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The end-Ediacaran extinction is a mass extinction believed to have occurred near the end of the
During the Ediacaran period, two main groups of organisms are found in the fossil record: the " Ediacaran biota" of soft-bodied organisms, preserved by microbial mats; and calcifying organisms such as '' Cloudina'' and '' Namacalathus'', which had a carbonate skeleton. Because ''both ''these groups disappear abruptly at the end of the Ediacaran period, , their disappearance cannot simply represent the closure of a preservational window, as had previously been suspected.
Additionally, the late Ediacaran saw a faunal turnover between the White Sea biota, which lived between 560 and 550 million years ago, and the Nama biota, which lived between 550 and 539 million years ago. The transition from the White Sea to the Nama biota saw a major reduction in diversity that was not recovered during the interval of the depauperate Nama biota, which has been attributed to either increased biological competition or an anoxic event and in either case suggests that large-scale extinction began well before the boundary between the Ediacaran and Cambrian.
Ediacaran
The Ediacaran Period ( ) is a geological period that spans 96 million years from the end of the Cryogenian Period 635 million years ago (Mya), to the beginning of the Cambrian Period 538.8 Mya. It marks the end of the Proterozoic Eon, and t ...
period, the final period of the Proterozoic eon. Evidence suggesting that such a mass extinction
An extinction event (also known as a mass extinction or biotic crisis) is a widespread and rapid decrease in the biodiversity on Earth. Such an event is identified by a sharp change in the diversity and abundance of multicellular organisms. I ...
occurred includes a massive reduction in diversity of acritarchs, the sudden disappearance of the Ediacara biota and calcifying organisms, and the time gap before Cambrian
The Cambrian Period ( ; sometimes symbolized Ꞓ) was the first geological period of the Paleozoic Era, and of the Phanerozoic Eon. The Cambrian lasted 53.4 million years from the end of the preceding Ediacaran Period 538.8 million years ag ...
organisms "replaced" them. Some lines of evidence suggests that there may have been two distinct pulses of the extinction event, one occurring and the other .Evidence
Biotic evidence
Ediacaran organisms
During the Ediacaran period, two main groups of organisms are found in the fossil record: the " Ediacaran biota" of soft-bodied organisms, preserved by microbial mats; and calcifying organisms such as '' Cloudina'' and '' Namacalathus'', which had a carbonate skeleton. Because ''both ''these groups disappear abruptly at the end of the Ediacaran period, , their disappearance cannot simply represent the closure of a preservational window, as had previously been suspected.
Additionally, the late Ediacaran saw a faunal turnover between the White Sea biota, which lived between 560 and 550 million years ago, and the Nama biota, which lived between 550 and 539 million years ago. The transition from the White Sea to the Nama biota saw a major reduction in diversity that was not recovered during the interval of the depauperate Nama biota, which has been attributed to either increased biological competition or an anoxic event and in either case suggests that large-scale extinction began well before the boundary between the Ediacaran and Cambrian.
Post-Ediacaran survivors
The fossil record of the earliest Cambrian, just after the Ediacaran period, shows a sudden increase in burrowing activity and diversity. However, the Cambrian explosion of animals that gave rise to body fossils did not happen instantaneously. This implies that the "explosion" did not represent animals "replacing" the incumbent organisms, and pushing them gradually to extinction; rather, the data are more consistent with a radiation of animals to fill in vacant niches, left empty as an extinction cleared out the pre-existing fauna. The theory that all Ediacarans became extinct at the start of the Cambrian is disproven if any post-Ediacaran survivors are found. Organisms from the lower Cambrian, such as '' Thaumaptilon'', were once thought to be Ediacarans, but this hypothesis no longer has many adherents. One possible Ediacaran survivor whose status is still open to scrutiny is ''Ediacaria booleyi
''Ediacaria'' is a fossil genus dating to the Ediacaran Period of the Neoproterozoic Era. Unlike most Ediacaran biota, which disappeared almost entirely from the fossil record at the end of the Period, ''Ediacaria'' fossils have been found dat ...
'', a purported holdfast structure known from the ''upper'' Cambrian. If this does turn out to be a true Ediacaran, the biota cannot have disappeared completely. Disbelievers have claimed that the fossils don't actually have a biological origin, which doesn't seem to be the case—evidence is mounting to suggest that it ''is'' an organism (or at least of biological origin, perhaps a microbial colony), just not one that is related to the Ediacara biota.
Some organisms clearly survived the extinction since life on Earth has continued. However, very few organisms are known from both sides of the Ediacaran-Cambrian boundary. One such organism is the agglutinated foraminifera ''Platysolenites
Platysolenites is a genus of agglutinated foraminifera known from Ediacaran and lower Cambrian
The Cambrian Period ( ; sometimes symbolized Ꞓ) was the first geological period of the Paleozoic Era, and of the Phanerozoic Eon. The Cambrian ...
''. '' Swartpuntia'' is one well known late Ediacaran vendobiont, which survived into the earliest Cambrian. Cambrian '' Erytholus'' is a similar sandstone cast to Ediacaran '' Ventogyrus''. Ordovician and Silurian '' Rutgersella'' and Devonian ''Protonympha
''Protonympha'' is a form genus for problematic fossils of Devonian age in New York. It has been of special interest because of its morphological similarity with the iconic Ediacaran fossil ''Spriggina'', and may have been a late surviving vend ...
'' have been interpreted as surviving vendobionts, comparable with Ediacaran '' Dickinsonia'' and '' Spriggina'', respectively.
Geochemical evidence
Negative excursions—geochemical signals often associated with mass extinctions—are observed during the Late Ediacaran. The Shuram excursion occurred around the same time as the boundary between the White Sea and Nama assemblages. Another major negative carbon isotope excursion is known to have occurred at the end of the Ediacaran period and the beginning of the Cambrian.Sedimentary evidence
The transition between the White Sea and Nama biotas near the end of the Ediacaran is reflected in the geological record by an increase in black shale deposition, representing global anoxia. This may be related to global changes in oceanic circulation and may have been the worst marine anoxic event of the last 550 million years, although its causal relationship with the White Sea-Nama biotic turnover is controversial and has been challenged by studies concluding that this expansion of anoxia postdated the turnover.References
{{Extinction events Extinction events Proterozoic Ediacaran life