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Berryite

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About BerryiteHide

09306250014949829695825.jpg
Leonard Gascoigne Berry
Formula:
Cu3Ag2Pb3Bi7S16
Formely considered to be Pb3(Ag,Cu)5Bi7S16.
Colour:
Bluish-grey, white, grey-white.
Lustre:
Metallic
Hardness:
Specific Gravity:
6.7
Crystal System:
Monoclinic
Name:
Named in honor of Leonard Gascoigne Berry (1914-1982), Canadian mineralogist, Professor of Mineralogy and Crystallography at Queen’s University, Kingston, Ontario (1945-1979), who first investigated the mineral from the Swedish type locality (TL2), in 1939. Berry was the founding editor of Canadian Mineralogist (1957-1975).
An orthorhombic polytypic variant has been postulated (Topa et al., 2006).

Structurally related to litochlebite and watkinsonite.

Visually similar to emplectite and several other sulphosalts.


Classification of BerryiteHide

Approved
2.HB.20d

2 : SULFIDES and SULFOSALTS (sulfides, selenides, tellurides; arsenides, antimonides, bismuthides; sulfarsenites, sulfantimonites, sulfbismuthites, etc.)
H : Sulfosalts of SnS archetype
B : With Cu, Ag, Fe, Sn and Pb
3.6.15.1

3 : SULFOSALTS
6 : 2 < ø < 2.49
5.7.41

5 : Sulphosalts - Sulpharsenites and Sulphobismuthites (those containing Sn, Ge,or V are in Section 6)
7 : Sulpharsenites etc. of Pb and other metals

Physical Properties of BerryiteHide

Metallic
Transparency:
Opaque
Colour:
Bluish-grey, white, grey-white.
Hardness:
3½ on Mohs scale
Hardness:
VHN100=131 - 152 kg/mm2 - Vickers
Cleavage:
Poor/Indistinct
Density:
6.7 g/cm3 (Measured)    6.83 g/cm3 (Calculated)

Optical Data of BerryiteHide

Type:
Anisotropic
Anisotropism:
Distinct to strong; from gray-white to red-brown and green
Colour in reflected light:
White to gray white
Pleochroism:
Weak

Chemical Properties of BerryiteHide

Formula:
Cu3Ag2Pb3Bi7S16

Formely considered to be Pb3(Ag,Cu)5Bi7S16.

Crystallography of BerryiteHide

Crystal System:
Monoclinic
Class (H-M):
2/m - Prismatic
Space Group:
P21/m
Cell Parameters:
a = 12.703(3) Å, b = 4.0305(7) Å, c = 28.925(5) Å
β = 102.484(2)°
Ratio:
a:b:c = 3.152 : 1 : 7.177
Unit Cell V:
1,445.93 ų (Calculated from Unit Cell)
Morphology:
Lath-like aggregates and crystals.
Twinning:
Repeated
Comment:
Formerly (Nuffield & Harris, 1966) the following unit cell was assumed: a = 12.72, b = 4.02, c = 58.07 Å, β = 102.6°.

Geological EnvironmentHide

Geological Setting:
Hydrothermal veins

Type Occurrence of BerryiteHide

Synonyms of BerryiteHide

Other Language Names for BerryiteHide

German:Berryit
Simplified Chinese:板硫铋铜铅矿
Spanish:Berryita

Common AssociatesHide

Associated Minerals Based on Photo Data:
3 photos of Berryite associated with ChalcopyriteCuFeS2
2 photos of Berryite associated with QuartzSiO2

