Science. 2026 Apr 2; 392(6793): 63-8

Roland Heynkes 10.4.2026, CC BY-SA-4.0 DE

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nach oben NR BACR

nach oben AU Gaorong Li, Fan Wei, Wenwen Wen, Xiaodong Wang, Xiangtong Lei, Ross P. Anderson, Yang Zhao, Frances S. Dunn, Luke A. Parry, Peiyun Cong

nach oben TI The dawn of the Phanerozoic: A transitional fauna from the late Ediacaran of Southwest China

nach oben QU Science. 2026 Apr 2; 392(6793): 63-8. doi: 10.1126/science.adu2291. Epub 2026 Apr 2

nach oben AB Animal diversification across the Ediacaran-Cambrian transition was a crucial event in Earth history, fundamentally altering our planet and its biosphere. However, Ediacaran fossil assemblages show limited overlap with those from the Cambrian, obscuring the critical interval when the animal phyla were diversifying. We report a new terminal Ediacaran fossil assemblage preserved as carbonaceous films from the Jiangchuan Biota, Yunnan, Southwest China. This assemblage diverges from coeval sites, preserving Ediacaran body fossils alongside recognizable nonbilaterians and bilaterian body and trace fossils. These include diverse vermiform animals and the oldest deuterostomes (stem-group ambulacrarians). Our discovery provides insight into the radiation of Bilateria, the most diverse and disparate animal clade.

nach oben SP englisch

nach oben VT Editor’s summary
The Cambrian period is well known for its explosion of forms, notably many that represent the ancestral versions of modern phyla. The period before the Cambrian, the Ediacaran, also saw an explosion of forms, in this case the emergence of larger bodied, multicellular life. Little has been known about the transition between these two periods. Li et al now describe a site in southwestern China that includes many organisms from both biotas, including classic Ediacaran macrobionts alongside early bilaterians and deuterostome animals. This site thus fills a critical gap in our understanding about the transition between these two enigmatic faunas.
Sacha Vignieri

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