2019
DOI: 10.1088/1748-9326/ab3318
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Negative carbon isotope excursions: an interpretive framework

Abstract: Numerous negative carbon isotope excursions (nCIEs) in the geologic record occurring over 10 4 -10 5 years are interpreted as episodes of massive carbon release. nCIEs help to illuminate the connection between past carbon cycling and climate variability. Theoretically, the size of a nCIE can be used to determine the mass of carbon released, provided that the carbon source is known or other environmental changes such as temperature or ocean pH can be constrained. A simple isotopic mass balance equation often se… Show more

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Cited by 31 publications
(25 citation statements)
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“…Conservative estimates suggest that Wrangellia emplacement released ∼5 × 10 3 Pg of mantle C (8). Additional C emissions through contact metamorphism are unlikely because of the oceanic site of (46). These model simulations do not include the isotopic effects of concurrent TOC burial (Fig.…”
Section: Discussionmentioning
confidence: 99%
“…Conservative estimates suggest that Wrangellia emplacement released ∼5 × 10 3 Pg of mantle C (8). Additional C emissions through contact metamorphism are unlikely because of the oceanic site of (46). These model simulations do not include the isotopic effects of concurrent TOC burial (Fig.…”
Section: Discussionmentioning
confidence: 99%
“…These removal fluxes are dependent on the abundance of inorganic carbon and pH (or carbonate saturation) (Hall and Chan, 2004;Marriott et al, 2004) and are not spatially uniform (Hathorne and James, 2006). The residence time of Li in the ocean is estimated to be 0.3-3 Myr (Stoffyn-Egli and Mackenzie, 1984) with more recent estimates closer to 1 Myr (Vigier and Goddéris, 2015). Li has two stable isotopes (7.52 % 6 Li and 92.48 % 7 Li, Penniston-Dorland et al, 2017).…”
Section: Lithiummentioning
confidence: 99%
“…Since more alkalinity than Ca 2+ is derived from continental weathering in our set-up, the climate-driven increase in weathering results in a transient imbalance between alkalinity and Ca 2+ supplies which does not appear in C cycle simulations without an igneous Ca 2+ source at the seafloor (e.g. Lord et al, 2016;Vervoort et al, 2019). The imbalance is small (10% of the Ca input at its peak) but cumulatively the unbalanced alkalinity supply is large enough to causes a slight reduction of the steady-state marine Ca and Sr reservoirs (by ∼0.5% following the emission of 5000 Pg C).…”
Section: Transient Perturbation Experimentsmentioning
confidence: 99%