Related Minerals - Nickel-Strunz GroupingHide

2.HB.Carducciite(Ag2Sb2)Pb12(As,Sb)16S40Mon. 2/m : P21/b
2.HB.05aAikinitePbCuBiS3Orth. mmm (2/m 2/m 2/m) : Pnma
2.HB.05aFriedrichitePb5Cu5Bi7S18Orth. mm2
2.HB.05aGladitePbCuBi5S9Orth. mmm (2/m 2/m 2/m)
2.HB.05aHammaritePb2Cu2Bi4S9Orth.
2.HB.05cJaskólskiiteCuxPb2+x(Sb,Bi)2-xS5 (x ~ 0.15)Orth. mmm (2/m 2/m 2/m)
2.HB.05aKrupkaitePbCuBi3S6Orth.
2.HB.05aLindströmitePb3Cu3Bi7S15Orth. mmm (2/m 2/m 2/m)
2.HB.05bMeneghinitePb13CuSb7S24Orth. mmm (2/m 2/m 2/m)
2.HB.05aPekoitePbCuBi11S18Orth.
2.HB.05aEmilitePb2.7Cu2.7Bi5.3S12Orth. mm2
2.HB.05UM2000-46-S:BiCuPbCu0.33Pb0.33Bi7.67S12
2.HB.05aSalzburgitePb1.6Cu1.6Bi6.4S12Orth. mm2
2.HB.05UM1990-54-Se:BiCuPbCuPb(Ni,Co)0.3Bi3Se6
2.HB.05aPaaritePb1.7Cu1.7Bi6.3S12Orth. mmm (2/m 2/m 2/m)
2.HB.10cEclarite(Cu,Fe)Pb9Bi12S28Orth. mmm (2/m 2/m 2/m) : Pnma
2.HB.10bGiessenitePb27Cu2(Bi,Sb)19S57Mon. 2/m
2.HB.10bIzoklakeitePb27(Cu,Fe,Ag)2(Sb,Bi)19S57Orth.
2.HB.10aKobellitePb22Cu4(Bi,Sb)30S69Orth. mmm (2/m 2/m 2/m) : Pnnm
2.HB.10aTintinaitePb22Cu4(Sb,Bi)30S69Orth. mmm (2/m 2/m 2/m) : Pnnm
2.HB.15BenavidesitePb4MnSb6S14Mon. 2/m : P21/b
2.HB.15JamesonitePb4FeSb6S14Mon. 2/m : P21/b
2.HB.20bBuckhorniteAuPb2BiTe2S3Orth.
2.HB.20aNagyágite[Pb3(Pb,Sb)3S6](Au,Te)3Mon. 2/m : P21/m
2.HB.20eWatkinsoniteCu2PbBi4(Se,S,Te)8Mon.
2.HB.20cMuseumite[Pb2(Pb,Sb)2S8][(Te,Au)2]Mon. 2
2.HB.20eLitochlebiteAg2PbBi4Se8Mon. 2/m : P21/m

