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Massive and rapid predominantly volcanic CO <sub>2</sub> emission during the end-Permian mass extinction

Ying Cui, Mingsong Li, Elsbeth E. van Soelen, Francien Peterse, Wolfram M. Kürschner

2021Proceedings of the National Academy of Sciences79 citationsDOIOpen Access PDF

Abstract

source (∼-15%) is necessary to drive the observed pattern of CIE, the abrupt decline in surface ocean pH, and the extreme global temperature increase. This suggests that the massive amount of greenhouse gases may have pushed the Earth system toward a critical tipping point, beyond which extreme changes in ocean pH and temperature led to irreversible mass extinction. The comparatively amplified CIE observed in higher plant leaf waxes suggests that the surface waters of the Finnmark Platform were likely out of equilibrium with the initial massive centennial-scale release of carbon from the massive Siberian Traps volcanism, supporting the rapidity of carbon injection. Our modeling work reveals that carbon emission pulses are accompanied by organic carbon burial, facilitated by widespread ocean anoxia.

Topics & Concepts

Extinction eventPermian–Triassic extinction eventVolcanoExcursionExtinction (optical mineralogy)Isotopes of carbonGeologyVolcanismPaleontologyEarth scienceCarbon cycleEvent (particle physics)IsotopeEcosystemAstrophysicsTectonicsPhysicsEcologyBiologySociologyPopulationDemographyQuantum mechanicsPolitical scienceBiological dispersalLawPaleontology and Stratigraphy of FossilsGeology and Paleoclimatology ResearchHydrocarbon exploration and reservoir analysis
Massive and rapid predominantly volcanic CO <sub>2</sub> emission during the end-Permian mass extinction | Litcius