Bio- and chemostratigraphic assessment of carbon isotope records across the Triassic–Jurassic boundary at Csovár quarry (Hungary) and Kendlbachgraben (Austria) and implications for global correlations

Christoph Korte; H.W. Kozur

Bio- and chemostratigraphic assessment of carbon isotope records across the Triassic–Jurassic boundary at Csovár quarry (Hungary) and Kendlbachgraben (Austria) and implications for global correlations

Geologi

19 Citationer (Scopus)

Abstract

Carbon isotope trends are useful for stratigraphic correlation, especially for time intervals when major perturbations of the global carbon cycle occurred. Such perturbations have been documented for the Triassic-Jurassic (T-J) boundary, and several successions from this time interval are characterized by (1) an initial negative excursion, followed by (2) a pronounced positive excursion and a subsequent (3) main negative carbon isotope excursion. These features, however, are not present in all T-J boundary sections, or the stratigraphic position of the positive or the main negative excursion has variable locations. In the present study, we analysed carbon isotopes in bulk carbonate from the pelagic Cso{double acute}vár quarry section in Hungary and from the intra-platform basin to shallow subtidal marine Kendlbachgraben section in Austria. Both T-J boundary successions are biostratigraphically well controlled enabling - with particular focus on the bio- and chemostratigraphy of other T-J boundary sections - correlation of the carbon isotope trends. This evaluation shows that the apex of the initial negative δ13C excursion occurred slightly, but distinctly, below the mass extinction event and represents an excellent stratigraphic correlation tool.

Originalsprog	Engelsk
Tidsskrift	Bulletin of the Geological Society of Denmark
Vol/bind	59
Sider (fra-til)	101–115
Antal sider	14
ISSN	0011-6297
Status	Udgivet - 2011

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Bio- and chemostratigraphic assessment of carbon isotope records across the Triassic–Jurassic boundary at Csovár quarry (Hungary) and Kendlbachgraben (Austria) and implications for global correlations. / Korte, Christoph; Kozur, H.W.

I: Bulletin of the Geological Society of Denmark, Bind 59, 2011, s. 101–115.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

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abstract = "Carbon isotope trends are useful for stratigraphic correlation, especially for time intervals when major perturbations of the global carbon cycle occurred. Such perturbations have been documented for the Triassic-Jurassic (T-J) boundary, and several successions from this time interval are characterized by (1) an initial negative excursion, followed by (2) a pronounced positive excursion and a subsequent (3) main negative carbon isotope excursion. These features, however, are not present in all T-J boundary sections, or the stratigraphic position of the positive or the main negative excursion has variable locations. In the present study, we analysed carbon isotopes in bulk carbonate from the pelagic Cso{double acute}v{\'a}r quarry section in Hungary and from the intra-platform basin to shallow subtidal marine Kendlbachgraben section in Austria. Both T-J boundary successions are biostratigraphically well controlled enabling - with particular focus on the bio- and chemostratigraphy of other T-J boundary sections - correlation of the carbon isotope trends. This evaluation shows that the apex of the initial negative δ13C excursion occurred slightly, but distinctly, below the mass extinction event and represents an excellent stratigraphic correlation tool.",

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AU - Kozur, H.W.

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N2 - Carbon isotope trends are useful for stratigraphic correlation, especially for time intervals when major perturbations of the global carbon cycle occurred. Such perturbations have been documented for the Triassic-Jurassic (T-J) boundary, and several successions from this time interval are characterized by (1) an initial negative excursion, followed by (2) a pronounced positive excursion and a subsequent (3) main negative carbon isotope excursion. These features, however, are not present in all T-J boundary sections, or the stratigraphic position of the positive or the main negative excursion has variable locations. In the present study, we analysed carbon isotopes in bulk carbonate from the pelagic Cso{double acute}vár quarry section in Hungary and from the intra-platform basin to shallow subtidal marine Kendlbachgraben section in Austria. Both T-J boundary successions are biostratigraphically well controlled enabling - with particular focus on the bio- and chemostratigraphy of other T-J boundary sections - correlation of the carbon isotope trends. This evaluation shows that the apex of the initial negative δ13C excursion occurred slightly, but distinctly, below the mass extinction event and represents an excellent stratigraphic correlation tool.

AB - Carbon isotope trends are useful for stratigraphic correlation, especially for time intervals when major perturbations of the global carbon cycle occurred. Such perturbations have been documented for the Triassic-Jurassic (T-J) boundary, and several successions from this time interval are characterized by (1) an initial negative excursion, followed by (2) a pronounced positive excursion and a subsequent (3) main negative carbon isotope excursion. These features, however, are not present in all T-J boundary sections, or the stratigraphic position of the positive or the main negative excursion has variable locations. In the present study, we analysed carbon isotopes in bulk carbonate from the pelagic Cso{double acute}vár quarry section in Hungary and from the intra-platform basin to shallow subtidal marine Kendlbachgraben section in Austria. Both T-J boundary successions are biostratigraphically well controlled enabling - with particular focus on the bio- and chemostratigraphy of other T-J boundary sections - correlation of the carbon isotope trends. This evaluation shows that the apex of the initial negative δ13C excursion occurred slightly, but distinctly, below the mass extinction event and represents an excellent stratigraphic correlation tool.

M3 - Journal article

SN - 0011-6297

VL - 59

SP - 101

EP - 115

JO - Bulletin of the Geological Society of Denmark

JF - Bulletin of the Geological Society of Denmark

ER -

Bio- and chemostratigraphic assessment of carbon isotope records across the Triassic–Jurassic boundary at Csovár quarry (Hungary) and Kendlbachgraben (Austria) and implications for global correlations

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