Coupled δ13C and 87Sr/86Sr chemostratigraphy of Kimmeridgian shoal-water deposits: A new composite record from the Lower Saxony Basin, Germany

Fanfan Zuo; Ulrich Heimhofer; Stefan Huck; Stéphane Bodin; Jochen Erbacher; Huaqing Bai

doi:10.1016/j.sedgeo.2018.07.012

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Originalsprache	Englisch
Seiten (von - bis)	18-31
Seitenumfang	14
Fachzeitschrift	Sedimentary geology
Jahrgang	376
Frühes Online-Datum	3 Aug. 2018
Publikationsstatus	Veröffentlicht - 15 Nov. 2018

Abstract

Correlation of shallow-marine carbonate deposits with their coeval pelagic counterparts is often hampered by the lack of open-marine stratigraphic marker fossils and by the restrictions of regional biostratigraphic schemes. These difficulties can partly be overcome by the use of coupled δ¹³C and ⁸⁷Sr/⁸⁶Sr chemostratigraphy based on pristine shell calcite and bulk rock material. Here, a new high-resolution chemostratigraphic framework covering Kimmeridgian strata is presented based on three stratigraphic sections located in the Subboreal Lower Saxony Basin (LSB) of Northern Germany. Combined with sedimentological data, the bulk rock δ¹³C signal is critically evaluated for both diagenetic alteration and local environmental effects. In general, the δ¹³C signatures are considered to predominantly record the global marine signal. Diagenetic and facies-related discrepancies are restricted to dolomitic supratidal back ramp and intertidal back ramp deposits, respectively. Strontium-isotope stratigraphic data, obtained from diagenetically screened low-Mg calcite shells, refine the existing ostracod biostratigraphic scheme in the Lower Saxony Basin (LSB) and contribute to the existing global strontium-isotope dataset of the Kimmeridgian. These new results confirm the potential of well-preserved low-Mg calcite from shallow-marine settings to preserve a global marine Sr-isotope signal. Calibrated by the integrated biostratigraphic and strontium-isotope results, a high-resolution composite δ¹³C record for Kimmeridgian shoal-water deposits is established. Comparison of the new composite δ¹³C curve from the Subboreal Lower Saxony Basin (LSB) with existing Kimmeridgian records from the peri-Tethyan and Western Tethyan realms provides new insights into the long-term global carbon cycle during the Kimmeridgian.

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Erdkunde und Planetologie (insg.)
Geologie
Erdkunde und Planetologie (insg.)
Stratigraphie

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Coupled δ¹³C and ⁸⁷Sr/⁸⁶Sr chemostratigraphy of Kimmeridgian shoal-water deposits: A new composite record from the Lower Saxony Basin, Germany. / Zuo, Fanfan; Heimhofer, Ulrich; Huck, Stefan et al.
in: Sedimentary geology, Jahrgang 376, 15.11.2018, S. 18-31.

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Peer-Review

Zuo, F, Heimhofer, U, Huck, S, Bodin, S, Erbacher, J & Bai, H 2018, 'Coupled δ¹³C and ⁸⁷Sr/⁸⁶Sr chemostratigraphy of Kimmeridgian shoal-water deposits: A new composite record from the Lower Saxony Basin, Germany', Sedimentary geology, Jg. 376, S. 18-31. https://doi.org/10.1016/j.sedgeo.2018.07.012

Zuo, F., Heimhofer, U., Huck, S., Bodin, S., Erbacher, J., & Bai, H. (2018). Coupled δ¹³C and ⁸⁷Sr/⁸⁶Sr chemostratigraphy of Kimmeridgian shoal-water deposits: A new composite record from the Lower Saxony Basin, Germany. Sedimentary geology, 376, 18-31. https://doi.org/10.1016/j.sedgeo.2018.07.012

Zuo F, Heimhofer U, Huck S, Bodin S, Erbacher J, Bai H. Coupled δ¹³C and ⁸⁷Sr/⁸⁶Sr chemostratigraphy of Kimmeridgian shoal-water deposits: A new composite record from the Lower Saxony Basin, Germany. Sedimentary geology. 2018 Nov 15;376:18-31. Epub 2018 Aug 3. doi: 10.1016/j.sedgeo.2018.07.012

Zuo, Fanfan ; Heimhofer, Ulrich ; Huck, Stefan et al. / Coupled δ¹³C and ⁸⁷Sr/⁸⁶Sr chemostratigraphy of Kimmeridgian shoal-water deposits : A new composite record from the Lower Saxony Basin, Germany. in: Sedimentary geology. 2018 ; Jahrgang 376. S. 18-31.

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title = "Coupled δ13C and 87Sr/86Sr chemostratigraphy of Kimmeridgian shoal-water deposits: A new composite record from the Lower Saxony Basin, Germany",

