2015
DOI: 10.1002/2014pa002736
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Axial obliquity control on the greenhouse carbon budget through middle‐ to high‐latitude reservoirs

Abstract: Carbon sources and sinks are key components of the climate feedback system, yet their response to external forcing remains poorly constrained, particularly for past greenhouse climates. Carbon-isotope data indicate systematic, million-year-scale transfers of carbon between surface reservoirs during and immediately after the Late Cretaceous thermal maximum (peaking in the Cenomanian-Turonian, circa 97-91 million years, Myr, ago). Here we calibrate Albian to Campanian (108-72 Myr ago) high-resolution carbon isot… Show more

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Cited by 69 publications
(67 citation statements)
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References 103 publications
(184 reference statements)
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“…This interval in particular was characterized by the widespread deposition of organic-rich, fine-grained sediment marked by a globally recognized positive carbon isotope excursion (CIE) reflecting the widespread removal of 12 C-enriched organic matter in marine sediments under global anoxic conditions (see Jenkyns, 2010 and references therein). However, the exact timing of this inferred global OAE-2 event is still debated with recent studies showing diachroneity between the deposition of the organic-rich sediment and the CIE (e.g., Sageman et al, 1997;Tsikos et al, 2004;Meyers et al, 2005;Meyers, 2007;Trabucho Alexandre et al, 2010;Eldrett et al, 2014), whereas interpretations vary on the precise timing and origin of the trigger (Mitchell et al, 2008;Turgeon and Creaser, 2008;Du Vivier et al, 2014;Eldrett et al, 2014;Laurin et al, 2015).…”
Section: Introductionmentioning
confidence: 99%
“…This interval in particular was characterized by the widespread deposition of organic-rich, fine-grained sediment marked by a globally recognized positive carbon isotope excursion (CIE) reflecting the widespread removal of 12 C-enriched organic matter in marine sediments under global anoxic conditions (see Jenkyns, 2010 and references therein). However, the exact timing of this inferred global OAE-2 event is still debated with recent studies showing diachroneity between the deposition of the organic-rich sediment and the CIE (e.g., Sageman et al, 1997;Tsikos et al, 2004;Meyers et al, 2005;Meyers, 2007;Trabucho Alexandre et al, 2010;Eldrett et al, 2014), whereas interpretations vary on the precise timing and origin of the trigger (Mitchell et al, 2008;Turgeon and Creaser, 2008;Du Vivier et al, 2014;Eldrett et al, 2014;Laurin et al, 2015).…”
Section: Introductionmentioning
confidence: 99%
“…A first explanation for the long-term amplification in the carbon cycle could be a "memory" effect produced by the long residence time of carbon in the ocean (i.e., ∼100,000 y), transferring power from high-to low-frequency cycles (9,30). However, recent massbalance models suggest that this process alone would be insufficient to amplify the modulation terms at million-year time scales (31). Alternative nonlinear mechanisms could involve cumulative sequestrations of organic carbon in quasi-stable (over millions of years) terrestrial reservoirs from high latitudes (e.g., wetlands, peats, and marginal zones) (31).…”
mentioning
confidence: 99%
“…However, recent massbalance models suggest that this process alone would be insufficient to amplify the modulation terms at million-year time scales (31). Alternative nonlinear mechanisms could involve cumulative sequestrations of organic carbon in quasi-stable (over millions of years) terrestrial reservoirs from high latitudes (e.g., wetlands, peats, and marginal zones) (31). In this hypothesis, geological periods with greenhouse conditions favoring production and preservation of organic matter (i.e., high pCO 2 levels, warm and equable climates, and high precipitation rates toward high latitudes) should be especially sensitive to eccentricity.…”
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confidence: 99%
“…Centimeter-scale fine sandstone beds in CA21 to CA23 are planar laminated and wave rippled. Laurin et al, 2015). The Cutpick section, and corresponding carbon-isotope curve, has been "expanded" to show the location of hiatuses determined on the basis of regional subsurface correlation (i.e., fig.…”
Section: Discussionmentioning
confidence: 82%