Related Minerals - Hey's Chemical Index of Minerals GroupingHide

5.7.1SeligmannitePbCuAsS3Orth. mmm (2/m 2/m 2/m) : Pmmn
5.7.2BournonitePbCuSbS3Orth. mm2 : Pmn21
5.7.3MeneghinitePb13CuSb7S24Orth. mmm (2/m 2/m 2/m)
5.7.4GladitePbCuBi5S9Orth. mmm (2/m 2/m 2/m)
5.7.5LindströmitePb3Cu3Bi7S15Orth. mmm (2/m 2/m 2/m)
5.7.6KrupkaitePbCuBi3S6Orth.
5.7.7HammaritePb2Cu2Bi4S9Orth.
5.7.8FriedrichitePb5Cu5Bi7S18Orth. mm2
5.7.9AikinitePbCuBiS3Orth. mmm (2/m 2/m 2/m) : Pnma
5.7.10NuffielditeCu1.4Pb2.4Bi2.4Sb0.2S7Orth.
5.7.11JaskólskiiteCuxPb2+x(Sb,Bi)2-xS5 (x ~ 0.15)Orth. mmm (2/m 2/m 2/m)
5.7.12TintinaitePb22Cu4(Sb,Bi)30S69Orth. mmm (2/m 2/m 2/m) : Pnnm
5.7.13KobellitePb22Cu4(Bi,Sb)30S69Orth. mmm (2/m 2/m 2/m) : Pnnm
5.7.14ProuditeCuPb7.5Bi9.33(S,Se)22Mon. 2/m : B2/m
5.7.15NordströmiteCuPb3Bi7(Se4S10)Mon.
5.7.16WatkinsoniteCu2PbBi4(Se,S,Te)8Mon.
5.7.17PekoitePbCuBi11S18Orth.
5.7.18PetroviciteCu3HgPbBiSe5Orth.
5.7.19Eclarite(Cu,Fe)Pb9Bi12S28Orth. mmm (2/m 2/m 2/m) : Pnma
5.7.20MarriteAgPbAsS3Mon. 2/m : P21/b
5.7.21ArgentobaumhaueriteAg1.5Pb22As33.5S72Tric. 1 : P1
5.7.22AndoriteAgPbSb3S6Orth. mmm (2/m 2/m 2/m)
5.7.23RamdohritePb5.9Fe0.1Mn0.1In0.1Cd0.2Ag2.8Sb10.8S24Mon. 2/m
5.7.24RoshchiniteAg19Pb10Sb51S96Orth.
5.7.25OurayiteAg3Pb4Bi5S13Orth.
5.7.26EskimoiteAg7Pb10Bi15S36Mon.
5.7.27FizélyiteAg5Pb14Sb21S48Mon. 2/m
5.7.28OwyheeiteAg3+xPb10-2xSb11+xS28, -0.13 < x > +0.20Mon. 2/m : P21/b
5.7.29FreieslebeniteAgPbSbS3Mon. 2/m : P21/b
5.7.30DiaphoriteAg3Pb2Sb3S8Mon. 2/m : P21/b
5.7.31SterryiteCu(Ag,Cu)3Pb19(Sb,As)22(As-As)S56Mon. 2/m
5.7.32VikingiteAg5Pb8Bi13S30Mon. 2/m : B2/m
5.7.33ZoubekiteAgPb4Sb4S10Orth.
5.7.34SchirmeritePbAgBi3S6 - Pb3Ag1.5Bi3.5S9Orth.
5.7.36GustaviteAgPbBi3S6Orth. mmm (2/m 2/m 2/m)
5.7.37KitaibeliteAg10PbBi30S51
5.7.38TreasuriteAg7Pb6Bi15S32Mon.
5.7.39BenjaminiteAg3Bi7S12Mon. 2/m : B2/m
5.7.40Lengenbachite Ag4Cu2Pb18As12S39Tric.
5.7.42NeyiteAg2Cu6Pb25Bi26S68Mon.
5.7.43Larosite(Cu,Ag)21PbBiS13Orth.
5.7.44CupropavoniteCu0.9Ag0.5Pb0.6Bi2.5S5Mon. 2/m : B2/m
5.7.45PadĕraiteCu7[(Cu,Ag)0.33Pb1.33Bi11.33]S22Mon.
5.7.46RayitePb8(Ag,Tl)2Sb8S21Mon.
5.7.47RathiteAg2Pb12-xTlx/2As18+x/2S40Mon. 2/m : P21/b
5.7.48HatchiteAgTlPbAs2S5Tric. 1 : P1

Other InformationHide

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 BerryiteHide

Reference List:
Sort by Year (asc) | by Year (desc) | by Author (A-Z) | by Author (Z-A)
Nuffield, E.W. & Harris, D.C. (1966): Studies of the mineral sulpho-salts: XX - Berryite, a new species. Canadian Mineralogist 8, 407-413.
Topa, D., Makovicky, E., Putz., H. and Mumme, W.G. (2006): The crystal structure of berryite, Cu3Ag2Pb3Bi7S16. Can. Mineral. 44, 465-480.

Internet Links for BerryiteHide

Localities for BerryiteHide

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
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.
  • San Juan Province
    • Caucete department
      • La Huerta Range
        • Marayes mining district
The Canadian Mineralogist; February 2009; v. 47; no. 1; p. 129-141
Bolivia
 
  • Potosí
    • Sud Lípez Province
      • Cerro Bonete
Bulgaria
 
  • Burgas Province
    • Burgas
      • Burgas
Kolkovski B, Bogdanov , Borodaev Y, Naidenova E, Eskenazi G. (2003): Bismuth mineralization in the Vurli Bryag deposit, Burgas ore district. Ann Sof. Univ., 95, 1-xx (in Bulgarian).; 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.
  • Yambol Province
    • Yambol Obshtina
      • Yambol
        • Bakadzhik Hills
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
    • Omenica Mining Division
Handbook of Mineralogy
Hood, C. T., Sinclair, A. J., & Leitch, C. H. (1991). British Columbia Geological Survey Geological Fieldwork 1991.
  • Ontario
    • Sudbury District
      • Wisner Township
Péntek, A., Molnár, F., Tuba, G., Watkinson, D. H., & Jones, P. C. (2013). The significance of partial melting processes in hydrothermal low sulfide Cu-Ni-PGE mineralization within the footwall of the Sudbury Igneous Complex, Ontario, Canada. Economic Geology, 108(1), 59-78.
China
 
