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Palaeo-thermal and coalification history of Permo-Carboniferous sedimentary basins of Central and Western Bohemia, Czech Republic: first insights from apatite fission track analysis and vitrinite reflectance modelling

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    SYSNO ASEP0511608
    Document TypeJ - Journal Article
    R&D Document TypeJournal Article
    Subsidiary JČlánek ve WOS
    TitlePalaeo-thermal and coalification history of Permo-Carboniferous sedimentary basins of Central and Western Bohemia, Czech Republic: first insights from apatite fission track analysis and vitrinite reflectance modelling
    Author(s) Suchý, Václav (UJF-V) ORCID
    Filip, Jiří (GLU-S) RID, SAI
    Sýkorová, Ivana (USMH-B) RID, ORCID
    Pešek, J. (CZ)
    Kořínková, Dagmar (GLU-S) RID, SAI
    Number of authors5
    Source TitleBulletin of Geosciences - ISSN 1214-1119
    Roč. 94, č. 2 (2019), s. 201-219
    Number of pages19 s.
    Publication formPrint - P
    Languageeng - English
    CountryCZ - Czech Republic
    Keywordscoalification ; organic matter diagenesis ; geothermal gradient ; heat flow evolution ; Variscan orogeny ; Bohemian Massif
    Subject RIVCB - Analytical Chemistry, Separation
    OECD categoryAnalytical chemistry
    Subject RIV - cooperationInstitute of Geology - Geology ; Mineralogy
    Institute of Rock Structure and Mechanics - Geochemistry
    R&D ProjectsEF16_019/0000728 GA MŠk - Ministry of Education, Youth and Sports (MEYS)
    Method of publishingLimited access
    Institutional supportUJF-V - RVO:61389005 ; GLU-S - RVO:67985831 ; USMH-B - RVO:67985891
    UT WOS000471678400005
    EID SCOPUS85071151715
    DOI10.3140/bull.geosci.1696
    AnnotationThermal modelling using AFTA has shown that the Carboniferous sediments were subjected to maximum temperatures ranging from similar to 75 degrees C in the SW to more than similar to 120 degrees C in the NE, which generally concluded during pre-Triassic times. Thermal records show a gradual cooling between similar to 280-180 Ma, followed by a long Mesozoic to Cenozoic Period of thermal stability, during which time, the sediments resided at constant temperatures of similar to 50-75 degrees C. From similar to 30 Ma onwards, accelerated cooling and erosion occurred, resulting in the present-day exposure of rocks on the surface. The EASY%R-0 modelling of average VR values that range from 0.59% R-r in the SW to 0.77% R-r in the NE, predicted maximum palaeo-temperatures ranging from similar to 85 degrees C to -135 degrees C, respectively, these were attained soon after sediment deposition. A coalification grade of about 0.40-0.50% R-r characteristic of sub-bituminous coals, was already completed during the late Carboniferous and/or early Permian limes. Later post-Permian heating did not have any substantial impact on the maturation of Carboniferous organic matter. By combining VR thermal modelling with local stratigraphic information we provide evidence that the coalification process occurred very rapidly. A coalification grade of similar to 0.40% R-r was attained during 2-4 m.y. after peat deposition, or even earlier. In addition, abundant sub-bituminous coal clasts embedded within the Carboniferous strata suggest that coalification proceeded close to the surface. These data collectively imply extremely high thermal gradients that must have prevailed during the Permo-Carboniferous thermal climax. The syn-sedimentary volcanic and/or igneous activity combined with effects of heat advection due to hot fluids circulating through the strata could have accounted for this dramatic geothermal setting, which had vanished by the end of the Palaeozoic Era.
    WorkplaceNuclear Physics Institute
    ContactMarkéta Sommerová, sommerova@ujf.cas.cz, Tel.: 266 173 228
    Year of Publishing2020
    Electronic addresshttp://www.geology.cz/bulletin/fulltext/1696_Suchy_190617.pdf
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