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Mawsonite

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About MawsoniteHide

02446340014947508812403.jpg
Sir Douglas Mawson
Formula:
Cu6Fe2SnS8
Colour:
Brownish orange
Lustre:
Metallic
Hardness:
3½ - 4
Specific Gravity:
4.65 (Calculated)
Crystal System:
Tetragonal
Name:
For Sir Douglas Mawson (1882-1958), Australian geologist and Antarctic explorer.
This page provides mineralogical data about Mawsonite.


Classification of MawsoniteHide

Approved
2.CB.20

2 : SULFIDES and SULFOSALTS (sulfides, selenides, tellurides; arsenides, antimonides, bismuthides; sulfarsenites, sulfantimonites, sulfbismuthites, etc.)
C : Metal Sulfides, M: S = 1: 1 (and similar)
B : With Zn, Fe, Cu, Ag, etc.
2.9.3.1

2 : SULFIDES
9 : AmBnXp, with (m+n):p = 1:1
6.1.8

6 : Sulphosalts - Sulphostannates, Sulphogermanates,Sulpharsenates, Sulphantimonates, Sulphovanadates and Sulphohalides
1 : Sulphostannates and other sulfides containing Sn

Physical Properties of MawsoniteHide

Metallic
Transparency:
Opaque
Colour:
Brownish orange
Hardness:
3½ - 4 on Mohs scale
Cleavage:
Imperfect/Fair
2 imperfect at right angles.
Density:
4.65 g/cm3 (Calculated)

Optical Data of MawsoniteHide

Type:
Anisotropic
Anisotropism:
Very Strong - Bright straw yellow to Royal blue
Colour in reflected light:
Brownish orange
Pleochroism:
Strong
Comments:
Orange
Brown with slight orange tint

Chemical Properties of MawsoniteHide

Formula:
Cu6Fe2SnS8
Common Impurities:
Zn,Se

Crystallography of MawsoniteHide

Crystal System:
Tetragonal
Class (H-M):
4 2m - Scalenohedral
Space Group:
P4m2
Cell Parameters:
a = 7.603(2) Å, c = 5.358(1) Å
Ratio:
a:c = 1 : 0.705
Unit Cell V:
309.72 ų (Calculated from Unit Cell)
Z:
1
Morphology:
Rounded to irregular inclusions in bornite.

Type Occurrence of MawsoniteHide

General Appearance of Type Material:
Rounded to irregular inclusions in bornite (from which it was exsolved).
Place of Conservation of Type Material:
British Museum (Natural History)
Geological Setting of Type Material:
Massive to disseminated copper ores

Synonyms of MawsoniteHide

Other Language Names for MawsoniteHide

Common AssociatesHide

Associated Minerals Based on Photo Data:
17 photos of Mawsonite associated with ChalcopyriteCuFeS2
15 photos of Mawsonite associated with StannoiditeCu+6Cu2+2(Fe2+,Zn)3Sn2S12
11 photos of Mawsonite associated with BorniteCu5FeS4
8 photos of Mawsonite associated with TennantiteCu6(Cu4X2)As4S12S
5 photos of Mawsonite associated with PyriteFeS2
4 photos of Mawsonite associated with CassiteriteSnO2
4 photos of Mawsonite associated with HematiteFe2O3
4 photos of Mawsonite associated with NukundamiteCu3.33Fe0.66S4
3 photos of Mawsonite associated with ClausthalitePbSe
2 photos of Mawsonite associated with Betekhtinite(Cu,Fe)21Pb2S15

