Journal of
GEOsciences
  (Formerly Journal of the Czech Geological Society)

Plášil J, Sejkora J, Čejka J, Škoda R, Goliáš V (2009) Supergene mineralization of the Medvědín uranium deposit, Krkonoše Mountains, Czech Republic, Journal of Geosciences, 54, 1, 15 - 56

The following are references cited by the article:

Artl T, Ambruster T (1999) Single X-ray structure refinement of cornwallite, Cu₅(AsO₄)₂(OH)₄: a comparison with its polymorph cor-nubite and the PO₄-analogue pseudomalachite. Neu J Mineral, Mh 10: 468-480

Aruga A, Nakai I (1985) Structure of Ca-rich agardite. Acta Cryst C41: 161-163

Belova LN, Doynikova OA (2003) Conditions of formation of uranium minerals in the oxidation zone of uranium depos-its. Geolog Rud Mestor 45: 148-151 (in Russian)

Brugger J, Burns c p, Meisser N (2003) Contribution to the acid drainage of uranium minerals: marecottite and the zippeite group. Amer Miner 88: 676-685

Burnham CW (1962) Lattice constant refinement. Carn Inst Wash Year Book 61: 132-135

Burns PC (2000) A new uranyl phosphate chain in the structure of parsonsite. Amer Miner 85: 801-805

Burns PC (2005) U⁶⁺ minerals and inorganic compounds: insights into an expanded structural hierar-chy of crystal structures. Canad Mineral 43: 1839-1894 CrossRef link

Burns PC, Miller ML, Ewing RC (1996) U⁶⁺ minerals and inorganic phases: a comparison and hierar-chy of crystal structures. Canad Mineral 34: 845-880

Chernikov AA (1981) Behaviour of uranium in the supergene zone. Nedra, Moscow, pp 1-207 (in Russian)

Coelho AA, Cheary RW (1997) X-ray Line Profile Fitting Program, XFIT. Program.

Coutinho JMV, Atencio D (2000) Phosphuranylite from Minas Gerais, Brazil and its identity with yingjiangite. In: 4^th International Mineralogy in Museums Conference, Melbourne: 35

Čejka J (1999) Infrared spectroscopy and thermal analysis of the uranyl minerals. In: Burns PC, Ewing RC (eds) Ura-nium: Mineralogy, Geochemistry and the Environment. Mineralogical Society of America and Geochemical Society Reviews in Mineralogy and Geochemistry 38, Washington, pp 521-622

Čejka J, Urbanec Z, Mrázek Z (1986) Secondary uranium minerals in the collection of the National Museum in Prague XII. Uranyl silicates. Čas Nár muz, ř přírod 45: 30-44 (in Czech)

Čejka J Jr, Muck A, Čejka J (1984) To the infrared spectroscopy of natural uranyl phosphates. Phys Chem Miner 11: 172-177 CrossRef link

Dai YS, Hughes JM (1989) Crystal-structure refinements of vanadinite and pyromorphite. Canad Mineral 27: 189-192

Dai YS, Hughes JM, Moore PB (1991) The crystal structures of mimetite and clinomimetite Pb₅(AsO₄)₃Cl. Canad Mineral 29: 369-376

Deliens M (1977) Associations de minéraux secondaires d’uranium à Shinkolobwe (région du Shaba, Zaïre). Bull Soc Fr Minéral Cristallogr 100: 32-38

Demartin F, Diella V, Donzelli S, Gramaciolli CM, Pilati T (1991) The importance of accurate crystal structure deter-mination of uranium minerals. I. Phosphuranylite KCa(H₃O)₃(UO₂)₇(PO₄)₄O₄.8H₂O. Acta Crystallogr B47: 439-466

Dietrich JÉ, Orlic M, Permingeat F (1969) L’agardite, une nouvelle espéce minerále, et le probléme du chlorotile. Bull Soc Fr Minéral Cristallogr 92: 420-434

Finch RJ, Ewing RC (1992): The corrosion of uraninite under oxidizing conditions. J Nucl Mater 190: 133-156 CrossRef link

Finch RJ, Murakami T (1999) Systematics and paragenesis of uranium minerals. In: Burns PC, Ewing RC (eds) Uranium: Mineralogy, Geochemistry and the Environment. Mineralogical Society of America and Geochemical Society Reviews in Mineralogy and Geochemistry 38, Washington, pp 91-179

