Search results for "Background extinction rate"

showing 2 items of 2 documents

Exploring the major depletions of conodont diversity during the Triassic

2014

International audience; In this paper, we show that the Triassic fossil record reflects just two great depletions of conodont diversity before the Rhaetian, which occurred in the Smithian (Olenekian, Early Triassic) and in the Julian (Carnian, Late Triassic). By exploring this context, our results highlighted that they respond to different origination?extinction dynamics. Thus, while the Smithian diversity depletion can be interpreted as a consequence of elevated extinction, the Julian diversity depletion was triggered by fluctuations in origination regime. This evidence suggests that, despite the role of extinction on diversity losses, conodonts suffered crucial changes on the origination …

Diversity changeEarly TriassicContext (language use)Diversity depletion[SDV.BID.SPT]Life Sciences [q-bio]/Biodiversity/Systematics Phylogenetics and taxonomyPaleontology[SDV.EE.ECO]Life Sciences [q-bio]/Ecology environment/EcosystemsProportional extinctionOrigination regimeBackground extinction rateTriassic conodontsExtinctionFossil RecordbiologyEcologysocial sciences[SDV.BV.BOT]Life Sciences [q-bio]/Vegetal Biology/Botanicsbiology.organism_classificationhumanities[SDE.BE]Environmental Sciences/Biodiversity and EcologyGeneral Agricultural and Biological SciencesConodonthuman activitiesOriginationGeologyDiversity (business)Historical Biology
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Decreasing Phanerozoic extinction intensity as a consequence of Earth surface oxygenation and metazoan ecophysiology

2021

The decline in background extinction rates of marine animals through geologic time is an established but unexplained feature of the Phanerozoic fossil record. There is also growing consensus that the ocean and atmosphere did not become oxygenated to near-modern levels until the mid-Paleozoic, coinciding with the onset of generally lower extinction rates. Physiological theory provides us with a possible causal link between these two observations-predicting that the synergistic impacts of oxygen and temperature on aerobic respiration would have made marine animals more vulnerable to ocean warming events during periods of limited surface oxygenation. Here, we evaluate the hypothesis that chang…

[SDE] Environmental SciencesAquatic OrganismsHot Temperature010504 meteorology & atmospheric sciencesPaleozoicEarth system evolutionecophysiologyEarth PlanetClimateOceans and SeasEffects of global warming on oceansBiodiversityExtinction BiologicalAtmospheric sciences01 natural sciencesCarbon Cycletemperature-dependent hypoxia03 medical and health sciencesPhanerozoicAnimalsSeawaterBackground extinction rate14. Life underwaterEcosystemComputingMilieux_MISCELLANEOUS030304 developmental biology0105 earth and related environmental sciencesExtinction event0303 health sciencesMultidisciplinaryExtinctionextinctionAtmosphereFossilsHypoxia (environmental)EarthBiodiversity15. Life on landBiologicalBiological EvolutionOxygen13. Climate actionPhysical Sciences[SDE]Environmental SciencesEnvironmental sciencePlanetgeographic locations
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