Related Minerals - Nickel-Strunz GroupingHide

2.CB.AgmantiniteAg2MnSnS4Orth.
2.CB.05aColoradoiteHgTeIso. m3m (4/m 3 2/m)
2.CB.05aHawleyiteCdSIso. 4 3m : F4 3m
2.CB.05aMetacinnabarHgSIso. 4 3m : F4 3m
2.CB.05cPolhemusite(Zn,Hg)STet.
2.CB.05bSakuraiite(Cu,Zn,Fe)3(In,Sn)S4Iso.
2.CB.05aSphaleriteZnSIso. 4 3m : F4 3m
2.CB.05aStilleiteZnSe
2.CB.05aTiemanniteHgSeIso. 4 3m : F4 3m
2.CB.05UM1998-15-S:CuFeZnCu2Fe3Zn5S10
2.CB.05aRudashevskyite(Fe,Zn)SIso. 4 3m : F4 3m
2.CB.10aChalcopyriteCuFeS2Tet. 4 2m : I4 2d
2.CB.10aEskeborniteCuFeSe2Tet.
2.CB.10aGalliteCuGaS2Tet. 4 2m : I4 2d
2.CB.10bHaycockiteCu4Fe5S8Orth. 2 2 2
2.CB.10aLenaiteAgFeS2Tet. 4 2m : I4 2d
2.CB.10bMooihoekiteCu9Fe9S16Tet.
2.CB.10bPutoraniteCu1.1Fe1.2S2Iso.
2.CB.10aRoquesiteCuInS2Tet. 4 2m : I4 2d
2.CB.10bTalnakhiteCu9(Fe,Ni)8S16Iso. 4 3m : I4 3m
2.CB.10aLaforêtiteAgInS2Tet. 4 2m : I4 2d
2.CB.15aČernýiteCu2(Cd,Zn,Fe)SnS4Tet. 4 2m : I4 2m
2.CB.15aFerrokësteriteCu2FeSnS4Tet. 4 : I4
2.CB.15aHocartiteAg2(Fe2+,Zn)SnS4Tet. 4 2m : I4 2m
2.CB.15aIdaiteCu5FeS6Hex.
2.CB.15aKësterite Cu2ZnSnS4Tet. 4 : I4
2.CB.15aKuramiteCu3SnS4Tet.
2.CB.15bMohiteCu2SnS3Mon.
2.CB.15aPirquitasiteAg2ZnSnS4Tet. 4 : I4
2.CB.15aStanniteCu2FeSnS4Tet. 4 2m : I4 2m
2.CB.15cStannoiditeCu+6Cu2+2(Fe2+,Zn)3Sn2S12Orth.
2.CB.15aVelikiteCu2HgSnS4Tet.
2.CB.15cUM2006-11-S:CuFeGeZnCu8(Fe,Zn)3Ge2S12 (?)
2.CB.20ChatkaliteCu6FeSn2S8Tet. 4 2m : P4m2
2.CB.30ColusiteCu13VAs3S16Iso. 4 3m : P4 3n
2.CB.30GermaniteCu13Fe2Ge2S16Iso. 4 3m : P4 3n
2.CB.30GermanocolusiteCu26V2(Ge,As)6S32Iso.
2.CB.30NekrasoviteCu26V2(Sn,As,Sb)6S32Iso.
2.CB.30StibiocolusiteCu13V(Sb,Sn,As)3S16Iso.
2.CB.30Ovamboite Cu20(Fe,Cu,Zn)6W2Ge6S32Iso.
2.CB.30MaikainiteCu20(Fe,Cu)6Mo2Ge6S32
2.CB.35aHemusiteCu6SnMoS8Iso.
2.CB.35aKiddcreekiteCu6SnWS8Iso. 4 3m : F4 3m
2.CB.35aPolkovicite(Fe,Pb)3(Ge,Fe)1-xS4Iso.
2.CB.35aRenierite(Cu1+,Zn)11Fe4(Ge4+,As5+)2S16Tet. 4 2m : P4 2c
2.CB.35aVincienniteCu+7Cu2+3Fe2+2Fe3+2Sn(As,Sb)S16Tet.
2.CB.35aMorozeviczite(Pb,Fe)3Ge1-xS4Iso.
2.CB.35bCatamarcaiteCu6GeWS8Hex. 6mm : P63mc
2.CB.40LautiteCuAsSOrth. mmm (2/m 2/m 2/m) : Pnma
2.CB.45CadmoseliteCdSeHex. 6mm : P63mc
2.CB.45GreenockiteCdSHex. 6mm : P63mc
2.CB.45Wurtzite(Zn,Fe)SHex. 6mm : P63mc
2.CB.45RambergiteMnSHex. 6mm : P63mc
2.CB.45Buseckite(Fe,Zn,Mn)SHex. 6mm : P63mc
2.CB.55aCubaniteCuFe2S3Orth. mmm (2/m 2/m 2/m)
2.CB.55bIsocubaniteCuFe2S3Iso. m3m (4/m 3 2/m) : Fm3m
2.CB.60PicotpauliteTlFe2S3Orth. mmm (2/m 2/m 2/m) : Cmcm
2.CB.60RaguiniteTlFeS2Orth.
2.CB.65ArgentopyriteAgFe2S3Mon. 2/m
2.CB.65SternbergiteAgFe2S3Orth. mmm (2/m 2/m 2/m)
2.CB.70SulvaniteCu3VS4Iso.
2.CB.75VulcaniteCuTeOrth.
2.CB.80EmpressiteAgTeOrth. mmm (2/m 2/m 2/m)
2.CB.85MuthmanniteAuAgTe2Mon. 2/m : P2/m

Related Minerals - Dana Grouping (8th Ed.)Hide

2.9.3.2ChatkaliteCu6FeSn2S8Tet. 4 2m : P4m2
2.9.3.3StannoiditeCu+6Cu2+2(Fe2+,Zn)3Sn2S12Orth.

Related Minerals - Hey's Chemical Index of Minerals GroupingHide

6.1.1KuramiteCu3SnS4Tet.
6.1.2MohiteCu2SnS3Mon.
6.1.3VelikiteCu2HgSnS4Tet.
6.1.4HemusiteCu6SnMoS8Iso.
6.1.5KiddcreekiteCu6SnWS8Iso. 4 3m : F4 3m
6.1.6StanniteCu2FeSnS4Tet. 4 2m : I4 2m
6.1.7RhodostanniteCu1+(Fe2+0.5Sn4+1.5)S4Tet. 4/m : I41/a
6.1.9ChatkaliteCu6FeSn2S8Tet. 4 2m : P4m2
6.1.10FerrokësteriteCu2FeSnS4Tet. 4 : I4
6.1.11Kësterite Cu2ZnSnS4Tet. 4 : I4
6.1.12StannoiditeCu+6Cu2+2(Fe2+,Zn)3Sn2S12Orth.
6.1.13ČernýiteCu2(Cd,Zn,Fe)SnS4Tet. 4 2m : I4 2m
6.1.14VincienniteCu+7Cu2+3Fe2+2Fe3+2Sn(As,Sb)S16Tet.
6.1.15PirquitasiteAg2ZnSnS4Tet. 4 : I4
6.1.16HocartiteAg2(Fe2+,Zn)SnS4Tet. 4 2m : I4 2m
6.1.17TeallitePbSnS2Orth. mmm (2/m 2/m 2/m) : Pnma
6.1.18FranckeiteFe2+(Pb,Sn2+)6Sn4+2Sb2S14Tric. 1 : P1
6.1.19LévyclauditePb8Sn7Cu3(Bi,Sb)3S28
6.1.20CylindritePb3Sn4FeSb2S14Tric. 1 : P1
6.1.21PotosíitePb6Sn3FeSb3S16Tric.
6.1.22Sakuraiite(Cu,Zn,Fe)3(In,Sn)S4Iso.
6.1.23Petrukite(Cu,Fe,Zn,Ag)3(Sn,In)S4Orth.
6.1.24Incaite(Pb,Ag)4Sn4FeSb2S15Mon.

