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Názov Kremeňovo-karbonátové žily s U-Mo-Cu mineralizáciou v permských intermediárnych až bázických vulkanitoch hronika na lokalite Kravany (Kozie chrbty, východné Slovensko) Súbež.n. Quartz-carbonate veins containing U-Mo-Cu mineralization in the Permian intermediate to basic volcanic rocks of the Hronicum Unit at Kravany (Kozie chrbty Mts., Eastern Slovakia) Aut.údaje Štefan Ferenc, Tomáš Mikuš ... [et al.] Autor Ferenc Štefan 1977- (50%) UMBFP01 - Katedra geografie a geológie
Spoluautori Mikuš Tomáš (15%)
Spišiak Ján 1953- (15%) UMBFP01 - Katedra geografie a geológie
Kopáčik Richard 1995- (10%) UMBFP01 - Katedra geografie a geológie
Hoppanová Eva 1995- (10%) UMBFP01 - Katedra geografie a geológie
Zdroj.dok. Bulletin Mineralogie Petrologie. Roč. 28, č. 2 (2020), s. 364-384. - Praha : Mgr. Jiří Sejkora, 2020 Kľúč.slová uraninit - uraninite horniny - rocks hronikum Heslá geogr. Západné Karpaty (pohorie) Slovensko východné Kozie chrbty Form.deskr. články - journal articles Jazyk dok. slovenčina Krajina Česká republika Anotácia Historical uranium ore deposit Kravany is located in the eastern part of Kozie Chrbty Mts., approximately 9 km SW of the district town Poprad. Stratiform, infiltration U-Cu-Pb mineralization is bound to the Upper Permian clastic sediments (Kravany Beds, member of Malužiná Formation, Hronicum Unit), which are enriched in fragments of carbonized flora. Vein U-Mo-Cu mineralization was found in the Upper Permian intermediate to basic volcanics intersecting the sediments of the Kravany Beds (also ore lenses). Vein filling originated in the following development stages: I.) Quartz-pyrite (quartz, pyrite, marcasite), II.) Dolomite-pyrite (dolomite, pyrite, marcasite, galena), III.) Copper (tetrahedrite, tennantite, chalcopyrite), IV.) Uranium-molybdenum (uraninite, Pb-Mo-S phase, coffinite, quartz), and V.) Calcite (calcite, chalcopyrite). The formation of mineralization can be explained by the geological position: random emplacement of the diorite porphyrites, resp. basaltoid andesites dikes, directly in the preexisting U,Mo-bearing sediments. Vein U-Mo-Cu mineralization could thus most likely have formed according to the following scenario: I.) sedimentation of Kravany Beds in the Permian riftogenic basin: formation of beds of arkoses and arkosic sandstones with abundant fragments of charred flora, II.) formation of infiltration U mineralization: reduction and accumulation of U in sediments rich in organic matter, III.) emplacement of dikes of intermediate to basic volcanics: intersection of sediments with organics and with high U and Mo content, mobilization of formation fluids, assimilation of U and Mo into intermediate-basic magma, IV.) cooling of volcanic bodies → their contraction (formation of contraction cracks) → filling of contraction cracks with quartz, carbonates and ore minerals (crystallization from residual magmatic solutions mixed with formation waters). From this point of view it is syngenetic volcanogenic vein U-Mo-Cu mineralization, originally of the Permian age, with subsequent Alpine (most probably Cretaceous) reworking (this is evidenced by the variable composition of uraninite). It belongs to the Neohercynian late- to postorogenic metallogenetic stage. The possible younger, post-Permian age of mineralization from alpine hydrothermal solutions must also be assumed, but this consideration has several inconsistencies. URL Link na plný text Kategória publikačnej činnosti ADM Číslo archívnej kópie 49312 Kategória ohlasu KONDELA, Julián - HREUS, Sebastián. Uranium mining restriction in Slovakia from the perspective of actual raw material situation. In International conference mineral deposits safeguarding as a basis of mineral raw materials safety : books of abstracts, Kraków, 10th-11th May 2022. Kraków : Mineral and energy economy research institute PAS, 2022. ISBN 978-83-964171-5-2, pp. 33-34.
Katal.org. BB301 - Univerzitná knižnica Univerzity Mateja Bela v Banskej Bystrici Báza dát xpca - PUBLIKAČNÁ ČINNOSŤ Odkazy PERIODIKÁ-Súborný záznam periodika 
článok
Názov Supergénne minerály stratiformnej U-Cu mineralizácie pri Spišskej Teplici (hronikum, Kozie chrbty, východné Slovensko) Súbež.n. Supergene minerals of stratiform U-Cu mineralization at Spišská Teplica (Hronicum Unit, Kozie chrbty Mts., Eastern Slovakia) Aut.údaje Štefan Ferenc, Eva Hoppanová ... [et al.] Autor Ferenc Štefan 1977- (35%) UMBFP01 - Katedra geografie a geológie
Spoluautori Hoppanová Eva 1995- (35%) UMBFP01 - Katedra geografie a geológie
Kopáčik Richard 1995- (10%) UMBFP01 - Katedra geografie a geológie
Mikuš Tomáš (10%)
Budzák Šimon 1982- (10%) UMBFP08 - Katedra chémie
Zdroj.dok. Bulletin Mineralogie Petrologie. Roč. 28, č. 2 (2020), s. 295-306. - Praha : Mgr. Jiří Sejkora, 2020 Kľúč.slová urán - uranium meď - copper malachite azurite Heslá geogr. Kozie chrbty Západné Karpaty (pohorie) Spiš (Slovensko : oblasť) Form.deskr. články - journal articles Jazyk dok. slovenčina Krajina Česká republika Anotácia Occurrence of infiltration, stratiform U-Cu mineralization Spišská Teplica - Vápenica-Vysová is located approximately 7.8 km SW from the district town Poprad and 4.3 km SW from the centre of Spišská Teplica village (Slovak Republic). Primary U-Cu mineralization is bound to arkosic sandstones with abundant carbonised fragments of higher plants (Kravany Beds, Upper Permian, Hronicum Unit) and consists of uraninite and pyrite. The chalcopyrite and Cu-S mineral phase (digenite?, roxbyite?) form inclusions in clastic fluorapatite and zircon. From the supergene minerals, malachite and goethite are absolutely dominant, azurite, zálesíite and baryte are less represented. Phosphate, probably of the florencite group and acanthite, were only rarely found. Supergene uranyl minerals were not detected. Their lack, resp. their weak development in all uranium deposits in Kozie Chrbty Mts. can be explained as follows: during the weathering of primary ores, the cation UO22+ is released from uraninite and coffinite into supergene solutions (uranyl complexes). However, these solutions come into almost immediate contact with fragments of coalified flora (especially in the case of rich U ores), where UO22+ binds to the organic uranyl complexes (complexation). Only a relatively small part of uranyl cation escapes from this geochemical trap, and in that case supergene uranium minerals may precipitate. URL Link na zdrojový dokument Kategória publikačnej činnosti ADM Číslo archívnej kópie 49309 Katal.org. BB301 - Univerzitná knižnica Univerzity Mateja Bela v Banskej Bystrici Báza dát xpca - PUBLIKAČNÁ ČINNOSŤ Odkazy PERIODIKÁ-Súborný záznam periodika článok