalpaite ?

Formula: Ag₃CuS₂

Description: Or mckinstryite.

References:

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., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

ⓘ 'K Feldspar'

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

ⓘ 'K Feldspar var. Adularia'

Formula: KAlSi₃O₈

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

ⓘ Langite

Formula: Cu₄(SO₄)(OH)₆ · 2H₂O

References:

Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)

ⓘ Leadhillite

Formula: Pb₄(CO₃)₂(SO₄)(OH)₂

References:

Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)

ⓘ Linarite

Formula: PbCu(SO₄)(OH)₂

References:

(Tada-ginzan article in the show guide for the 5th Osaka mineral show)

ⓘ Mawsonite

Formula: Cu₆Fe₂SnS₈

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

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

Anthony, John W., Bideaux, Richard A., Bladh, Kenneth W., Nichols, Monte C. - Eds. (2016) Handbook of Mineralogy. https://www.handbookofmineralogy.org/

ⓘ Mckinstryite ?

Formula: Ag_5-xCu_3+xS₄

Description: Or jalpaite.

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

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

References:

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

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

ⓘ Orthoclase

Formula: K(AlSi₃O₈)

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

ⓘ Polybasite

Formula: [Ag₆Sb₂S₇][Ag₉CuS₄]

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

ⓘ Pyrite

Formula: FeS₂

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

Kamitani, M., Okumura, K., Teraoka, Y., Miyano, S., Watanabe, Y. (2007) Mineral Resources Map of East Asia, Geological Survey of Japan.

ⓘ Pyromorphite

Formula: Pb₅(PO₄)₃Cl

References:

Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)

ⓘ Pyrrhotite

Formula: Fe_1-xS

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

ⓘ Quartz

Formula: SiO₂

References:

Petrov, Alfredo (n.d.) Personal Communication.

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

ⓘ Serpierite

Formula: Ca(Cu,Zn)₄(SO₄)₂(OH)₆ · 3H₂O

References:

Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)

ⓘ Silver

Formula: Ag

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

ⓘ Sphalerite

Formula: ZnS

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

Canadian Mineralogist Vol. 25, pp,229-236 (1987)

ⓘ Stannite

Formula: Cu₂FeSnS₄

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

Kamitani, M., Okumura, K., Teraoka, Y., Miyano, S., Watanabe, Y. (2007) Mineral Resources Map of East Asia, Geological Survey of Japan.

ⓘ Stannoidite

Formula: Cu⁺₆Cu²⁺₂(Fe²⁺,Zn)₃Sn₂S₁₂

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

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

ⓘ Stephanite

Formula: Ag₅SbS₄

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

ⓘ Stromeyerite

Formula: AgCuS

References:

Masutomi Museum specimens (Kyoto)

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

ⓘ 'Tennantite Subgroup'

Formula: Cu₆(Cu₄C²⁺₂)As₄S₁₂S

References:

Canadian Mineralogist Vol. 25, pp,229-236 (1987)

ⓘ 'Tetrahedrite Subgroup'

Formula: Cu₆(Cu₄C²⁺₂)Sb₄S₁₂S

References:

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

Yamada, S. (2004) Nihonsan-koubutsu Gojuon-hairetsu Sanchi-ichiranhyou (111 pp.)

ⓘ Troilite

Formula: FeS

References:

Imai, H. (1978) Geological studies of the mineral deposits in Japan and East Asia. pp 87-105 (University of Tokyo Press)

Gallery:

List of minerals arranged by Strunz 10th Edition classification

Group 1 - Elements
ⓘ	Gold	1.AA.05	Au
ⓘ	Silver	1.AA.05	Ag
Group 2 - Sulphides and Sulfosalts
ⓘ	Chalcocite	2.BA.05	Cu₂S
ⓘ	Digenite	2.BA.10	Cu₉S₅
ⓘ	Bornite	2.BA.15	Cu₅FeS₄
ⓘ	Acanthite	2.BA.35	Ag₂S
ⓘ	Stromeyerite	2.BA.40	AgCuS
ⓘ	Mckinstryite ?	2.BA.40	Ag_5-xCu_3+xS₄
ⓘ	Jalpaite ?	2.BA.45	Ag₃CuS₂
ⓘ	Covellite	2.CA.05a	CuS
ⓘ	Sphalerite	2.CB.05a	ZnS
ⓘ	Chalcopyrite	2.CB.10a	CuFeS₂
ⓘ	Stannite	2.CB.15a	Cu₂FeSnS₄
ⓘ	Stannoidite	2.CB.15c	Cu⁺₆Cu²⁺₂(Fe²⁺,Zn)₃Sn₂S₁₂
ⓘ	Mawsonite	2.CB.20	Cu₆Fe₂SnS₈
ⓘ	Pyrrhotite	2.CC.10	Fe_1-xS
ⓘ	Troilite	2.CC.10	FeS
ⓘ	Galena	2.CD.10	PbS
ⓘ	Pyrite	2.EB.05a	FeS₂
ⓘ	'Tetrahedrite Subgroup'	2.GB.05	Cu₆(Cu₄C²⁺₂)Sb₄S₁₂S
ⓘ	'Tennantite Subgroup'	2.GB.05	Cu₆(Cu₄C²⁺₂)As₄S₁₂S
ⓘ	Stephanite	2.GB.10	Ag₅SbS₄
ⓘ	Polybasite	2.GB.15	[Ag₆Sb₂S₇][Ag₉CuS₄]
Group 3 - Halides
ⓘ	Fluorite	3.AB.25	CaF₂
Group 4 - Oxides and Hydroxides
ⓘ	Cuprite	4.AA.10	Cu₂O
ⓘ	Quartz	4.DA.05	SiO₂
ⓘ	Cassiterite	4.DB.05	SnO₂
Group 5 - Nitrates and Carbonates
ⓘ	Calcite	5.AB.05	CaCO₃
ⓘ	Cerussite	5.AB.15	PbCO₃
ⓘ	Aurichalcite	5.BA.15	(Zn,Cu)₅(CO₃)₂(OH)₆
ⓘ	Leadhillite	5.BF.40	Pb₄(CO₃)₂(SO₄)(OH)₂
Group 7 - Sulphates, Chromates, Molybdates and Tungstates
ⓘ	Anglesite	7.AD.35	PbSO₄
ⓘ	Brochantite	7.BB.25	Cu₄(SO₄)(OH)₆
ⓘ	Caledonite	7.BC.50	Pb₅Cu₂(SO₄)₃(CO₃)(OH)₆
ⓘ	Linarite	7.BC.65	PbCu(SO₄)(OH)₂
ⓘ	Langite	7.DD.10	Cu₄(SO₄)(OH)₆ · 2H₂O
ⓘ	Serpierite	7.DD.30	Ca(Cu,Zn)₄(SO₄)₂(OH)₆ · 3H₂O
ⓘ	Devilline	7.DD.30	CaCu₄(SO₄)₂(OH)₆ · 3H₂O
Group 8 - Phosphates, Arsenates and Vanadates
ⓘ	Pyromorphite	8.BN.05	Pb₅(PO₄)₃Cl
Group 9 - Silicates
ⓘ	Muscovite	9.EC.15	KAl₂(AlSi₃O₁₀)(OH)₂
ⓘ	var. Sericite	9.EC.15	KAl₂(AlSi₃O₁₀)(OH)₂
ⓘ	Orthoclase	9.FA.30	K(AlSi₃O₈)
Unclassified
ⓘ	'K Feldspar var. Adularia'	-	KAlSi₃O₈
ⓘ	'Chlorite Group'	-
ⓘ	'K Feldspar'	-