Other InformationHide

Magnetism:
Ferromagnetic
Health Risks:
No information on health risks for this material has been entered into the database. You should always treat mineral specimens with care.

References for MawsoniteHide

Reference List:
Sort by Year (asc) | by Year (desc) | by Author (A-Z) | by Author (Z-A)
Markham, N.L., Lawrence, L.J. (1965): Mawsonite, a new copper-iron-tin sulfide form Mt. Lyell, Tasmania and Tingha, New South Wales. American Mineralogist 50, 900-908.
Szymanski, J.T. (1976): The crystal structure of mawsonite, Cu6Fe2SnS8. Canadian Mineralogist 14, 529-535.
Kissin, S. A. & Owens, D. R. (1979) New data on stannite and related tin sulfide minerals. Canadian Mineralogist, 17, 125-135.
Science Report of Tohuku University (1980): 14: 278.

Internet Links for MawsoniteHide

Localities for MawsoniteHide

This map shows a selection of localities that have latitude and longitude coordinates recorded. Click on the symbol to view information about a locality. The symbol next to localities in the list can be used to jump to that position on the map.

Locality ListHide

- This locality has map coordinates listed. - This locality has estimated coordinates. ⓘ - Click for further information on this occurrence. ? - Indicates mineral may be doubtful at this locality. - Good crystals or important locality for species. - World class for species or very significant. (TL) - Type Locality for a valid mineral species. (FRL) - First Recorded Locality for everything else (eg varieties). Struck out - Mineral was erroneously reported from this locality. Faded * - Never found at this locality but inferred to have existed at some point in the past (eg from pseudomorphs.)

All localities listed without proper references should be considered as questionable.
Argentina
 
  • Catamarca Province
    • Andalgalá Department
Milka K. de Brodtkorb (2002) Las Especies Minerales de la Republica Argentina. Vol. 1 (elements, sulphides and sulphosalts). (Asociacion Mineralogica Argentina); DE BRODTKORB, Milka K. Precious metaltellurides and other Te-bearing minerals in different paragenesis of Argentina: A review. Rev. Asoc. Geol. Argent. [online]. 2009, vol.64, n.3, pp. 365-372.; Hubert, P., Werner, H., & Dan, T. (2009). A contribution to the knowledge of the mineralization at Mina Capillitas, Catamarca. Revista de la Asociacion Geologica Argentina, 64(3), 514-524.
PUTZ, Hubert; PAAR, Werner H and TOPA, Dan. A contributionto the knowledge of the mineralization at mina Capillitas, Catamarca. Rev. Asoc. Geol. Argent. [online]. 2009, vol.64, n.3, pp. 514-524.
PUTZ, Hubert; PAAR, Werner H and TOPA, Dan. A contributionto the knowledge of the mineralization at mina Capillitas, Catamarca. Rev. Asoc. Geol. Argent. [online]. 2009, vol.64, n.3, pp. 514-524.
  • La Rioja Province
    • Chilecito department
      • Chilecito
Brotkorb (2002): las Especies Minerales de la Republica Argentina
  • Salta Province
    • Los Andes department
      • El Quevar mining district
Brodtkorb (2002): Las Especies Minerales de la Republica Argentina
      • San Antonio de los Cobres
        • Organullo mining district
Milka K. de Brodtkorb (2002) Las Especies Minerales de la Republica Argentina. Vol. 1 (elements, sulphides and sulphosalts). (Asociacion Mineralogica Argentina); DE BRODTKORB, Milka K. Precious metaltellurides and other Te-bearing minerals in different paragenesis of Argentina: A review. Rev. Asoc. Geol. Argent. [online]. 2009, vol.64, n.3, pp. 365-372.; Paar, W. H., Putz, H., Topa, D., de Brodtkorb, M. K., & Sureda, R. J. (2005, January). Occurrence and paragenesis of tellurium in mineral deposits of Argentina. In Mineral Deposit Research: Meeting the Global Challenge (pp. 1419-1422). Springer Berlin Heidelberg.
Australia (TL)
 