Frost RL, Weier ML (2004) Hot-stage Raman spectroscopic study of the thermal decomposition of saléeite. J Raman Spectr 35: 299-307

Frost RL, Čejka J, Weier M, Martens WM (2006a) A Raman spectroscopic study of the uranyl phosphate mineral parsonsite. J Raman Spectr 37: 879-891

Frost RL, Čejka J, Weier M, Ayoko GA (2006b) Raman spectroscopic study of the uranyl phosphate mineral dewindtite. J Raman Spectr 37: 1362-1367

Frost RL , Čejka J, Ayoko GA (2008) Raman spectroscopic study of the uranyl phosphate minerals phosphuranylite and yingjiangite. J Raman Spectr 39: 495-502

Ginderów D (1988) Structure de l’uranophane alpha, Ca(UO₂)₂(SiO₃OH)₂ . 5 H₂O. Acta Cryst C44: 421-424

Grenthe I, Fuger J, Konings RJM, Lemire RJ, Muller AB, Nguyen-Trung Cregu C, Wanner H (2004) Chemical thermo-dynamics of Uranium (reprint). OECD Nuclear Energy Agency, Issy-les-Moulineaux, France, pp 1-715

Hoggart DD, Nuffield EW (1954) Studies of radioactive compounds: VII - phosphuranylite and dewindtite. Amer Miner 39: 444-447

Huynen AM, Piret-Meunier J, van Meerssche M (1963) Structure de la kasolite. Bull Cl Sci (Acad Roy Belg) 49: 192-201

Jansa J, Novák F, Pauliš P, Scharmová M (1998) Supergene minerals of the Sn-W Cínovec deposit, Krušné hory Mts. (Czech Republic). Bull mineral petrolog Odd Nár Muz (Praha) 6: 83-101 (in Czech)

Jingyi Z, Anwa W, Wenshu G (1992) New data on yingjiangite. Acta Petrol Mineral 11: 178-184 (in Chinese with Eng-lish abstract)

Klomínský J (1969) The Krkonoše-Jizera granitoid massif. Sbor Geol Věd 15: 1-134

Kohlmann M, Sowa H, Reithmayer K, Schulz H, Kruger RR, Abriel W (1994) Structure of a Y_(1-x)(Gd,Dy,Er)_xPO₄ . 2H₂O microcrystal using synchrotron radia-tion. Acta Cryst C50: 1651-1652

Langmuir D (1978) Uranium solution-mineral equilibria at low temperatures with applications to sedimentary ore deposits. Geochim Cosmochim Acta 42: 547-569 CrossRef link

Locock AJ (2004) Crystal chemistry of uranyl phosphates, arsenates and oxysalts of chromium(V): implications for remediation. Unpublished PhD. thesis, University of Notre Dame, Notre Dame, pp 1-477

Locock AJ, Burns PC (2003) Crystal structures and synthesis of the copper-dominant members of the autunite and meta-autunite groups: torbernite, zeunerite, metatorbernite and metazeunerite. Canad Mineral 41: 498-502

Locock AJ, Burns PC, Flynn TM (2005) The role of water in the structures of synthetic hallimondite, Pb₂[(UO₂)(AsO₄)₂](H₂O)_n and syn-thetic parsonsite, Pb₂[(UO₂)(PO₄)₂](H₂O)_n, 0 <= n <= 0.5. Amer Miner 90: 240-246 CrossRef link

Makarov ES, Ivanov VI (1960) The crystal structure of meta-autunite, Ca(UO₂)₂(PO₄)₂. 6H₂O. Doklady Akademii Nauk USSR 132: 601-603 (in Russian)

Mereiter K, Preisinger A (1986) Krystallstrukturdaten der Wismutminerale Atelestit, Mixit und Pucherit. Anz Österr Akad Wiss 123: 79-81

Miller SA, Taylor JC (1986) The crystal structure of saléeite Mg[UO₂PO₄]₂ . 10H₂O. Z Kristallogr 177: 247-253

Moenke H (1966) Mineralspektren II. Akademie Verlag Berlin, pp 1-22

Olmi F, Sabelli C, Trosti-Ferroni R (1991) A contribution to the crystal chemistry of mixite group minerals from Sar-dinia (Italy). Neu Jb Mineral, Mh 11: 487-499

Ondruš P, Hyršl J (1989) New finds and revision of secondary minerals from Příbram district. Acta Univ Carol, Geol: 521-533

