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Popis vrtin in mikroskopski opis reprezentativnih kamnin in rud iz Zn-Pb-Cu rudišča Bashibos v Makedoniji
ID Potočnik Krajnc, Barbara (Author), ID Herlec, Uroš (Mentor) More about this mentor... This link opens in a new window, ID Dolenec, Matej (Comentor)

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Abstract
Cinkovo-svinčevo-bakrovo rudišče Bashibos, ki leži v jugovzhodni Makedoniji nad Dojranskim jezerom, gradijo plasti metamorfiziranega karbonatnega peščenjaka, ki se izmenjuje s kloritnim in muskovitnim skrilavcem ter v spodnjem delu rudišča s skrilavim metamorfoziranim bazaltom. Karbonatni metapeščenjak vsebuje primesi klorita, vulkanskega kremena ter plagioklazov v različnih razmerjih, kar pomeni, da je odlaganje potekalo sočasno z aktivnim vulkanizmom. Kamninsko zaporedje je v zgornjem delu do globine 30 metrov močno limonitizirano. Na osnovi popisa jedra vrtine PD-15 in optične mikroskopije desetih izbranih vzorcev smo ugotovili, da sestava vulkanskih in piroklčastičnih kamnin od spodaj navzgor postopno prehaja od mafičnega bazalta proti kislemu, piroklastičnemu različku pelitskega tufa. Ugotovili smo, da je izločanje rudnih mineralov potekalo v treh fazah: 1) sinsedimentna, 2) metasomatska in 3) hidrotermalna žilna. V sinsedimentni fazi sta se v plasteh in laminah pelitskih kamnin izločila drobnozrnat pirit in sfalerit. V metasomatski ali visokotemperaturna fazi, kjer so hidrotermalne raztopine intenzivno nadomeščale plasti karbonatnega peščenjaka in po skrilavosti kloritno-muskovitne skrilavca, so se izločili sfalerit, halkopirit, galenit, pirit, tennantit ter jalovinska kremen in kalcit. V hidrotermalni žilni fazi so razpoke in klivaž omogočale vertikalno in lateralno mobilnost hidrotermalnih raztopin sočasno in po tektonski fazi. V zgodnejših fazah žilne mineralizacije sta se izločila pirit in visokotemperaturni sfalerit, ki vsebuje značilne drobne izločnine halkopirita. V mlajših fazah so se izločali halkopirit, nizkotemperaturni sfalerit, galenit, halkopirit in tennantit. Razpoke so bile v kasnejših fazah zapolnjene z jalovinskima kremenom in kalcitom. Prevladujoč tip orudenja je metasomatski, kar dokazuje primerjava vsebnosti izbranih slednih prvin, indikatorskih rudnih mineralov. Drobznozrnata ruda (Pb+Zn = 0,441% vsebnosti kovin) je pogosto, predvsem v pripovršinskem delu, limonitizirana.

Language:Slovenian
Keywords:Rudišče, rudna geologija, Zn-Pb-Cu rudišče, popis vrtin, rudna mikroskopija, Bashibos
Work type:Bachelor thesis/paper
Organization:NTF - Faculty of Natural Sciences and Engineering
Year:2017
PID:20.500.12556/RUL-96415 This link opens in a new window
COBISS.SI-ID:1355870 This link opens in a new window
Publication date in RUL:02.10.2017
Views:2470
Downloads:866
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Secondary language

Language:English
Title:Core logging and microscopic description of representative rocks and ores from the Zn-Pb-Cu ore deposit Bashibos in Macedonia
Abstract:
The Bashibos Zn-Pb-Cu deposit, southeastern Macedonia, occurs within a lithologically diverse sequence of metamorphosed carbonate sandstone intercalated by chlorite-muscovite slate and in the lowest section of the deposit by metamorphosed basaltic slate. Carbonate sandstone contains variable proportions of chlorite, volcanic quartz and plagioclase, suggesting its deposition synchronous to volcanic activity. Rock sequence is often severely limonitized and altered, especially near highly fragmented zones along fractures. Fractured rock enabled infiltration of oxygen-rich rain water, causing oxidation of primary sulfides. Detailed core mapping and optical microscopy revealed a gradual transition from dominantly mafic basaltic to the felsic rhyolitic composition of pelitic volcanoclastic rock in the sequence. Careful macroscopic observation and microscopy showed precipitation of ore minerals by three metallogenetic mechanisms: 1) synsedimentary, 2) metasomatic and 3) vein hydrothermal. In synsedimentary stage, fine-grained pyrite and sphalerite precipitated along primary lamination and bedding planes of carbonate sandstone and pelitic rocks. The metasomatic stage is manifested as intensive carbonate sandstone and subordinately chlorite-muscovite slate dissolution by high-temperature hydrothermal fluids and precipitation of pyrite, sphalerite, chalcopyrite and tennantite and gangue quartz and calcite. In vein hydrothermal phase fractures and cleavage enabled vertical and horizontal fluid mobility. In early stages of vein hydrothermal phase was dominant pyrite and high-temperature sphalerite precipitation, while in later stages precipitated pyrite, low-temperature sphalerite, galena, chalcopyrite, and tennantite. Minute chalcopyrite exsolutions characterize High-temperature sphalerite. Veins were in later phases regenerated and filled with calcite and quartz. Most significant mineralization type is, from the aspect of economic geology, metasomatic carbonate replacement.

Keywords:Ore deposit, ore geology, Zn-Pb-Cu ore deposit, core logging, ore microscopy, Bashibos

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