  • New South Wales
    • Hardinge Co.
      • Tingha
Brown, R.E., Stroud, W.J. (1997) Metallogenic Study and Mineral Deposit Data Sheets, Inverell 1:250 000 Metallogenic Map SH/56-5. Geological Survey of New South Wales, Sydney, 576 pages. Markham, N.L., Lawrence, L.J. (1965) Mawsonite, a new copper-iron-tin sulphide from Mt. Lyell, Tasmania and Tingha, New South Wales. American Mineralogist 50: 900-908.
  • Tasmania
    • West Coast municipality
      • Queenstown district
AM 1965, 900-08; Bottrill, R. S. (2000). A Mineralogical Field Guide for the Western Tasmania Minerals and Museums Tour.
R Bottrill, unpub. data
Handbook of Mineralogy - Anthony, Bideaux, Bladh, Nichols
Bottrill, R.S., Baker, W.E. (2008) A Catalogue of the Minerals of Tasmania. Geological Survey Tasmania Bulletin 73, 254 pages.
Bottrill, R.S., Baker, W.E. (2008) A Catalogue of the Minerals of Tasmania. Geological Survey Tasmania Bulletin 73, 254 pages.
AGSO Research Newsletter May 2000
Austria
 
  • Carinthia
    • Spittal an der Drau District
      • Zirknitz
        • Kleine Zirknitz valley
          • Kluidscharte
G. Niedermayr, I. Praetzel: Mineralien Kärntens, 1995; Paar, W. H., & Chen, T. T. (1982). Ore mineralogy of the Waschgang gold-copper deposit, Upper Carinthia, Austria. Tschermaks mineralogische und petrographische Mitteilungen, 30(3), 157-175.
  • Lower Austria
    • Neunkirchen District
Hackenberg 2003
Hackenberg, M. (2003): Bergbau im Semmeringgebiet. Arch. f. Lagerst.forsch. Geol. B.-A., 24, 5-97.
  • Salzburg
    • Zell am See District
      • Leogang
        • Hütten
          • Schwarzleograben
R.Poeverlein (2016)
            • Schwarzleo mining district
R.Poeverlein (2016)
R.Poeverlein (2016)
A. Strasser: Die Minerale Salzburgs (1989)
R.Poeverlein (2016)
Leblhuber (2000)
            • Vogel Alp
A. Strasser: Die Minerale Salzburgs (1989)
  • Tyrol
    • Innsbruck-Land District
      • Habicht
Vavtar, F. (1986): Das Zinn-Kupfer-Erzvorkommen am Glücksgrat (Stubai-Kristallin). Tschermaks Mineralogische und Petrographische Mitteilungen 35, 287-298.
Bolivia
 
  • Potosí
    • Rafael Bustillo
Handbook of Mineralogy - Anthony, Bideaux, Bladh, Nichols; Mineralogical Magazine 1968 36 : 1045-1051.
Bulgaria
 
  • Sofia City Province
    • Chelopech
Bonev, I.K.; Petrunov, R.; Cook, N. J.; Ciobanu, C. L. (2005): Kostovite and its argentian varieties: Deposits and mineral associations. Bulgarian Academy of Sciences, Geochemistry, Mineralogy and Petrology. 42, 1-22; Cook, N. J., Ciobanu, C. L., & Bogdanov, K. (2002) Trace mineralogy of the Upper Cretaceous banatitic Magmatic and metallogenetic Belt, SE Europe. In 11th Quadrennial IAGOD symposium–Geocongress 2002, Windhoek, Namibia, July 2002. CD Volume of extended abstracts.
Canada
 
  • British Columbia
    • Kamloops Mining Division
      • Cache Creek
Singer, D.A., Berger, V.I., and Moring, B.C. (2008): US Geological Survey Open-File Report 2008-1155.
  • New Brunswick
    • Charlotte Co.
      • Saint George Parish
Handbook of Mineralogy - Anthony, Bideaux, Bladh, Nichols; Parrish, I. S., 1977, Mineral Catalog for the Mount Pleasant Deposit of Brunswick Tin Mines, Canadian Mineralogist, v. 15, p. 121-126.
  • Newfoundland and Labrador
    • Newfoundland
Dube, B., Dunning, G. R., & Lauziere, K. (1998). Geology of the Hope Brook Mine, Newfoundland, Canada; a preserved late Proterozoic high-sulfidation epithermal gold deposit and its implications for exploration. Economic Geology, 93(4), 405-436.
  • Nova Scotia
    • Lunenburg Co.
      • New Ross
O'Reilly, G.A., Farley, E.J. and Charest, M.H. (1982) Metasomatic-Hydrothermal Mineral Deposits of the New Ross-Mahone Bay Area, Nova Scotia. Nova Scotia Department of Mines and Energy, paper 82-2.
  • Ontario
    • Cochrane District
      • Timmins area
        • Kidd Township
ontariominerals.com; Canadian Mineralogist (1984) 22 (2), 227-232; Canadian Mineralogist, 18, 353-360; Thorpe, R.I., Pringle, G.J. & Purr, A.G. (1976): Occurrence of selenide and sulphide minerals in bornite ore of the Kidd Creek massive sulphide deposit, Timmins, Ontario. Geol. Sun, Can. Pap. 76-lA,
    • Sudbury District
      • Levack Township
Ames, D.E., Kjarsgaard, I.M., and Douma, S.L., 2003, Sudbury Ni-Cu-PGE Ore Mineralogy Compilation: Sudbury Targeted Geoscience Initiative (TGI): Geological Survey of Canada, Open File 1787
Chile
 