List of minerals for each chemical element

H	Hydrogen
H	ⓘ Aurichalcite	(Zn,Cu)₅(CO₃)₂(OH)₆
H	ⓘ Brochantite	Cu₄(SO₄)(OH)₆
H	ⓘ Caledonite	Pb₅Cu₂(SO₄)₃(CO₃)(OH)₆
H	ⓘ Devilline	CaCu₄(SO₄)₂(OH)₆ · 3H₂O
H	ⓘ Langite	Cu₄(SO₄)(OH)₆ · 2H₂O
H	ⓘ Leadhillite	Pb₄(CO₃)₂(SO₄)(OH)₂
H	ⓘ Linarite	PbCu(SO₄)(OH)₂
H	ⓘ Muscovite	KAl₂(AlSi₃O₁₀)(OH)₂
H	ⓘ Serpierite	Ca(Cu,Zn)₄(SO₄)₂(OH)₆ · 3H₂O
H	ⓘ Muscovite var. Sericite	KAl₂(AlSi₃O₁₀)(OH)₂
C	Carbon
C	ⓘ Aurichalcite	(Zn,Cu)₅(CO₃)₂(OH)₆
C	ⓘ Calcite	CaCO₃
C	ⓘ Caledonite	Pb₅Cu₂(SO₄)₃(CO₃)(OH)₆
C	ⓘ Cerussite	PbCO₃
C	ⓘ Leadhillite	Pb₄(CO₃)₂(SO₄)(OH)₂
O	Oxygen
O	ⓘ K Feldspar var. Adularia	KAlSi₃O₈
O	ⓘ Anglesite	PbSO₄
O	ⓘ Aurichalcite	(Zn,Cu)₅(CO₃)₂(OH)₆
O	ⓘ Brochantite	Cu₄(SO₄)(OH)₆
O	ⓘ Calcite	CaCO₃
O	ⓘ Caledonite	Pb₅Cu₂(SO₄)₃(CO₃)(OH)₆
O	ⓘ Cassiterite	SnO₂
O	ⓘ Cerussite	PbCO₃
O	ⓘ Cuprite	Cu₂O
O	ⓘ Devilline	CaCu₄(SO₄)₂(OH)₆ · 3H₂O
O	ⓘ Langite	Cu₄(SO₄)(OH)₆ · 2H₂O
O	ⓘ Leadhillite	Pb₄(CO₃)₂(SO₄)(OH)₂
O	ⓘ Linarite	PbCu(SO₄)(OH)₂
O	ⓘ Muscovite	KAl₂(AlSi₃O₁₀)(OH)₂
O	ⓘ Orthoclase	K(AlSi₃O₈)
O	ⓘ Pyromorphite	Pb₅(PO₄)₃Cl
O	ⓘ Quartz	SiO₂
O	ⓘ Serpierite	Ca(Cu,Zn)₄(SO₄)₂(OH)₆ · 3H₂O
O	ⓘ Muscovite var. Sericite	KAl₂(AlSi₃O₁₀)(OH)₂
F	Fluorine
F	ⓘ Fluorite	CaF₂
Al	Aluminium
Al	ⓘ K Feldspar var. Adularia	KAlSi₃O₈
Al	ⓘ Muscovite	KAl₂(AlSi₃O₁₀)(OH)₂
Al	ⓘ Orthoclase	K(AlSi₃O₈)
Al	ⓘ Muscovite var. Sericite	KAl₂(AlSi₃O₁₀)(OH)₂
Si	Silicon
Si	ⓘ K Feldspar var. Adularia	KAlSi₃O₈
Si	ⓘ Muscovite	KAl₂(AlSi₃O₁₀)(OH)₂
Si	ⓘ Orthoclase	K(AlSi₃O₈)
Si	ⓘ Quartz	SiO₂
Si	ⓘ Muscovite var. Sericite	KAl₂(AlSi₃O₁₀)(OH)₂
P	Phosphorus
P	ⓘ Pyromorphite	Pb₅(PO₄)₃Cl
S	Sulfur
S	ⓘ Acanthite	Ag₂S
S	ⓘ Anglesite	PbSO₄
S	ⓘ Bornite	Cu₅FeS₄
S	ⓘ Brochantite	Cu₄(SO₄)(OH)₆
S	ⓘ Caledonite	Pb₅Cu₂(SO₄)₃(CO₃)(OH)₆
S	ⓘ Chalcopyrite	CuFeS₂
S	ⓘ Chalcocite	Cu₂S
S	ⓘ Covellite	CuS
S	ⓘ Devilline	CaCu₄(SO₄)₂(OH)₆ · 3H₂O
S	ⓘ Digenite	Cu₉S₅
