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Anchoring the Late Devonian mass extinction in absolute time by integrating climatic controls and radio-isotopic dating
da Silva, A.-C.; Sinnesael, M.; Claeys, P.; Davies, J.H.F.L.; de Winter, N.J.; Percival, L.M.E.; Schaltegger, U.; De Vleeschouwer, D. (2020). Anchoring the Late Devonian mass extinction in absolute time by integrating climatic controls and radio-isotopic dating. NPG Scientific Reports 10(1): 12940. https://hdl.handle.net/10.1038/s41598-020-69097-6
In: Scientific Reports (Nature Publishing Group). Nature Publishing Group: London. ISSN 2045-2322; e-ISSN 2045-2322, more
Peer reviewed article  

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  • da Silva, A.-C., more
  • Sinnesael, M., more
  • Claeys, P., more
  • Davies, J.H.F.L.
  • de Winter, N.J., more
  • Percival, L.M.E., more
  • Schaltegger, U.
  • De Vleeschouwer, D., more

Abstract
    The Devonian Frasnian–Famennian (F–F) boundary marks one of the five main extinction intervals of the Phanerozoic Aeon. This time was characterized by two pulses of oceanic anoxia, named the Lower and Upper Kellwasser events, during which massive marine biodiversity losses occurred. This paper presents high-resolution magnetic susceptibility, X-ray fluorescence elemental geochemistry and carbon isotope datasets obtained from the Steinbruch Schmidt F–F boundary section (Germany). These records lead to an astronomical time calibration of the environmental changes associated with the two ocean anoxia pulses. Cyclostratigraphic interpretation indicates deposition of the black argillaceous Lower and Upper Kellwasser horizons over ~ 90 and ~ 110 kyr, respectively; approximately equivalent to the duration of one short eccentricity cycle. This study confirms that the succession of events within the Upper Kellwasser event is paced by obliquity, under a low-eccentricity orbit. Hence, astronomical insolation forcing likely contributed to the expansion of ocean anoxia and other environmental perturbations associated with these two crises. The new floating chronology established for the Steinbruch Schmidt section is anchored in numerical time by means of a radio-isotopic date, obtained from a bentonite layer interbedded between the two Kellwasser horizons. After anchoring, this time scale gives a high-precision age of 371.870 ± 0.108 Ma for the F–F boundary.

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