Vitrinite equivalent reflectance of Silurian black shales from the Holy Cross Mountains, Poland

Smolarek, Justyna; Marynowski, Leszek; Spunda, Karol; Trela, Wiesław

doi:10.1515/mipo-2015-0006

Cited by 13 publications

(12 citation statements)

References 18 publications

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“…Trela et al . 32 postulate that pyroclastic material was transported to the HCM by westerlies from the Avalonian volcanoes. Alternatively, Shen et al .…”

Section: Discussionmentioning

confidence: 99%

“…1), representing different types of Upper Ordovician and lower Llandovery claystone, mudstone, and black shale. The investigated samples are characterised by a relatively low level of thermal maturity ( ca 0.72% of the vitrinite equivalent reflectance measured on graptolites) 32 . Upper Ordovician strata of the Zbrza PIG-1 borehole consist of the Sandbian to Hirnantian mudrock facies that form up to 90 m of the succession (Fig.…”

Section: Methodsmentioning

confidence: 99%

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Mercury Spikes Indicate a Volcanic Trigger for the Late Ordovician Mass Extinction Event: An Example from a Deep Shelf of the Peri-Baltic Region

Smolarek-Lach

Marynowski

Trela

et al. 2019

Sci Rep

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The Late Ordovician mass extinction (LOME) was the second largest Phanerozoic crisis, but its cause remains elusive. Several triggering mechanisms have been proposed over the years, including bioevolutionary events, oceanographic changes, and geotectonic processes. Here, we report the presence of Hg spikes in the Zbrza PIG-1 borehole from the Upper Ordovician deep shelf sections of the peri-Baltic region. A strong positive anomaly in the lower late Katian (Hg/TOC = 2537.3 ppb/wt%) was noted. No correlation between Hg and TOC (R 2 = 0.07) was distinguished in the Hirnantian, although several positive anomalies were found. Because the Hg/Mo ratio showed trends very similar to those of Hg/TOC, it seems likely that TOC values reflect the redox conditions. In order to evaluate the role of anoxia in levels of Hg enrichment several redox indicators were measured. These showed that the elevated mercury values in the Hirnantian are not caused by anoxia/euxinia because euxinic biomarkers (maleimides and aryl isoprenoids) are present in very low abundance and pyrite framboids are absent. In total, positive Hg/TOC anomalies occur in the lower late Katian, at the Katian - Hirnantian boundary, and in the late Hirnantian. The lack of a strong Hg/TOC correlation, Ni enrichments, and the absence of ‘anoxic indicators’ (no biomarkers, no framboids, low Mo concentration) at these levels, supports the interpretation that Hg enrichment is due to enhanced environmental loading. We conclude that our Hg and Hg/TOC values were associated with volcanic pulses which triggered the massive environmental changes resulting in the Late Ordovician mass extinction.

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“…Trela et al . 32 postulate that pyroclastic material was transported to the HCM by westerlies from the Avalonian volcanoes. Alternatively, Shen et al .…”

Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Mercury Spikes Indicate a Volcanic Trigger for the Late Ordovician Mass Extinction Event: An Example from a Deep Shelf of the Peri-Baltic Region

Smolarek-Lach

Marynowski

Trela

et al. 2019

Sci Rep

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“…There is no consensus on the tectonothermal evolution of the HCM and several contradicting models have been proposed. Most authors (Bełka, ; Marynowski, , ; Marynowski, Salamon, & Narkiewicz, ; Naglik, Toboła, Natkaniec‐Nowak, Luptáková, & Milovská, ; Narkiewicz, ; Narkiewicz, Resak, Littke, & Marynowski, ; Smolarek, Marynowski, Spunda, & Trela, ) argue for an elevated Variscan (late Carboniferous to early Permian) heat flow, which significantly exceeded the current low values (Szewczyk & Gientka, ). However, Poprawa, Żywiecki, and Grotek () proposed that thermal maturity of organic matter in the Devonian to Jurassic sedimentary successions was achieved during Late Jurassic or Late Cretaceous burial that was characterized by constant heat flow equal to the recent one (Szewczyk & Gientka, ).…”

