Título
A diverse Ediacara assemblage survived under low-oxygen conditions
11627/634911627/6349
Autor
Cherry, Lucas B.
Gilleaudeau, Geoffrey J
Grazhdankin, Dmitry
Romaniello, Stephen
Martin, Aaron James
Kaufman, Alan Jay
Resumen
"The Ediacaran biota were soft-bodied organisms, many with enigmatic phylogenetic placement and ecology, living in marine environments between 574 and 539 million years ago. Some studies hypothesize a metazoan affinity and aerobic metabolism for these taxa, whereas others propose a fundamentally separate taxonomic grouping and a reliance on chemoautotrophy. To distinguish between these hypotheses and test the redox-sensitivity of Ediacaran organisms, here we present a high-resolution local and global redox dataset from carbonates that contain in situ Ediacaran fossils from Siberia. Cerium anomalies are consistently >1, indicating that local environments, where a diverse Ediacaran assemblage is preserved in situ as nodules and carbonaceous compressions, were pervasively anoxic. Additionally, delta U-238 values match other terminal Ediacaran sections, indicating widespread marine euxinia. These data suggest that some Ediacaran biotas were tolerant of at least intermittent anoxia, and thus had the capacity for a facultatively anaerobic lifestyle. Alternatively, these soft-bodied Ediacara organisms may have colonized the seafloor during brief oxygenation events not recorded by redox proxy data. Broad temporal correlations between carbon, sulfur, and uranium isotopes further highlight the dynamic redox landscape of Ediacaran-Cambrian evolutionary events."
Fecha de publicación
2022Tipo de publicación
articleDOI
https://doi.org/10.1038/s41467-022-35012-yÁrea de conocimiento
CIENCIAS TECNOLÓGICASColecciones
Editor
Springer NaturePalabras clave
Uramium isotope evidenceDoushantuo formation
Cambrian radiation
Superheavy pyrite
Ocean oxygenation
Olenek uplift
Anoxia
Basin
Evolution
Seawater