Ondruš P, Veselovský F, Hloušek J, Skála R, Vavřín I, Frýda J, Čejka J, Gabašová A (1997) Secondary minerals of the Jáchymov (Joachimsthal) ore district. J Czech Geol Soc 42: 3-76 Local link

Pauliš P, Ševců J, Novotný J, Rendl J (1999) Saléeite and minerals of the phosphuranylite-yingjiangite series from the Kladská near Mariánské Lázně uranium deposit. Bull Czech Geol Surv 74: 47-49

Pauliš P, Kopecký S, Novák F (2005) Uranophane from the deposit of uranium ores Medvědín near Špindlerův Mlýn. Opera Corc 42: 69-72 (in Czech)

PDF-2 - Powder diffraction File (ICDD- International Centre for Diffraction Data) ICDD (2003) „Powder Diffraction File“, International Centre for Diffraction Data, edited by Frank McClune, 12 Campus Boulevard, Newton Square, Pennsylvania 19073-3272

Peacor DR, Dunn PJ (1982) Petersite, a REE and phosphate analog of mixite. Amer Miner 67: 1039-1042

Piret P, Deliens M (1980) Nouvelles données sur la saléeite holotype de Shinkolobwe. Bull Minéral 103: 630-632

Piret P, Piret-Meunier J (1991) Composition chimique et structure crystalline de la phosphuranylite Ca(UO₂)[(UO₂)₃(OH)₂(PO₄)₂]₂ . 12 H₂O. Eur J Mineral 3: 69-77

Piret P, Piret-Meunier J, Deliens M (1990) Composition chimique et structure cristalline de la dewindtite Pb₃[H(UO₂)₃O₂(PO₄)₂]₂.12H₂O. Eur J Mineral 2: 399-405

Plášil J (2007) A study of supergene mineralization at the Medvědín uranium deposit, Krkonoše Mts., Czech Republic. Unpublished BSci thesis, Faculty of Science, Charles University, Prague, pp 1-72 (in Czech)

Plášil J, Sejkora J, Ondruš P, Veselovský F, Beran P, Goliáš V. (2006a) Supergene minerals in the Horní Slavkov ura-nium ore district, Czech Republic. J Czech Geol Soc 51: 149-158 CrossRef link

Plášil J, Sejkora J, Škoda R, Goliáš V (2006b) Supergene Y, REE minerals from the Medvědín deposit, The Krkonoše (Giant) Mts., Czech Republic. Miner Pol (Special papers) 28: 181-183

Plášil J, Sejkora J, Goliáš V (2008) Bismuth mineralization from the uranium deposit Medvědín near Špindlerův Mlýn. Opera Corc 45: 5-11 (in Czech with English abstract)

Pluskal O (1993): Uranium mineral resources in the Czech Republic (The uranium world market and the Czech Repub-lic, part II). Faculty of Science, Charles University, Prague, pp 1-99 (in Czech)

Pouchou JL, Pichoir F (1985) “PAP“ procedure for improved quantitative microanalysis. Microbeam Anal 20: 104-105

Rosenzweig A, Ryan RR (1977) Kasolite, Pb(UO₂)(SiO₄)(H₂O). Cryst Struct Comm 6: 617-621

Ross M, Evans HT, Appleman DE (1964) Studies of the torbernite minerals (II): The crystal structure of meta-torbernite. Amer Miner 49: 1603-1621

Sejkora J (1992) Mineralogy of oxidic minerals containing bismuth. Unpublished MSci thesis, Faculty of Science, Charles University, Prague, pp 1-154 (in Czech)

Sejkora J (1993) Phosphuranylite occurrences in the Czech Republic. In: Sbor V min cykl sem (Horní Bečva), Ústí nad Labem, pp 97-99 (in Czech)

Sejkora J, Šrein V (1996) Contribution to crystal chemistry of mixite from localities in the Bohemian Massif. Zpr geol výzk v r 1995: 153-155 (in Czech)

Sejkora J, Veselovský F, Šrein V (1994) The supergene mineralization of uranium occurrence Rýžoviště near Harra-chov (Krkonoše Mts., Czech Republic). Acta Mus Nat Prague, ser B (Historia Nat) 50: 55-91

Sejkora J, Mazuch J, Abert F, Šrein V, Novotná M (1997a) Supergene mineralization of the Slavkovice uranium deposit in western Moravia. Acta Mus Moraviae, Sci Nat 81: 3-24 (in Czech)