abstract = "Correlation of shallow-marine carbonate deposits with their coeval pelagic counterparts is often hampered by the lack of open-marine stratigraphic marker fossils and by the restrictions of regional biostratigraphic schemes. These difficulties can partly be overcome by the use of coupled δ13C and 87Sr/86Sr chemostratigraphy based on pristine shell calcite and bulk rock material. Here, a new high-resolution chemostratigraphic framework covering Kimmeridgian strata is presented based on three stratigraphic sections located in the Subboreal Lower Saxony Basin (LSB) of Northern Germany. Combined with sedimentological data, the bulk rock δ13C signal is critically evaluated for both diagenetic alteration and local environmental effects. In general, the δ13C signatures are considered to predominantly record the global marine signal. Diagenetic and facies-related discrepancies are restricted to dolomitic supratidal back ramp and intertidal back ramp deposits, respectively. Strontium-isotope stratigraphic data, obtained from diagenetically screened low-Mg calcite shells, refine the existing ostracod biostratigraphic scheme in the Lower Saxony Basin (LSB) and contribute to the existing global strontium-isotope dataset of the Kimmeridgian. These new results confirm the potential of well-preserved low-Mg calcite from shallow-marine settings to preserve a global marine Sr-isotope signal. Calibrated by the integrated biostratigraphic and strontium-isotope results, a high-resolution composite δ13C record for Kimmeridgian shoal-water deposits is established. Comparison of the new composite δ13C curve from the Subboreal Lower Saxony Basin (LSB) with existing Kimmeridgian records from the peri-Tethyan and Western Tethyan realms provides new insights into the long-term global carbon cycle during the Kimmeridgian.",

keywords = "Carbon-isotope stratigraphy, Kimmeridgian, Lower Saxony Basin, Strontium-isotope stratigraphy",

author = "Fanfan Zuo and Ulrich Heimhofer and Stefan Huck and St{\'e}phane Bodin and Jochen Erbacher and Huaqing Bai",

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T1 - Coupled δ13C and 87Sr/86Sr chemostratigraphy of Kimmeridgian shoal-water deposits

T2 - A new composite record from the Lower Saxony Basin, Germany

AU - Zuo, Fanfan

AU - Heimhofer, Ulrich

AU - Huck, Stefan

AU - Bodin, Stéphane

AU - Erbacher, Jochen

AU - Bai, Huaqing

PY - 2018/11/15

Y1 - 2018/11/15

N2 - Correlation of shallow-marine carbonate deposits with their coeval pelagic counterparts is often hampered by the lack of open-marine stratigraphic marker fossils and by the restrictions of regional biostratigraphic schemes. These difficulties can partly be overcome by the use of coupled δ13C and 87Sr/86Sr chemostratigraphy based on pristine shell calcite and bulk rock material. Here, a new high-resolution chemostratigraphic framework covering Kimmeridgian strata is presented based on three stratigraphic sections located in the Subboreal Lower Saxony Basin (LSB) of Northern Germany. Combined with sedimentological data, the bulk rock δ13C signal is critically evaluated for both diagenetic alteration and local environmental effects. In general, the δ13C signatures are considered to predominantly record the global marine signal. Diagenetic and facies-related discrepancies are restricted to dolomitic supratidal back ramp and intertidal back ramp deposits, respectively. Strontium-isotope stratigraphic data, obtained from diagenetically screened low-Mg calcite shells, refine the existing ostracod biostratigraphic scheme in the Lower Saxony Basin (LSB) and contribute to the existing global strontium-isotope dataset of the Kimmeridgian. These new results confirm the potential of well-preserved low-Mg calcite from shallow-marine settings to preserve a global marine Sr-isotope signal. Calibrated by the integrated biostratigraphic and strontium-isotope results, a high-resolution composite δ13C record for Kimmeridgian shoal-water deposits is established. Comparison of the new composite δ13C curve from the Subboreal Lower Saxony Basin (LSB) with existing Kimmeridgian records from the peri-Tethyan and Western Tethyan realms provides new insights into the long-term global carbon cycle during the Kimmeridgian.

AB - Correlation of shallow-marine carbonate deposits with their coeval pelagic counterparts is often hampered by the lack of open-marine stratigraphic marker fossils and by the restrictions of regional biostratigraphic schemes. These difficulties can partly be overcome by the use of coupled δ13C and 87Sr/86Sr chemostratigraphy based on pristine shell calcite and bulk rock material. Here, a new high-resolution chemostratigraphic framework covering Kimmeridgian strata is presented based on three stratigraphic sections located in the Subboreal Lower Saxony Basin (LSB) of Northern Germany. Combined with sedimentological data, the bulk rock δ13C signal is critically evaluated for both diagenetic alteration and local environmental effects. In general, the δ13C signatures are considered to predominantly record the global marine signal. Diagenetic and facies-related discrepancies are restricted to dolomitic supratidal back ramp and intertidal back ramp deposits, respectively. Strontium-isotope stratigraphic data, obtained from diagenetically screened low-Mg calcite shells, refine the existing ostracod biostratigraphic scheme in the Lower Saxony Basin (LSB) and contribute to the existing global strontium-isotope dataset of the Kimmeridgian. These new results confirm the potential of well-preserved low-Mg calcite from shallow-marine settings to preserve a global marine Sr-isotope signal. Calibrated by the integrated biostratigraphic and strontium-isotope results, a high-resolution composite δ13C record for Kimmeridgian shoal-water deposits is established. Comparison of the new composite δ13C curve from the Subboreal Lower Saxony Basin (LSB) with existing Kimmeridgian records from the peri-Tethyan and Western Tethyan realms provides new insights into the long-term global carbon cycle during the Kimmeridgian.

KW - Carbon-isotope stratigraphy

KW - Kimmeridgian

KW - Lower Saxony Basin

KW - Strontium-isotope stratigraphy

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Research@Leibniz University

Coupled δ¹³C and ⁸⁷Sr/⁸⁶Sr chemostratigraphy of Kimmeridgian shoal-water deposits: A new composite record from the Lower Saxony Basin, Germany

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