Section: Introductionmentioning

confidence: 99%

Tectonothermal history of the Holy Cross Mountains (Poland) in the light of low‐temperature thermochronology

et al. 2018

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The low-temperature thermal history of the Holy Cross Mountains (HCM) is investigated by apatite fission track and apatite and zircon (U-Th)/He thermochronology.Our results provide constraints on the deformation history of Palaeozoic basement rocks in the transition area from Precambrian to Palaeozoic Europe that are exposed from beneath Permian-Mesozoic sediments within the HCM. Late to post-Variscan cooling of the Palaeozoic strata from maximum temperatures is shown to be a major feature of the HCM. This cooling likely followed a heating event related to burial and/or hot fluid circulation along the Holy Cross Fault in the late Carboniferous.The central part of the HCM shows a rapid cooling event caused by tectonic inversion, which started in the Late Cretaceous. However, this event was less pronounced in the western margin of the HCM, where slow cooling continued throughout the Mesozoic with only minor acceleration of the cooling rate since the latest Cretaceous.

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“…1), which comprises claystones and black shales (see Deczkowski & Tomczyk, 1969). Owing to the relatively high thermal maturation of the sediments (within the 'gas window'; conodont alteration index: CAI > 2, Narkiewicz, 2002; vitrinite-like maceral values calculated to vitrinite reflectance VR equ = ß1.7 %, Smolarek et al 2014), our research has focused on redox proxies that are not susceptible to alteration by heat, such as pyrite framboid petrography and trace metal concentrations. Sedimentological observations of colour, lithology, sedimentary structures and ichnofabric are supported by thin-section petrography of microfacies.…”

Section: Methodsmentioning

confidence: 99%

Lower Wenlock black shales in the northern Holy Cross Mountains, Poland: sedimentary and geochemical controls on the Ireviken Event in a deep marine setting

et al. 2016

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The stratigraphic variability and geochemistry of Llandovery/Wenlock (L/W) Series boundary sediments in Poland reveals that hemipelagic sedimentation under an anoxic/euxinic water column was interrupted by low-density bottom currents or detached diluted turbid layers that resulted in intermittent seafloor oxygenation. Total organic carbon values and inorganic proxies throughout the Wilków 1 borehole section suggest variable redox conditions. U/Mo ratios > 1 throughout much of the Aeronian and Telychian stages, together with an absence of pyrite framboids, suggest oxygenated conditions prevailed. However, elevated total organic carbon near the Aeronian/Telychian boundary, together with increased U/Th and V/(V + Ni) ratios and populations of small pyrite framboids are consistent with the development of dysoxic/anoxic conditions at that time. U/Th, V/Cr and V/(V + Ni) ratios, as well as Uauthig and Mo concentrations, suggest that during the Ireviken black shale deposition, bottom-water conditions deteriorated from oxic during Telychian time to mostly suboxic/anoxic immediately prior to the L/W boundary, before a brief reoxygenation at the end of the Ireviken black shale sedimentation in the Sheinwoodian Stage. Rapid fluctuations in U/Mo during the Ireviken Event are characteristic of fluctuating redox conditions that culminated in an anoxic/euxinic seafloor in Sheinwoodian time. Following Ireviken black shale deposition, conditions once again became oxygen deficient with the development of a euxinic zone in the water column. The Aeronian to Sheinwoodian deep-water redox history was unstable, and rapid fluctuations of the chemocline across the L/W Series boundary probably contributed to the Ireviken Event extinctions, which affected mainly pelagic and hemipelagic fauna.

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Vitrinite equivalent reflectance of Silurian black shales from the Holy Cross Mountains, Poland

Cited by 13 publications

References 18 publications

Mercury Spikes Indicate a Volcanic Trigger for the Late Ordovician Mass Extinction Event: An Example from a Deep Shelf of the Peri-Baltic Region

Mercury Spikes Indicate a Volcanic Trigger for the Late Ordovician Mass Extinction Event: An Example from a Deep Shelf of the Peri-Baltic Region

Tectonothermal history of the Holy Cross Mountains (Poland) in the light of low‐temperature thermochronology

Lower Wenlock black shales in the northern Holy Cross Mountains, Poland: sedimentary and geochemical controls on the Ireviken Event in a deep marine setting

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