Bobrovskiy, IlyaHope, JanetKrasnova, AnnaIvantsov, AndreyBrocks, Jochen2021-05-132397-334Xhttp://hdl.handle.net/1885/232990The Ediacara biota (~575-541 million years ago) mark the emergence of large, complex organisms in the palaeontological record, preluding the radiation of modern animal phyla. However, their phylogenetic relationships, even at the domain level, remain controversial. We report the discovery of molecular fossils from organically preserved specimens of Beltanelliformis, demonstrating that they represent large spherical colonies of cyanobacteria. The conservation of molecular remains in organically preserved Ediacaran organisms opens a new path for unravelling the natures of the Ediacara biota.This study was funded by the Australian Research Council grants DP160100607 and DP170100556 (to J.J.B.). I.B. gratefully acknowledges an Australian Research Council Research Training Program scholarship.application/pdfen-AU© 2018 Macmillan Publishers Limited, part of Springer Nature.Molecular fossils from organically preserved Ediacara biota reveal cyanobacterial origin for Beltanelliformis2018-01-2210.1038/s41559-017-0438-62020-11-23