S	ⓘ Galena	PbS
S	ⓘ Jalpaite	Ag₃CuS₂
S	ⓘ Langite	Cu₄(SO₄)(OH)₆ · 2H₂O
S	ⓘ Leadhillite	Pb₄(CO₃)₂(SO₄)(OH)₂
S	ⓘ Linarite	PbCu(SO₄)(OH)₂
S	ⓘ Mawsonite	Cu₆Fe₂SnS₈
S	ⓘ Mckinstryite	Ag_5-xCu_3+xS₄
S	ⓘ Polybasite	[Ag₆Sb₂S₇][Ag₉CuS₄]
S	ⓘ Pyrite	FeS₂
S	ⓘ Pyrrhotite	Fe_1-xS
S	ⓘ Serpierite	Ca(Cu,Zn)₄(SO₄)₂(OH)₆ · 3H₂O
S	ⓘ Sphalerite	ZnS
S	ⓘ Stannite	Cu₂FeSnS₄
S	ⓘ Stannoidite	Cu₆⁺Cu₂²⁺(Fe²⁺,Zn)₃Sn₂S₁₂
S	ⓘ Stephanite	Ag₅SbS₄
S	ⓘ Stromeyerite	AgCuS
S	ⓘ Tennantite Subgroup	Cu₆(Cu₄C₂²⁺)As₄S₁₂S
S	ⓘ Tetrahedrite Subgroup	Cu₆(Cu₄C₂²⁺)Sb₄S₁₂S
S	ⓘ Troilite	FeS
Cl	Chlorine
Cl	ⓘ Pyromorphite	Pb₅(PO₄)₃Cl
K	Potassium
K	ⓘ K Feldspar var. Adularia	KAlSi₃O₈
K	ⓘ Muscovite	KAl₂(AlSi₃O₁₀)(OH)₂
K	ⓘ Orthoclase	K(AlSi₃O₈)
K	ⓘ Muscovite var. Sericite	KAl₂(AlSi₃O₁₀)(OH)₂
Ca	Calcium
Ca	ⓘ Calcite	CaCO₃
Ca	ⓘ Devilline	CaCu₄(SO₄)₂(OH)₆ · 3H₂O
Ca	ⓘ Fluorite	CaF₂
Ca	ⓘ Serpierite	Ca(Cu,Zn)₄(SO₄)₂(OH)₆ · 3H₂O
Fe	Iron
Fe	ⓘ Bornite	Cu₅FeS₄
Fe	ⓘ Chalcopyrite	CuFeS₂
Fe	ⓘ Mawsonite	Cu₆Fe₂SnS₈
Fe	ⓘ Pyrite	FeS₂
Fe	ⓘ Pyrrhotite	Fe_1-xS
Fe	ⓘ Stannite	Cu₂FeSnS₄
Fe	ⓘ Stannoidite	Cu₆⁺Cu₂²⁺(Fe²⁺,Zn)₃Sn₂S₁₂
Fe	ⓘ Troilite	FeS
Cu	Copper
Cu	ⓘ Aurichalcite	(Zn,Cu)₅(CO₃)₂(OH)₆
Cu	ⓘ Bornite	Cu₅FeS₄
Cu	ⓘ Brochantite	Cu₄(SO₄)(OH)₆
Cu	ⓘ Caledonite	Pb₅Cu₂(SO₄)₃(CO₃)(OH)₆
Cu	ⓘ Chalcopyrite	CuFeS₂
Cu	ⓘ Chalcocite	Cu₂S
Cu	ⓘ Covellite	CuS
Cu	ⓘ Cuprite	Cu₂O
Cu	ⓘ Devilline	CaCu₄(SO₄)₂(OH)₆ · 3H₂O
Cu	ⓘ Digenite	Cu₉S₅
Cu	ⓘ Jalpaite	Ag₃CuS₂
Cu	ⓘ Langite	Cu₄(SO₄)(OH)₆ · 2H₂O
Cu	ⓘ Linarite	PbCu(SO₄)(OH)₂
Cu	ⓘ Mawsonite	Cu₆Fe₂SnS₈
Cu	ⓘ Mckinstryite	Ag_5-xCu_3+xS₄
Cu	ⓘ Polybasite	[Ag₆Sb₂S₇][Ag₉CuS₄]
Cu	ⓘ Serpierite	Ca(Cu,Zn)₄(SO₄)₂(OH)₆ · 3H₂O
Cu	ⓘ Stannite	Cu₂FeSnS₄
Cu	ⓘ Stannoidite	Cu₆⁺Cu₂²⁺(Fe²⁺,Zn)₃Sn₂S₁₂
Cu	ⓘ Stromeyerite	AgCuS
Cu	ⓘ Tennantite Subgroup	Cu₆(Cu₄C₂²⁺)As₄S₁₂S
Cu	ⓘ Tetrahedrite Subgroup	Cu₆(Cu₄C₂²⁺)Sb₄S₁₂S
Zn	Zinc
Zn	ⓘ Aurichalcite	(Zn,Cu)₅(CO₃)₂(OH)₆