  • Jiangsu
    • Nanjing
      • Jiangning District
Xiangping, G., Watanabe, M., Ohkawa, M., Hoshino, K., Shibata, Y., and Desong, C. (2001): Canadian Mineralogist 39(6), 1641-1652.
  • Shaanxi
    • Weinan
      • Tongguan County
Enkui Cao (1991): Geology Laboratory 7(5), 300-307
  • Shandong
    • Binzhou
      • Zouping City
Licheng Tang (1989): Shandong Geological Information 1989(4), 15-21; Pingfu Li and Shurong Yuan (1991): Geology and Prospecting 27(1), 7-12
Denmark
 
  • Greenland
    • Sermersooq
      • Arsuk Fjord
        • Ivittuut (Ivigtut)
Karup-Møller, S. (1977). Mineralogy of some Ag-(Cu)-Pb-Bi sulphide associations. Bulletin Geological Society Denmark, 26, 41-68.
Egypt
 
  • Red Sea
    • Eastern Desert
Helmy, H. M., & Kaindl, R. Mineralogy and fluid inclusion study of the molybdenum-uranium-fluorite deposit, Gebel Gattar area, Eastern Desert, Egypt.
Europe
 
  • Balkan Mountains
http://www.bgd.bg/summanual_2003_5.htm; Mladenova, V., Kerestedjian, T., & Dimitrova, D. (2001). Ag-Cu-Pb-Bi mineralization from the Svishti Plaz gold deposit, Central Balkan Mountain, Bulgaria. Geochem. Mineral. Petrol, 38, 55-66.
France
 
  • Grand Est
    • Haut-Rhin
      • Colmar-Ribeauvillé
        • Ste Marie-aux-Mines
Hartmut Hensel collection, Neustadt/Wstr., SXRD analysis by Prof. Luca Bindi, Firenze
            • Chrétien Vein
Hartmut Hensel collection, Neustadt/Wstr., SXRD analysis by Prof. Luca Bindi, Firenze
            • Sankt Jakob vein
Hartmut Hensel collection, Neustadt/Wstr., SXRD analysis by Prof. Luca Bindi, Firenze
Germany
 
  • Baden-Württemberg
    • Freiburg
      • Ortenaukreis
        • Gengenbach
          • Haigerach valley
Wittern: "Mineralfundorte in Deutschland", 2001
        • Nordrach
          • Moosbach valley
Staude, S., Dorn, A., Pfaff, K., & Markl, G. (2010). Assemblages of Ag–Bi sulfosalts and conditions of their formation: the type locality of schapbachite (Ag0. 4Pb0. 2Bi0. 4S) and neighboring mines in the Schwarzwald ore district, southern Germany. The Canadian Mineralogist, 48(3), 441-466.
        • Oberwolfach
Walenta, K. (1992): Die Mineralien des Schwarzwaldes. Chr. Weise Verlag, München, 336 pp. (in German); Blaß, G. & Graf, H. W. (1997): Neufunde von bekannten Fundorten (19. Folge). - Mineralien-Welt, 8 (5), 32-36; WALENTA, K. (1995): Neue Mineralfunde von der Grube Clara. 6. Folge, 1. Teil. - Lapis 20 (5), 33-38; Topa, D., Makovicky, E., Putz., H. and Mumme, W.G. (2006): The crystal structure of berryite, Cu3Ag2Pb3Bi7S16. Can. Mineral. 44, 465-480.; Staude, S., Dorn, A., Pfaff, K., & Markl, G. (2010). Assemblages of Ag–Bi sulfosalts and conditions of their formation: the type locality of schapbachite (Ag0. 4Pb0. 2Bi0. 4S) and neighboring mines in the Schwarzwald ore district, southern Germany. The Canadian Mineralogist, 48(3), 441-466.
    • Karlsruhe
      • Freudenstadt
        • Bad Rippoldsau-Schapbach
K. Walenta: "Die Mineralien des Schwarzwaldes", Weise (Munich), 1992; Staude, S., Dorn, A., Pfaff, K., & Markl, G. (2010). Assemblages of Ag–Bi sulfosalts and conditions of their formation: the type locality of schapbachite (Ag0. 4Pb0. 2Bi0. 4S) and neighboring mines in the Schwarzwald ore district, southern Germany. The Canadian Mineralogist, 48(3), 441-466.
    • Schapbach
      • Wildschapbach valley
Staude, S., Dorn, A., Pfaff, K., & Markl, G. (2010). Assemblages of Ag–Bi sulfosalts and conditions of their formation: the type locality of schapbachite (Ag0. 4Pb0. 2Bi0. 4S) and neighboring mines in the Schwarzwald ore district, southern Germany. The Canadian Mineralogist, 48(3), 441-466.
J. Gröbner: Neufunde von der Grube Katharina im Wildschapbach, Der Erzgräber 18 (2/2004), 34-37.
Iran
 
