Low oxygen content was not the key inhibiting factor of the early radiation of eukaryotes
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Updated Time:2024-04-12 20:54:20 Hits:1904
Oral Presentation
Abstract
Oxygen availability is widely regarded as a crucial factor in the early evolution of eukaryotes. Specifically, it has been proposed that persistently low oxygen levels may explain the delay between the origin of stem-group eukaryotes in the late Paleoproterozoic and the crown-group eukaryotes that likely emerged in the Meso-Neoproterozoic transition. However, the temporal relationship between the rise of atmospheric oxygen levels (pO2) and the radiation of crown-group eukaryotes remains uncertain. Here, we quantified the pO2 on the basis of Rare Earth Elements plus Yttrium (REY) composition of shallow water carbonate from the middle Mesoproterozoic to early Neoproterozoic. Our results suggest that the pO2 was ~5-10% of the present atmospheric level (PAL) in the middle Mesoproterozoic, which declined to ~1% PAL during the Meso-Neoproterozoic transition. The temporal variations of pO2 were inconsistent with the evolution of eukaryotes, which experienced an abrupt radiation in the Meso-Neoproterozoic transition, i.e., multiple eukaryotic lineages appeared in this time period, including red algae, green algae, and fungi. Thus, we propose that low pO2 in the Proterozoic was unlikely a critical factor inhibiting the evolution of early eukaryotes.
Keywords
eukaryote, atmospheric oxygen levels, Mesoproterozoic, Neoproterozoic, Ce/Ce*
Submission Author
李东东
北京大学
罗根明
中国地质大学(武汉)
沈冰
北京大学
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