Abstract
Information about the geological timeframe during which animals radiated into their major subclades is crucial to understanding early animal ecology and evolution. Unfortunately, the pre-Cambrian fossil record is sparse and its interpretation controversial. Relaxed molecular-clock methods provide an alternative means of estimating the timing of cladogenesis deep in the metazoan tree of life. So far, thorough molecular clock studies focusing specifically on Metazoa as a whole have been based on relatively small datasets or incomplete representation of the main non-bilaterian lineages (such as sponges and ctenophores), which are fundamental for understanding early metazoan evolution. Here, we use a previously published phylogenomic dataset that includes a fair sampling of all relevant groups to estimate the timing of early animal evolution with Bayesian relaxed-clock methods. According to our results, all non-bilaterian phyla, as well as total-group Bilateria, evolved in an ancient radiation during a geologically relatively short time span, before the onset of long-term global glaciations (“Snowball Earth”; ~720–635 Ma). Importantly, this result appears robust to alterations of a number of important analytical variables, such as models of among-lineage rate variation and sets of fossil calibrations used.
Highlights
Information about the geological timeframe during which animals radiated into their major subclades is crucial to understanding early animal ecology and evolution
The only exceptions were the crown-groups of Medusozoa, Anthozoa, Demospongiae, and Calcarea, but the 95% credibility intervals (CrIs) obtained under the autocorrelated model for these nodes fell completely or almost completely within the CrIs obtained under the uncorrelated model
Metazoa and its deepest subclades – Porifera, Epitheliozoa (Placozoa + Eumetazoa), Eumetazoa (Coelenterata [=Cnidaria + Cte nophora] + Bilateria), and total-group Bilateria – as well as the crown-groups of Coelenterata, Cnidaria, Porifera, Silicea, and Calcarea + homoscleromorph sponges were estimated to have arisen before the Sturtian glaciation
Summary
Information about the geological timeframe during which animals radiated into their major subclades is crucial to understanding early animal ecology and evolution. Thorough molecular clock studies focusing on Metazoa as a whole have been based on relatively small datasets or incomplete representation of the main non-bilaterian lineages (such as sponges and ctenophores), which are fundamental for understanding early metazoan evolution. All non-bilaterian phyla, as well as total-group Bilateria, evolved in an ancient radiation during a geologically relatively short time span, before the onset of long-term global glaciations (“Snowball Earth”; ~720–635 Ma). This result appears robust to alterations of a number of important analytical variables, such as models of among-lineage rate variation and sets of fossil calibrations used. Gray areas indicate Sturtian (left) and Marinoan (right) glaciations[21]
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