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Stability of atmospheric CO2 levels across the Triassic/Jurassic boundary

Lawrence H. Tanner (), John F. Hubert, Brian P. Coffey and Dennis P. McInerney
Additional contact information
Lawrence H. Tanner: Bloomsburg University
John F. Hubert: University of Massachusetts
Brian P. Coffey: Virginia Polytechnic Institute and State University
Dennis P. McInerney: Environmental Risk Management, Fleet National Bank of Connecticut

Nature, 2001, vol. 411, issue 6838, 675-677

Abstract: Abstract The Triassic/Jurassic boundary, 208 million years ago, is associated with widespread extinctions in both the marine and terrestrial biota. The cause of these extinctions has been widely attributed to the eruption of flood basalts of the Central Atlantic Magmatic Province1,2,3,4. This volcanic event is thought to have released significant amounts of CO2 into the atmosphere, which could have led to catastrophic greenhouse warming5,6,7, but the evidence for CO2-induced extinction remains equivocal. Here we present the carbon isotope compositions of pedogenic calcite from palaeosol formations, spanning a 20-Myr period across the Triassic/Jurassic boundary. Using a standard diffusion model8,9, we interpret these isotopic data to represent a rise in atmospheric CO2 concentrations of about 250 p.p.m. across the boundary, as compared with previous estimates of a 2,000–4,000 p.p.m. increase4,5. The relative stability of atmospheric CO2 across this boundary suggests that environmental degradation and extinctions during the Early Jurassic were not caused by volcanic outgassing of CO2. Other volcanic effects—such as the release of atmospheric aerosols or tectonically driven sea-level change—may have been responsible for this event.

Date: 2001
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DOI: 10.1038/35079548

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