Sejkora J, Gabašová A, Novotná M (1997b) Mixite from Smrkovec near Mariánské Lázně. Bull mineral-petrolog Odd Nár Muz (Praha) 4-5: 185-187 (in Czech)

Sejkora J, Čejka J, Kotrlý M, Novotná M (1998) Saléeite from uranium exploration dumps at Rýžoviště near Harra-chov. Bull mineral-petrolog Odd Nár Muz (Praha) 6: 217-221 (in Czech)

Sejkora J, Řídkošil T, Šrein V (1999) Zálesíite, a new mineral of the mixite group, from Zálesí, Rychlebské hory Mts., Czech Republic. Neu Jb Mineral, Abh 175: 150-124

Sejkora J, Čejka J, Pauliš P (2003) Dewindtite - a rare phosphate of lead and uranyl from uranium exploration site at Rýžoviště near Harrachov (Krkonoše Mts.). Bull mineral-petrolog Odd Nár Muz (Praha) 11: 177-183 (in Czech)

Sejkora J, Novotný P, Novák M, Šrein V, Berlepsch P (2005) Calciopetersite from Domašov nad Bystřicí, northern Moravia, Czech Republic, a new mineral species of the mixite group. Can Mineral 43: 1393-1400 CrossRef link

Sejkora J, Ondruš P, Fikar M, Veselovský F, Mach Z, Gabašová A, Škoda R, Beran P (2006) Supergene minerals at the Huber stock and Schnöd stock deposits, Krásno ore district, the Slavkovský les area, Czech Republic. J Czech Geol Soc 51: 57-101 CrossRef link

Sejkora J, Čejka J, Šrein V (2007) Supergene uranium mineralization from Horní Halže near Mědenec (Krušné hory Mountains), Czech Republic. J Geosci 52: 199-210 CrossRef link

Sowder AG, Clark SB, Fjeld RA (2000) Dehydration of synthetic autunite hydrates. Radiochim Acta 88: 533-538

Stergiou AC, Rentzeperis PJ, Sklavounos S (1993) Refinement of the crystal structure of metatorbernite. Z Kristallogr 205: 1-7

Strukov NG (1958) Geological report on closing the deposit. MS Diamo Archive, Příbram, pp 15 (in Czech)

Škácha P, Sejkora J (2001) Kasolite from the Jánská vein, Březové Hory deposit, Příbram. Bull mineral-petrolog Odd Nár Muz (Praha) 9: 272-273 (in Czech)

Taylor SR, McLennan SM (1985) The Continental Crust: its Composition and Evolution. Blackwell Scientific Publish-ers, Oxford, pp 1-321

Thoreau J, Vaes JF (1932) La saléeite, nouveau mineral uranifére. Bull Soc belge Géol 42: 96-99

Veselý T (1982) Small uranium deposits in crystalline units of the Bohemian Massif. Part III.: The region of northwest-ern and northern Bohemia. Geol a hydrometalurg uranu 6: 3-46 (in Czech)

Vochten R, van Haverbeke L, van Springel K (1991) Transformation of chernikovite into parsonsite and study of its solubility product. Neu Jb Mineral, Mh 1991: 551-558.

Walenta K (1965a) Die Uranglimmergruppe. Chem Erde 24: 254-275

Walenta K (1965b) Hallimondite, a new uranium mineral from the Michael Mine near Reichenbach (Black Forest, Germany). Amer Miner 50: 1143-1157

Walenta K, Theye T (2004) Agarit-(Ce) von der Grube Clara im mittleren Schwarzwald, Aufschluss 55: 17-23

Winchester JA, Patočka F, Kachlík V, Melzer M, Nawakovski C, Crowley QG, Floyd PA (2003) Geochemical discrimi-nation of metasedimentary sequences in the Krkonoše-Jizera terrane (West Sudetes, Bohemian Massif): paleotec-tonic and stratigraphic constrains. Geol Carpath 54: 267-280

Wise WS (1978) Parnauite and goudeyite, two new copper arsenate minerals from the Majuba Hill Mine, Pershing County, Nevada. Amer Miner 63: 704-708

Wronkiewicz DJ, Bates JK, Gerding TJ, Veleckis E, Tani BS (1992) Uranium release and secondary phase formation during unsaturated testing of UO₂ at 90 °C. J Nucl Mater 190: 107-127 CrossRef link

Zhangru C, Yuzhu H, Xiaofa G (1990) A new mineral - yingjiangite. Acta Mineral Sin 10: 102-105 (in Chinese with English Abstract)