Ordovician–Silurian (O-S) Extinction Event (~443 Mya)
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A Ordovician–Silurian (O-S) Extinction Event (~443 Mya) is an extinction event.
- AKA: Late Ordovician Mass Extinction.
- See: Silurian Period, Extinction Event, Gondwana Research, Genus, Lethaia, Paleobiology (Journal), Permian–Triassic Extinction Event, Biodiversity Loss, Brachiopod, Bryozoa, Conodont, Trilobite.
References
2023
- (Wikipedia, 2023) ⇒ https://en.wikipedia.org/wiki/Late_Ordovician_mass_extinction Retrieved:2023-6-5.
- The Late Ordovician mass extinction (LOME), sometimes known as the end-Ordovician mass extinction or the Ordovician-Silurian extinction, is the first of the "big five" major mass extinction events in Earth's history, occurring roughly 443 Mya. It is often considered to be the second-largest known extinction event, in terms of the percentage of genera that became extinct. Extinction was global during this interval, eliminating 49–60% of marine genera and nearly 85% of marine species. Under most tabulations, only the Permian-Triassic mass extinction exceeds the Late Ordovician mass extinction in biodiversity loss. The extinction event abruptly affected all major taxonomic groups and caused the disappearance of one third of all brachiopod and bryozoan families, as well as numerous groups of conodonts, trilobites, echinoderms, corals, bivalves, and graptolites. Despite its taxonomic severity, the Late Ordovician mass extinction did not produce major changes to ecosystem structures compared to other mass extinctions, nor did it lead to any particular morphological innovations. Diversity gradually recovered to pre-extinction levels over the first 5 million years of the Silurian Period. The Late Ordovician mass extinction is traditionally considered to occur in two distinct pulses.[1] The first pulse, known as LOMEI-1,[2] began at the boundary between the Katian and Hirnantian stages of the Late Ordovician Period. This extinction pulse is typically attributed to the Late Ordovician glaciation, which abruptly expanded over Gondwana at the beginning of the Hirnantian and shifted the Earth from a greenhouse to icehouse climate.[3] Cooling and a falling sea level brought on by the glaciation led to habitat loss for many organisms along the continental shelves, especially endemic taxa with restricted temperature tolerance and latitudinal range. [4][5] During this extinction pulse there were also several marked changes in biologically responsive carbon and oxygen isotopes.[1] Marine life partially rediversified during the cold period and a new cold-water ecosystem, the "Hirnantia fauna", was established. [1] The second pulse of extinction, referred to as LOMEI-2,[2] occurred in the later half of the Hirnantian as the glaciation abruptly receded and warm conditions returned. The second pulse was associated with intense worldwide anoxia (oxygen depletion) and euxinia (toxic sulfide production), which persisted into the subsequent Rhuddanian stage of the Silurian Period. [1] Some researchers have proposed the existence of a third distinct pulse of the mass extinction during the early Rhuddanian, evidenced by a negative carbon isotope excursion and a pulse of anoxia into shelf environments amidst already low background oxygen levels. Others, however, have argued that Rhuddanian anoxia was simply part of the second pulse, which according to this view was longer and more drawn out than most authors suggest.
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