Decoupling biogeochemical records, extinction, and environmental change during the Cambrian SPICE event

James D. Schiffbauer; John Warren Huntley; David A. Fike; Matthew Jarrell Jeffrey; Jay M. Gregg; Kevin L. Shelton

doi:10.1126/sciadv.1602158

Decoupling biogeochemical records, extinction, and environmental change during the Cambrian SPICE event

James D. Schiffbauer
, John Warren Huntley
, David A. Fike
, Matthew Jarrell Jeffrey
, Jay M. Gregg
, Kevin L. Shelton

Research output: Contribution to journal › Article › peer-review

67 Scopus citations

Abstract

Several positive carbon isotope excursions in Lower Paleozoic rocks, including the prominent Upper Cambrian Steptoean Positive Carbon Isotope Excursion (SPICE), are thought to reflect intermittent perturbations in the hydrosphere-biosphere system. Models explaining these secular changes are abundant, but the synchronicity and regional variation of the isotope signals are not well understood. Examination of cores across a paleodepth gradient in the Upper Cambrian central Missouri intrashelf basin (United States) reveals a time-transgressive, facies-dependent nature of the SPICE. Although the SPICE event may be a global signal, the manner in which it is recorded in rocks should and does vary as a function of facies and carbonate platform geometry. We call for a paradigm shift to better constrain facies, stratigraphic, and biostratigraphic architecture and to apply these observations to the variability in magnitude, stratigraphic extent, and timing of the SPICE signal, as well as other biogeochemical perturbations, to elucidate the complex processes driving the ocean-carbonate system.

Original language	English
Article number	e1602158
Journal	Science Advances
Volume	3
Issue number	3
DOIs	https://doi.org/10.1126/sciadv.1602158
State	Published - Mar 2017

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title = "Decoupling biogeochemical records, extinction, and environmental change during the Cambrian SPICE event",

abstract = "Several positive carbon isotope excursions in Lower Paleozoic rocks, including the prominent Upper Cambrian Steptoean Positive Carbon Isotope Excursion (SPICE), are thought to reflect intermittent perturbations in the hydrosphere-biosphere system. Models explaining these secular changes are abundant, but the synchronicity and regional variation of the isotope signals are not well understood. Examination of cores across a paleodepth gradient in the Upper Cambrian central Missouri intrashelf basin (United States) reveals a time-transgressive, facies-dependent nature of the SPICE. Although the SPICE event may be a global signal, the manner in which it is recorded in rocks should and does vary as a function of facies and carbonate platform geometry. We call for a paradigm shift to better constrain facies, stratigraphic, and biostratigraphic architecture and to apply these observations to the variability in magnitude, stratigraphic extent, and timing of the SPICE signal, as well as other biogeochemical perturbations, to elucidate the complex processes driving the ocean-carbonate system.",

author = "Schiffbauer, \{James D.\} and Huntley, \{John Warren\} and Fike, \{David A.\} and Jeffrey, \{Matthew Jarrell\} and Gregg, \{Jay M.\} and Shelton, \{Kevin L.\}",

note = "Funding Information: We thank P. Scheel and the staff at the McCracken Core Library and Research Center, Missouri Department of Natural Resources, for core access and assistance and K. MacLeod (University of Missouri), S. Haynes (University of Missouri), and S. Moore (Washington University in St. Louis) for IRMS assistance. All data reported here are included in the Supplementary Materials (tables S1 to S5). This research was funded by the University of Missouri Research Council to K.L.S. Publisher Copyright: 2017 {\textcopyright} The Authors, some rights reserved.",

year = "2017",

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AU - Huntley, John Warren

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AU - Gregg, Jay M.

AU - Shelton, Kevin L.

N1 - Funding Information: We thank P. Scheel and the staff at the McCracken Core Library and Research Center, Missouri Department of Natural Resources, for core access and assistance and K. MacLeod (University of Missouri), S. Haynes (University of Missouri), and S. Moore (Washington University in St. Louis) for IRMS assistance. All data reported here are included in the Supplementary Materials (tables S1 to S5). This research was funded by the University of Missouri Research Council to K.L.S. Publisher Copyright: 2017 © The Authors, some rights reserved.

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N2 - Several positive carbon isotope excursions in Lower Paleozoic rocks, including the prominent Upper Cambrian Steptoean Positive Carbon Isotope Excursion (SPICE), are thought to reflect intermittent perturbations in the hydrosphere-biosphere system. Models explaining these secular changes are abundant, but the synchronicity and regional variation of the isotope signals are not well understood. Examination of cores across a paleodepth gradient in the Upper Cambrian central Missouri intrashelf basin (United States) reveals a time-transgressive, facies-dependent nature of the SPICE. Although the SPICE event may be a global signal, the manner in which it is recorded in rocks should and does vary as a function of facies and carbonate platform geometry. We call for a paradigm shift to better constrain facies, stratigraphic, and biostratigraphic architecture and to apply these observations to the variability in magnitude, stratigraphic extent, and timing of the SPICE signal, as well as other biogeochemical perturbations, to elucidate the complex processes driving the ocean-carbonate system.

AB - Several positive carbon isotope excursions in Lower Paleozoic rocks, including the prominent Upper Cambrian Steptoean Positive Carbon Isotope Excursion (SPICE), are thought to reflect intermittent perturbations in the hydrosphere-biosphere system. Models explaining these secular changes are abundant, but the synchronicity and regional variation of the isotope signals are not well understood. Examination of cores across a paleodepth gradient in the Upper Cambrian central Missouri intrashelf basin (United States) reveals a time-transgressive, facies-dependent nature of the SPICE. Although the SPICE event may be a global signal, the manner in which it is recorded in rocks should and does vary as a function of facies and carbonate platform geometry. We call for a paradigm shift to better constrain facies, stratigraphic, and biostratigraphic architecture and to apply these observations to the variability in magnitude, stratigraphic extent, and timing of the SPICE signal, as well as other biogeochemical perturbations, to elucidate the complex processes driving the ocean-carbonate system.

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Decoupling biogeochemical records, extinction, and environmental change during the Cambrian SPICE event

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