  • Tarapacá
    • Tamarugal Province
      • Collahuasi district
Singer, D.A., Berger, V.I., and Moring, B.C. (2008): US Geological Survey Open-File Report 2008-1155.
http://www.portergeo.com.au/database/mineinfo.asp?mineid=mn609#browse (accessed 01/19/2018)
http://www.portergeo.com.au/database/mineinfo.asp?mineid=mn609#browse (accessed 01/19/2018)
China
 
  • Fujian
    • Longyan
      • Shanghang Co.
Liu Wenyuan, Dong Cheng, Gu Xiangping, Liu Yu, Qiu Xiaoping, and Chen Yuchuan (2014): The crystal structure of kiddcreekite solved using micro X-ray diffraction and the EPCryst program. Mineralogical Magazine, 78, 1517-1525
Liu Wenyuan, Dong Cheng, Gu Xiangping, Liu Yu, Qiu Xiaoping, and Chen Yuchuan (2014): The crystal structure of kiddcreekite solved using micro X-ray diffraction and the EPCryst program. Mineralogical Magazine, 78, 1517-1525.
      • Wuping Co.
        • Zijinshan ore field
Dianfen Chen, Jianguo Na, Youheng Xiong, Tongde Zhong, and Xueming Li (1998): Acta Geologica Sinica 72(3), 249-259
  • Hebei
    • Chengde
      • Xinglong County
Yingfu Zhao and Zengyao Lu (2004): Mineral Resources and Geology 18(3), 212-216
  • Hunan
    • Hengyang
      • Changning Co.
Xiangmei Ren (1990): Acta Mineralogica Sinica 10(2), 147-151
  • Inner Mongolia
    • Chifeng City (Ulanhad League; Chifeng Prefecture)
      • Bairin Left Banner (Balin Zuoqi)
Dequan Zhang, Yunfen Lei, Taiyang Luo, Xiupo Bao, and Shengli Wang (1991): Mineral Deposits 10(3), 204-216
Czech Republic
 
  • Karlovy Vary Region
Ondruš P, Veselovský F, Gabašová A, Hloušek J, Šrein V, Vavrín I, Skála R, Sejkora J, Drábek M (2003) Primary minerals of the Jáchymov ore district, Journal of the Czech Geological Society 48, 19-147
DR Congo
 
  • Haut-Katanga
    • Kipushi
Deliens, M. (1996) Overzicht van de mineralogie van de koper-, kobalt- en uraniumvoorkomens in Zuid-Shaba (Zaïre). Pages 35-49 in: Schatten der Aarde. Van mineraal tot juweel. Tentoonstelling in de abdij Saint-Gérard de Brogne van 27 april tot 27 oktober 1996. Catalogus opgemaakt onder de leiding van R. Warin, AGAB en P. Van hee, MKA (in Dutch).
France
 
  • Auvergne-Rhône-Alpes
    • Allier
      • Ébreuil
        • Échassières
G. Aubert : "Les coupoles granitiques de Montebras et d'Echassières (Massif Central Français) et la genèse de leur minéralisations (BRGM, 1969)
    • Puy-de-Dôme
      • Servant
        • Les Chaillats (Chaillat)
G. Aubert : "Les coupoles granitiques de Montebras et d'Echassières (Massif Central Français) et la genèse de leur minéralisations (BRGM, 1969)
  • Bourgogne-Franche-Comté
    • Saône-et-Loire
      • Bourbon-Lancy
        • Chalmoux
Anthony, Bideaux, Bladh, Nichols: "Handbook of Mineralogy", Vol. 1, 1990
  • Nouvelle-Aquitaine
    • Creuse
      • Soumans
        • Montebras
P. Picot, Z. Johan : "Atlas of Ore Minerals", BRGM, Elsevier, 1982
    • Haute-Vienne
      • Nantiat
        • Vaulry
P. Cantinolle et al. , Bull. Minéral. , 1985, 108, pp. 245-248
  • Provence-Alpes-Côte d'Azur
    • Hautes-Alpes
      • Villar-d'Arêne
R. Pierrot, P. Picot, P.A. Poulain, "Inventaire Minéralogique de la France : Hautes-Alpes", BRGM, 1972
Greece
 
  • South Aegean
    • Tinos
      • Tinos Island
Economic Geology 102 (2007) 1269-1294.; Bonev, I. K., Petrunov, R., Cook, N. J., & Ciobanu, C. L. (2005). Kostovite and its argentian varieties: Deposits and mineral associations. Geochem. Mineral. Petrol.(Bulg. Acad. Sci.), 42, 1-22.
Hungary
 
  • Borsod-Abaúj-Zemplén County
    • Kazincbarcika District
Society of Economic Geologists Student Chapter University of Miskolc (2018) Short course – Industrial minerals in the NE part of Hungary. Telkibánya November 5–8. 2018.
Szakáll: Minerals of Rudabánya, 2001
  • Heves County
    • Recsk
No reference listed
Japan
 
