Mineral-forming and diagenetic processes related to Tertiary hydrocarbon seepage at the Bohemian Massif/Outer Western Carpathians interface: Evidence from the Hrabůvka quarry, Moravia, Czech Republic

• Published in: Marine and petroleum geology Vol. 52; pp. 77 - 92
• Main Authors: Dolníček, Zdeněk, Lehotský, Tomáš, Slobodník, Marek, Hejtmánková, Eva, Grígelová, Andrea, Zapletal, Jan
• Format: Journal Article
• Language: English
• Published: Kidlington Elsevier Ltd 01.04.2014; Elsevier
• Subjects: Authigenic mineralization; Carpathian Foredeep; Earth sciences; Earth, ocean, space; Exact sciences and technology; Hydrocarbons; Isotope geochemistry; Isotope geochemistry. Geochronology; Methane oxidation; Methane seep; Moravo-Silesian Culm; REE; Sedimentary rocks; Stratigraphy; Czech Republic; Carpathians; Moravia; Carpathian Foredeep; Europe; Bohemian Massif; Central Europe; Western Carpathians; Authigenic mineralization; REE; Carpathian Foredeep; Moravo-Silesian Culm; Hydrocarbons; Methane oxidation; Methane seep; basement; Neogene; fluid inclusions; folds; carbonate rocks; mixing; upper Tertiary; calcite; clay; Lower Carboniferous; limestone; sedimentary cover; S-34/S-32; temperature; Cenozoic; clastic rocks; stable isotopes; salinity; breccia; C-13/C-12; hydrocarbons; siliciclastics; Tertiary; Carboniferous; oxidation; seepage; carbonates; Paleozoic; sedimentary rocks; cement; Culm; upper Paleozoic; Dinantian; Badenian; Miocene; Phanerozoic; middle Miocene
• ISSN: 0264-8172; 1873-4073
• DOI: 10.1016/j.marpetgeo.2014.02.003

Ancient hydrocarbon seepage occurred in the Hrabůvka quarry at the boundary between the basement of the Bohemian Massif (represented by folded Lower Carboniferous siliciclastics of the Culm facies) and Tertiary sedimentary cover of the Carpathian Foredeep (formed by Lower Badenian siliciclastics and calcareous clays). The unconsolidated Lower Badenian sediments contain lithified domains composed of limestone and breccias with limestone cement, whereas the basement rocks are cut by subvertical neptunic dykes filled up by limestone and calcite-marcasite-pyrite veinlets representing sealed fluid conduits. The deeply negative δ13C values of both vein calcite and limestone (down to −38.1‰ V-PDB) indicate that oxidation of hydrocarbons was the major source of carbon for authigenic mineralization. A fluid inclusion study suggests low fluid temperatures (<50 °C) and low and variable salinities of aqueous fluids associated with hydrocarbons (0.7–6.7 wt. % NaCl eq.). The variability of δ18O values of authigenic carbonates (−1.7 to −8.2‰ V-PDB) could reflect either slight changes in temperature of escaping fluids (mostly within 15 °C), and/or some mixing with meteoric waters. The low δ34S values of vein marcasite (∼–20‰ V-CDT) are consistent with bacterial reduction of sulfate in the hydrothermal system. Low C1/(C2+C3) ratios in hydrocarbon gas extracted from authigenic carbonates (9.9 and 5.8) as well as the high δ13C values of methane (−31.8 and −32.4‰ V-PDB) are compatible with a thermogenic source of hydrocarbons. REE data indicate sequestration of REE from finely dispersed detrital material in the apical part of the hydrothermal system. The available data are compatible with two possible scenarios of fluid origin. The hydrocarbons could have been leached from underlying Paleozoic sedimentary sequence by aqueous fluids that infiltrated into the basement after Tertiary tectonic reactivation. Alternatively, an external source of hydrocarbon-bearing fluids can be found in the adjacent Outer Western Carpathians flysch nappes containing petroleum-producing lithologies. Nevertheless, a regional flow of hydrocarbon-bearing fluids is evidenced by the occurrence of very similar hydrocarbon-bearing vein mineralizations in a wider area. •Cold hydrocarbon seepage in contact zone between Paleozoic flysch siliciclastics and Tertiary cover.•Diagenetic lithification of unconsolidated Tertiary sediments and formation of calcite-marcasite-pyrite veins.•Hydrocarbon oxidation, bacterial sulfate reduction, REE scavenging from finely dispersed detrital material.•Hydrocarbon source in either underlying Paleozoic bedrock or neighboring Carpathian flysch nappes.