  • South Khorasan Province
    • Nehbandan County
Karimpour, M.H., Zaw, K., and Huston, D.L. (2005): Journal of Sciences, Islamic Republic of Iran 16(2), 153-168.
Norway
 
  • Trøndelag
    • Trondheim
      • Bymarka
Selbekk R.S. (2010): Norges mineraler. En revidert utgave av Norges mineraler (Neumann 1985). Tapir-NGU-NHM. 552p
Poland
 
  • Lower Silesian Voivodeship
    • 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.
Portugal
 
  • Vila Real
    • Boticas
      • Bobadela
Mercedes Fuertes-Fuente, Antonia Cepedal, Alexandre Lima, Armanda Dória, Maria dos Anjos Ribeiro, Alexandra Guedes (2016): The Au-bearing vein system of the Limarinho deposit (northern Portugal): Genetic constraints from Bi-chalcogenides and Bi–Pb–Ag sulfosalts, fluid inclusions and stable isotopes. Ore Geology Reviews 72, 213-231.
Romania
 
  • Bihor
    • Nucet
www.minerals-of-the carpathians.eu (2009); 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 Mountains
      • Ocna de Fier-Dognecea District
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.
  • Maramureș
    • Băiuț
Mitt. .Österr. Miner. Ges. 143 (1998); Cook, N. J. Mineralogisches Institut der Universität Würzburg Am Hubland, D-97074 Würzburg Lecture to the Austrian Mineralogical Society 23 rd June 1997 in Salzburg.
    • Borşa (Baia Borşa; Borsa)
Handbook of Mineralogy
Mitt. .Österr. Miner. Ges. 143 (1998)
Russia
 
  • Primorsky Krai
    • Malinovsky cluster
Gvozdev, V. I., Fedoseev, D. G., Gurikov, A. V., Sadkin, S. I., Semenyak, B. I., & Ratkin, V. V. (2014). Mineralogy of accompanying elements in the ores of the Kordonnoe skarn scheelite-sulfide deposit in Primorsky Krai. Russian Journal of Pacific Geology, 8(3), 200-212.
  • Sverdlovsk Oblast
    • Serovsky District
      • Turinsk-Auerbakovsk ore field
Murzin, V. V., & Sazonov, V. N. (1999). Gold-Bearing Mineral Assemblages in the Copper and Iron Skarn Deposits of the Tur'insk-Auerbakhovsk Ore Field and Their Formation Condition (the Urals, Russia). Geology of Ore Deposits C/C of Geologiia Rudnykh Mestorozhdenii, 41, 308-321.
Murzin, V. V., & Sazonov, V. N. (1999). Gold-Bearing Mineral Assemblages in the Copper and Iron Skarn Deposits of the Tur'insk-Auerbakhovsk Ore Field and Their Formation Condition (the Urals, Russia). Geology of Ore Deposits C/C of Geologiia Rudnykh Mestorozhdenii, 41, 308-321.
  • Zabaykalsky Krai
    • Chitinskaya Oblast
Kovalenker, V. A., Kiseleva, G. D., Krylova, T. L., & Andreeva, O. V. (2011). Mineralogy and ore formation conditions of the Bugdaya Au-bearing W-Mo porphyry deposit, eastern Transbaikal region, Russia. Geology of Ore Deposits, 53(2), 93-125.
Slovakia
 