  • Fukui Prefecture
    • Ono City
Canadian Mineralogist Vol. 25, pp,229-236 (1987)
  • Hokkaidō Prefecture
    • Ishikari Subprefecture
      • Sapporo City
Polymetallic mineralization at the Shin-Ohtoyo Deposit, Harukayama District, Hokkaido, Japan, Imai, Akira; Matsueda, Hiroharu; Yamada, Ryoichi; Masuta, Kenzo, Resource Geology (Tokyo 1998), vol.49, no.2, pp.75-88, 1999; Imai, A., Matsueda, H., Yamada, R., Masuta, K. (1999): Polymetallic Mineralization at the Shin‐Ohtoyo Deposit, Harukayama District, Hokkaido, Japan. Resource Geology 49, 75-88.
  • Hyogo Prefecture
    • Asago City
      • Ikuno-cho-ono
Handbook of Mineralogy - Anthony, Bideaux, Bladh, Nichols
No reference listed
    • Kawabe District
      • Inagawa-cho
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.
    • Shisou City
Canadian Mineralogist Vol. 25, pp,229-236 (1987)
    • Yabu City
      • Oya-cho
Mining Annual Review:1985:407.; Am Min 61:3-4 pp 260-265; Canadian Mineralogist Vol. 25, pp,229-236 (1987)
  • Kyoto Prefecture
    • Fukuchiyama
Handbook of Mineralogy - Anthony, Bideaux, Bladh, Nichols; Canadian Mineralogist Vol. 25, pp,229-236 (1987); 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.
  • Okayama Prefecture
    • Mimasaka city
      • Miyahara
Handbook of Mineralogy - Anthony, Bideaux, Bladh, Nichols
  • Shimane Prefecture
    • Masuda
Soeda, A., & Hirowatari, F. (1978). Arsenian hauchecornite from the Tsumo mine, Shimane Prefecture, Japan. Mineralogical Journal, 9(4), 199-209.
  • Tochigi Prefecture
    • Nikko City
      • Ashio-machi
Handbook of Mineralogy - Anthony, Bideaux, Bladh, Nichols
  • Yamaguchi Prefecture
    • Mine City
Nagashima, M., Akasaka, M., & Morifuku, Y. (2016). Ore and Skarn Mineralogy of the Yamato Mine, Yamaguchi Prefecture, Japan, with Emphasis on Silver‐, Bismuth‐, Cobalt‐, and Tin‐bearing Sulfides. Resource Geology, 66(1), 37-54.
Kazakhstan
 
  • Pavlodar Region
    • Bayanaul
Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Baibatsha, A., Dyussembayeva, K., & Kassenova, A. (2015). Microparagenetic Associations of Gold in Ore-Forming Minerals from Deposits of Different Geological and Industrial Types of Kazakhstan. In Proceedings of the 11th International Congress for Applied Mineralogy (ICAM) (pp. 1-8). Springer International Publishing.; Baibatsha, A., Dyussembayeva, K., & Kassenova, A. (2015). Microparagenetic Associations of Gold in Ore-Forming Minerals from Deposits of Different Geological and Industrial Types of Kazakhstan. In Proceedings of the 11th International Congress for Applied Mineralogy (ICAM) (pp. 1-8). Springer, Cham.
Namibia
 
  • Oshikoto Region
    • Tsumeb
Gramaccioli, C. M., 1985. Conoscere i minerali. I solfosali. Istituto Geografico De Agostini, Novara, 96 pp
North Macedonia
 
  • Berovo
Serafimovski, T., Tasev, G., Stefanova, V. (2015): Mineral assemblages group of major and associated mineral phases in the Kadiica porphyry copper deposit, eastern Macedonia. Geologica Macedonica 25, 183-196.
Norway
 
  • Telemark
    • Kviteseid
Neumann, H. (1985): Norges Mineraler. Norges Geologiske Undersøkelse Skrifter 68, 278 pp( p. 21).
  • Trøndelag
    • Grong
      • Godejorda
Neumann, H. (1985) Norges Mineraler. Norges geologiske Undersøkelse Skrifter 68 p. 21.
Papua New Guinea
 
  • Eastern Highlands Province
    • Kainantu
Espi, J. O., Hayashi, K. I., Komuro, K., Kajiwara, Y., & Murakami, H. (2005). The Bilimoia gold deposit, Kainantu, Papua New Guinea: A fault-controlled, lode-type, synorogenic tellurium-rich quartz-gold vein system. In Mineral Deposit Research: Meeting the Global Challenge (pp. 941-944). Springer Berlin Heidelberg.; Espi, J. O., Hayashi, K. I., Komuro, K., Murakami, H., & Kajiwara, Y. (2007). Geology, Wall‐rock Alteration and Vein Paragenesis of the Bilimoia Gold Deposit, Kainantu Metallogenic Region, Papua New Guinea. Resource geology, 57(3), 249-268.
Peru
 
  • Arequipa
    • Castilla Province
Marcoux, E., Moëlo, Y. & Milési, J.P. (1994): Vinciennite and Cu-excess tennantite from Layo (Cu, Sn, As, Au) epithermal deposits (Southern Peru). Mineral. Petrol. 51, 21-36.
  • Junín
    • Yauli Province
Gramaccioli, C. M., 1985. Conoscere i minerali. I solfosali. Istituto Geografico De Agostini, Novara, 96 pp
Poland
 