Zn	ⓘ Serpierite	Ca(Cu,Zn)₄(SO₄)₂(OH)₆ · 3H₂O
Zn	ⓘ Sphalerite	ZnS
Zn	ⓘ Stannoidite	Cu₆⁺Cu₂²⁺(Fe²⁺,Zn)₃Sn₂S₁₂
As	Arsenic
As	ⓘ Tennantite Subgroup	Cu₆(Cu₄C₂²⁺)As₄S₁₂S
Ag	Silver
Ag	ⓘ Acanthite	Ag₂S
Ag	ⓘ Jalpaite	Ag₃CuS₂
Ag	ⓘ Mckinstryite	Ag_5-xCu_3+xS₄
Ag	ⓘ Polybasite	[Ag₆Sb₂S₇][Ag₉CuS₄]
Ag	ⓘ Silver	Ag
Ag	ⓘ Stephanite	Ag₅SbS₄
Ag	ⓘ Stromeyerite	AgCuS
Sn	Tin
Sn	ⓘ Cassiterite	SnO₂
Sn	ⓘ Mawsonite	Cu₆Fe₂SnS₈
Sn	ⓘ Stannite	Cu₂FeSnS₄
Sn	ⓘ Stannoidite	Cu₆⁺Cu₂²⁺(Fe²⁺,Zn)₃Sn₂S₁₂
Sb	Antimony
Sb	ⓘ Polybasite	[Ag₆Sb₂S₇][Ag₉CuS₄]
Sb	ⓘ Stephanite	Ag₅SbS₄
Sb	ⓘ Tetrahedrite Subgroup	Cu₆(Cu₄C₂²⁺)Sb₄S₁₂S
Au	Gold
Au	ⓘ Gold	Au
Pb	Lead
Pb	ⓘ Anglesite	PbSO₄
Pb	ⓘ Caledonite	Pb₅Cu₂(SO₄)₃(CO₃)(OH)₆
Pb	ⓘ Cerussite	PbCO₃
Pb	ⓘ Galena	PbS
Pb	ⓘ Leadhillite	Pb₄(CO₃)₂(SO₄)(OH)₂
Pb	ⓘ Linarite	PbCu(SO₄)(OH)₂
Pb	ⓘ Pyromorphite	Pb₅(PO₄)₃Cl

Other Regions, Features and Areas containing this locality

Amur PlateTectonic Plate

AsiaContinent

Japan

Honshu IslandIsland

This page contains all mineral locality references listed on mindat.org. This does not claim to be a complete list. If you know of more minerals from this site, please register so you can add to our database. This locality information is for reference purposes only. You should never attempt to visit any sites listed in mindat.org without first ensuring that you have the permission of the land and/or mineral rights holders for access and that you are aware of all safety precautions necessary.

References

Imai, H., Lee, M. S., Iida, K., Fujiki, Y., & Takenouchi, S. (1975). Geologic structure and mineralization of the xenothermal vein-type deposits in Japan. Economic Geology, 70(4), 647-676.

Yamaha, T., Yamada, S. (1996) Caledonite from Tada Mine. Hyogo Prefecture, (Japan), Chigaku Kenkyu, 44(3/4), 179-182.

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