Relation of Phanerozoic stable isotope excursions to climate, bacterial metabolism, and major extinctions
Steven M. Stanley1
+Author Affiliations
Department of Geology and Geophysics, University of Hawaii, Honolulu, HI 96822
Contributed by Steven M. Stanley, September 10, 2010 (sent for review June 2, 2010)
Abstract
Conspicuous global stable carbon isotope excursions that are recorded in marine sedimentary rocks of Phanerozoic age and were associated with major extinctions have generally paralleled global stable oxygen isotope excursions. All of these phenomena are therefore likely to share a common origin through global climate change. Exceptional patterns for carbon isotope excursions resulted from massive carbon burial during warm intervals of widespread marine anoxic conditions. The many carbon isotope excursions that parallel those for oxygen isotopes can to a large degree be accounted for by the Q10 pattern of respiration for bacteria: As temperature changed along continental margins, where ∼90% of marine carbon burial occurs today, rates of remineralization of isotopically light carbon must have changed exponentially. This would have reduced organic carbon burial during global warming and increased it during global cooling. Also contributing to the δ13C excursions have been release and uptake of methane by clathrates, the positive correlation between temperature and degree of fractionation of carbon isotopes by phytoplankton at temperatures below ∼15°, and increased phytoplankton productivity during “icehouse” conditions. The Q10 pattern for bacteria and climate-related changes in clathrate volume represent positive feedbacks for climate change.
paleoclimatology, paleoceanography
Footnotes
1E-mail: stevenst@hawaii.edu.
Author contributions: S.M.S. designed research, performed research, analyzed data, and wrote the paper.
The author declares no conflict of interest.
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