  • Lower Silesian Voivodeship
Mochnacka, K., Oberc-Dziedzic, T., Mayer, W., & Pieczka, A. (2012). Ore mineralization in the Miedzianka area (Karkonosze-Izera Massif, the Sudetes, Poland): new information. Mineralogia Polonica, 43(3-4), 155-178.
    • Kamienna Góra County
      • Gmina Kamienna Góra
        • Rędziny
Gołębiowska B., Pieczka A., Parafiniuk J. 2006: Cu(Ag)-Pb-Bi(Sb) sulphosalts from Rędziny (Western Sudetes, Poland). Mineralogia Polonica - Special Papers, vol. 28, 78-80; Pieczka, A., Gołębiowska, B., & Parafiniuk, J. (2011). Gold in sulfide-telluride assemblages at Rędziny, Rudawy Janowickie Range. Gold in Poland, AM Monograph, (2), 119-134.
      • Gmina Marciszów
        • Ciechanowice
Mochnacka, K., Oberc-Dziedzic, T., Mayer, W., Pieczka, A. (2013): Ore mineralization in the Miedzianka area (Karkonosze-Izera Massif, the Sudetes, Poland): new information. Mineralogia: 43(3-4), 155-178; Mochnacka, K., Oberc-Dziedzic, T., Mayer, W., & Pieczka, A. (2012). Ore mineralization in the Miedzianka area (Karkonosze-Izera Massif, the Sudetes, Poland): new information. Mineralogia Polonica, 43(3-4), 155-178.
Portugal
 
  • Beja
    • Castro Verde
      • Santa Bárbara de Padrões
Relvas, J. M. R. S. et al. (2006): Hydrothermal Alteration and Mineralization in the Neves-Corvo Volcanic-Hosted Massive Sulfide Deposit, Portugal. I. Geology, Mineralogy, and Geochemistry. Econ. Geology 101, 753-790.; Benzaazoua, M., Marion, P., Pinto, A., Migeon, H., & Wagner, F. E. (2003). Tin and indium mineralogy within selected samples from the Neves Corvo ore deposit (Portugal): a multidisciplinary study. Minerals Engineering, 16(11), 1291-1302.; Pinto, A., Bowles, J. F. W., & Gaspar, O. C. (1994). The mineral chemistry and textures of wittichenite, miharaite, carrolite, mawsonite and In±Bi±Hg tennantite from Neves-Corvo, Portugal. IMA 94. In XVI General Meeting of IMA, Pisa, ItaÂlia, Abstracts.; Cabri, L. J., Gaspar, O. C., Lastra, R., & McMahon, G. (1998). Distribution of gold in tin-rich samples from the Corvo orebody, Portugal. The Canadian Mineralogist, 36(5), 1347-1360.; Gaspar, O.C. (2002): Mineralogy and sulfide mineral chemistry of the Neves–Corvo Ores, Portugal: insight into their genesis. Canadian Mineralogist 40, 611-636.
  • Viseu
Ing Soen Oen : "Paragenetic relations of some Cu-Fe-Sn-Sulfides in the Mangualde Pegmatite, North Portugal", Mineral. Deposita (Berl.) 5, 59-84, 1970.
Romania
 
  • Bihor
    • Nucet
Cook, N. J., & Ciobanu, C. L. (2003). Cervelleite, Ag4TeS, from three localities in Romania, substitution of Cu, and the occurrence of the associated phase, Ag2Cu2TeS. Neues Jahrbuch für Mineralogie-Monatshefte, 2003(7), 321-336.; Cook, N. J., Ciobanu, C. L., & Bogdanov, K. (2002) Trace mineralogy of the Upper Cretaceous banatitic Magmatic and metallogenetic Belt, SE Europe. In 11th Quadrennial IAGOD symposium–Geocongress 2002, Windhoek, Namibia, July 2002. CD Volume of extended abstracts.
  • Caraş-Severin
    • Banat Mts
Cook, N. J., Ciobanu, C. L., & Bogdanov, K. (2002) Trace mineralogy of the Upper Cretaceous banatitic Magmatic and metallogenetic Belt, SE Europe. In 11th Quadrennial IAGOD symposium–Geocongress 2002, Windhoek, Namibia, July 2002. CD Volume of extended abstracts.
Cook, N. J., & Ciobanu, C. L. (2003). Cervelleite, Ag4TeS, from three localities in Romania, substitution of Cu, and the occurrence of the associated phase, Ag2Cu2TeS. Neues Jahrbuch für Mineralogie-Monatshefte, 2003(7), 321-336.
Mineralogical Magazine, Vol. 65(3), pp. 351–372
Russia
 
