查看更多>>摘要:Theory regarding the causation of mass extinctions is in need of systematization,which is the focus of this contribution.Every mass extinction has both an ultimate cause,i.e.the trigger that leads to various climato-environmental changes,and one or more proximate cause(s),i.e.the specific climato-environmental changes that result in elevated biotic mortality.With regard to ultimate causes,strong cases can be made that bolide(i.e.meteor)impacts,large igneous province(LIP)eruptions and bioevolutionary events have each triggered one or more of the Phanerozoic Big Five mass extinctions,and that tectono-oceanic changes have triggered some second-order extinction events.Apart from bolide impacts,other astronomical triggers(e.g.solar flares,gamma bursts and supernova explosions)remain entirely in the realm of speculation.With regard to proximate mechanisms,most extinctions are related to either carbon-release or carbon-burial processes,the former being associated with climatic warming,ocean acidification,reduced marine productivity and lower carbonate 813C values,and the latter with climatic cooling,increased marine productivity and higher carbonate δ13 C values.Environmental parameters such as marine redox conditions and terrestrial weathering intensity do not show consistent relationships with carbon-cycle changes.In this context,mass extinction causation can be usefully classified using a matrix of ultimate and proximate factors.Among the Big Five mass extinctions,the end-Cretaceous biocrisis is an example of a bolide-triggered carbon-release event,the end-Permian and end-Triassic biocrises are examples of LIP-triggered carbon-release events,and the Late Ordovician and Late Devonian biocrises are examples of bioevolution-triggered carbon-burial events.Whereas the bolide-impact and LIP-eruption mechanisms appear to invariably cause carbon release,bioevolutionary triggers can result in variable carbon-cycle changes,e.g.carbon burial during the Late Ordovician and Late Devonian events,carbon release associated with modern anthropogenic climate warming,and little to no carbon-cycle impact due to certain types of ecosystem change(e.g.the advent of the first predators around the end-Ediacaran;the appearance of Paleolithic human hunters in Australasia and the Americas).Broadly speaking,studies of mass extinction causation have suffered from insufficiently critical thinking—an impartial survey of the extant evidence shows that(ⅰ)hypotheses of a common ultimate cause(e.g.bolide impacts or LIP eruptions)for all Big Five mass extinctions are suspect given manifest differences in patterns of environmental and biotic change among them;( ⅱ)the Late Ordovician and Late Devonian events were associated with carbon burial and long-term climatic cooling,i.e.changes that are inconsistent with a bolide-impact or LIP-eruption mechanism;and( ⅲ)claims of periodicity in Phanerozoic mass extinctions depended critically on the now-disproven idea that they shared a common extrinsic trigger(i.e.bolide impacts).
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