  • Banská Bystrica Region
Ďuďa R.,Kotuľak P., Káňa R., 1993: Bergbau und Mineralien von Banská Štiavnica (Schemnitz), Slowakei. Emser Hefte, 14, 3, 1-70, Haltern
    • Žarnovica District
      • Hodruša-Hámre (Hodritsch)
Jeleň, S., Pršek, J., Kovalenker, V. A., Topa, D., Sejkora, J., Števko, M., & Ozdín, D. (2012). Bismuth Sulfosalts Of The Cuprobismutite, Pavonite And Aikinite Series From The Rozália Mine, Hodruša–Hámre, Slovakia. The Canadian Mineralogist, 50(2), 325-340.
  • Košice Region
    • Trebišov District
Kaličiak, M., Ďuďa, R., 1996: Geolgický vývoj, stavba a metalogenéza neovulkanitov na Východnom Slovensku. Manuskript, Archív Geofond, Bratislava, 83p
Sweden (TL)
 
  • Värmland County
    • Filipstad
NUFFIELD, E.W. & HARRIS, D.C. (1966): Studies of the mineral sulpho-salts: XX - Berryite, a new species. Canadian Mineralogist 8, 407-413.
Tajikistan
 
  • Sughd
    • Adrasman
Evseev, A. A. (1995) Kazaknstan and Middle Asia. A brief Mineralogical Guide. World of Stone 8:24-30
      • Karamazar Mountains
        • East Karamazar ore district
Bortnikov, N.S., Kovalenker, V.A., Safonov, Yu.G., Troneva, N.V., Laputina, I.P., Razdolina, N.V. (1985): Paragenetic associations and conditions of formation of Ag-Cu-Pb-Bi-sulfosalts in the Kanimansur ore field. Izvestiya Akad. Nauk SSSR, Ser. Geol. 1985(9): 65-75 (in Russian); in: Jambor, J.L., Grew, E.S., Puziewicz, J., Vanko, D.A. (1988): New mineral Names. American Mineralogist: 73: 443
Handbook of Mineralogy
UK
 
Tindle, A.G. (2008) Minerals of Britian and Ireland
    • Highland
      • Loch Shin
Lowry, D., Stephens, W. E., Herd, D. A., & Stanley, C. J. (1994). Bismuth sulphosalts within quartz veining hosted by the Loch Shin monzogranite, Scotland. Mineralogical Magazine, 58(390), 39-48.
Ukraine
 
  • Zakarpattia Oblast
    • Berehivskyi Raion
      • Berehove
Biruk, S., & Skakun, L. (2012). Bismuth minerals of the Beregovo ore field: mineral assemblages and spatial zonation (Transcarpathian, Ukraine). Geological Quarterly, 44(1), 39-46.
USA
 
  • Colorado
    • Clear Creek Co.
      • Montezuma (Summit Co.)
        • Cinnamon Gulch
Minerals of Colorado (1997) Eckel, E. B.
    • Park Co.
      • Montezuma Mining District
        • Hall Valley (Hall's Valley)
Minerals of Colorado (1997) Eckel, E. B.
    • San Juan Co.
Minerals of Colorado (1997) Eckel, E. B.
    • Summit Co.
Minerals of Colorado (1997) Eckel, E. B.
  • Missouri
    • Madison Co.
      • Fredericktown Mining District
Sherwood, M. D., & Williams, G. A. (1998). Missouri mineral locality index. Rocks & Minerals, 73(2), 98-117.
  • Nevada
    • Nye Co.
      • Toquima Range
        • Round Mountain Mining District
[MinRec 22:181]
Uzbekistan
 
  • Tashkent
    • Okhangaron District
Kovalenker, V. A., Safonov, Y. G., Naumov, V. B., & Rusinov, V. L. (1997). The Epithermal Gold-Telluride Kochbulak Deposit. Geology of Ore Deposits C/C of Geologiia Rudnykh Mestorozhdenii, 39, 107-128.
 
矿物 and/or 产地  
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