  • Chelyabinsk Oblast
    • Sosnovsky District
Plotinskaya, O. Y., Grabezhev, A. I., Groznova, E. O., Seltmann, R., & Lehmann, B. (2014). The Late Paleozoic porphyry–epithermal spectrum of the Birgilda–Tomino ore cluster in the South Urals, Russia. Journal of Asian Earth Sciences, 79, 910-931.
O. Plotinskaya data; Plotinskaya, O. Y., Groznova, E. O., Kovalenker, V. A., Novoselov, K. A., & Seltmann, R. (2009). Mineralogy and formation conditions of ores in the Bereznyakovskoe ore field, the Southern Urals, Russia. Geology of Ore Deposits, 51(5), 371.
    • Verkhneuralsky District
Maslennikov, V. V., Maslennikova, S. P., Large, R. R., Danyushevsky, L. V., Herrington, R. J., & Stanley, C. J. (2013). Tellurium-bearing minerals in zoned sulfide chimneys from Cu-Zn massive sulfide deposits of the Urals, Russia. Mineralogy and Petrology, 107(1), 67-99.
  • Kamchatka Krai
[Der Aufschluss 1995:4 p163-180]; Okrugin, V., & Chernev, I. Correlation of Epithermal and Geothermal Deposits (an Example of Mutnovsky Geothermal Area, Southern Kamchatka). Proceedings World Geothermal Congress 2015 ; Okrugin, V. M. (2004). Miocene to Quaternary center volcanic, hydrothermal and ore-forming activity in the Southern Kamchatka. In Metallogeny of the Pacific Northwest (Russian Far East)-Tectonics, Magmatism and Metallogeny of Active Continental Margin, Interim IAGOD Conference, Excursion Guidebook, Dalnauka, Vladivostok, 2004 (pp. 147-176).
  • Karachay-Cherkessia
Jambor J L, Grew E S (1994) New mineral names, American Mineralogist 79, 387-391
  • Khabarovsk Krai
Fersman Mineraloical Museum Russian Academy of Sciences, Dimitriy Belakovskiy, Curator Leninskiy prospekt 18-2, Moscow 117071, Russia
Fersman Mineralogical Museum, Russian Academy of Sciences, Dimitriy Belakovskiy, Curator Leninskiy prospekt 18-2, Moscow 117071, Russia
Terleev, A. A., Simonov, V. A., Kanygin, A. V., Tokarev, D. A., Stupakov, S. I., & Kotlyarov, A. V. (2014). Unique location of hydrothermal biota in the Lower Cambrian sedimentary-volcanogenic complex of the Kyzyl–Tashtyg ore field (Eastern Tuva). Russian Geology and Geophysics, 55(1), 54-61.
South Korea
 
  • Ulsan
Handbook of Mineralogy - Anthony, Bideaux, Bladh, Nichols; Mineralogical Journal Vol. 12 (1984) , No. 4 pp 162-172; CHOI, S. G., & IMAI, N. (1985). Ni-Fe-Co Arsenides and Sulpharsenides from the Ulsan Mine, Republic of Korea. Mining Geology, 35(189), 1-16.
Spain
 
  • Castile and Leon
    • Salamanca
Revista de minerales, 2000 (Mars), 260-263.
Pascua, M. I., Murciego, A., Pellitero, E., Babkine, J., & Dusausoy, Y. (1997). Sn-Ge-Cd-Cu-Fe-bearing sulfides and sulfosalts from the Barquilla deposit, Salamanca, Spain. The Canadian Mineralogist, 35(1), 39-52.
Sweden
 
  • Södermanland County
    • Nyköping
      • Tunaberg
Dobbe, R. T. M. (1991): Tellurides, Selenides and Associated Minerals in the Tunaberg Copper Deposits, SE Bergslagen, Central Sweden. Mineralogy and Petrology. 44:89-106
Dobbe, Rene T. M. (1991): Tellurides, selenides, and associated minerals in the Tunaberg copper deposits, SE Bergslagen, central Sweden. Mineralogy and Petrology 44, 89-106
Switzerland
 
  • Valais
    • Anniviers Valley
      • Ayer
Stalder, H. A., Wagner, A., Graeser, S. and Stuker, P. (1998): "Mineralienlexikon der Schweiz", Wepf (Basel), p. 270.; Ansermet, S. (2012): Mines et minéraux du Valais - II. Anniviers et Tourtemagne. With contributions by N. Meisser, Ed. Porte-plumes (Ayer)
      • Grimentz
Ansermet, S. (2012): Mines et minéraux du Valais - II. Anniviers et Tourtemagne. With contributions by N. Meisser, Ed. Porte-plumes (Ayer)
UK
 
  • England
    • Cornwall
      • Calstock
        • Gunnislake
Dr. Kurt Greenwall collection (Dr. Werner H. Paar analyses)
      • Treverbyn
        • Stenalees
Goley, P. and Williams R. (1995) Cornish Mineral Reference Manual. Endsleigh Publications
USA
 
  • Arizona
    • Cochise County
Anthony, J.W., et al (1995), Mineralogy of Arizona, 3rd. ed.:65
Anthony, J.W., et al (1995), Mineralogy of Arizona, 3rd.ed.: 291; Graeme, R. (1993), Bisbee revisited, Min.Rec.: 24: 421-436.; Bonev, I. K., Petrunov, R., Cook, N. J., & Ciobanu, C. L. (2005). Kostovite and its argentian varieties: Deposits and mineral associations. Geochem. Mineral. Petrol.(Bulg. Acad. Sci.), 42, 1-22.
  • Colorado
    • Hinsdale Co.
      • Lake City Mining District (Lake Mining District)
Minerals of Colorado (1997) E.B. Eckel
        • Lake City
Minerals of Colorado (1997) Eckel, E. B.
    • Park Co.
      • Alma Mining District
        • Mount Bross
Minerals of Colorado (1997) E.B. Eckel
  • Montana
    • Butte-Silver Bow (Butte; Silver Bow Co.)
      • Butte Mining District (Summit Valley Mining District)
Gammons, C. H., Szarkowski, J., & Stevenson, R. (2016) New investigations of the mineralogy of silver in the world-class porphyry-lode deposits of Butte, MT. Mining engineering Magazine website
Uzbekistan
 
  • Tashkent
    • Okhangaron District
Kovalenker, V. et al New Data on Minerals (2003): 38: 45-56
Anthony, Bideaux, Bladh, Nichols: "Handbook of Mineralogy", Vol. 1, 1990; Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; Pasi Eilu (2003) Exploration for orogenic gold deposits. Fennoscandian Exploration and Mining 2003 Rovaniemi, Finland December 2003
 
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