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Extensive marine anoxia in the European epicontinental sea during the end-Triassic mass extinction

Tianchen He, Paul B. Wignall, Robert J. Newton, Jed W. Atkinson, Jacob F.J. Keeling, Yijun Xiong, Simon W. Poulton

2022Global and Planetary Change36 citationsDOIOpen Access PDF

Abstract

Warming-induced marine anoxia has been hypothesized as an environmental stressor for the end-Triassic mass extinction (ETME), but links between the spread of marine anoxia and the two phases of extinction are poorly constrained. Here, we report iron speciation and trace metal data from the Bristol Channel Basin and Larne Basin of the NW European epicontinental sea (EES), spanning the Triassic–Jurassic (T–J) transition (~ 202–200 Ma). Results show frequent development of anoxic-ferruginous conditions, interspersed with ephemeral euxinic episodes in the Bristol Channel Basin during the latest Rhaetian, whereas the contemporaneous Larne Basin remained largely oxygenated, suggesting heterogeneous redox conditions between basins. Subsequently, more persistent euxinic conditions prevailed across the T–J boundary in both basins, coinciding precisely with the second phase of the ETME. We propose that this later phase of benthic faunal loss in the NW EES was directly driven by the bottom-water oxygen crisis. Conversely, although anoxic conditions persisted into the early Hettangian, the benthos diversified at this time in nearshore areas. Post-extinction conditions were poised at a fluctuating redox state, but anoxia did not extend into the shallowest areas where benthic marine ecosystem recovery was occurring.

Topics & Concepts

Extinction eventBenthic zoneAnoxic watersGeologyPaleontologyOceanographyStructural basinExtinction (optical mineralogy)BenthosSociologyBiological dispersalPopulationDemographyPaleontology and Stratigraphy of FossilsGeochemistry and Elemental AnalysisMarine Biology and Ecology Research
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