Dispute about the Origin of Animals
November 30, 2017 -- New research led by the
Recent genomic analyses have “flip-flopped” between whether sponges or comb
jellies are our deepest ancestors, leading experts to suggest available data
might not have the power to resolve this specific problem. However, new
research led by the University
of Bristol
Professor Davide Pisani of Bristol’s Schools of Biological and Earth
Sciences led the study, published today in Current Biology, with
colleagues from the California Institute of Technology (Caltech - USA),
Ludwig-Maximilians-Universität (LMU), Munich (Germany), and other institutes
around the world, which analysed all key genomic datasets released between 2015
and 2017.
Commenting on the breakthrough research, Professor Pisani said:
“The fact is, hypotheses about whether sponges or comb jellies came first
suggest entirely different evolutionary histories for key animal organ systems
like the nervous and the digestive systems. Therefore, knowing the correct
branching order at the root of the animal tree is fundamental to understanding
our own evolution, and the origin of key features of the animal anatomy.”
In the new study, Professor Pisani and colleagues used cutting edge
statistical techniques (Posterior Predictive Analyses) to test whether the
evolutionary models routinely used in phylogenetics can adequately describe the
genomic datasets used to study early animal evolution. They found that,
for the same dataset, models that can better describe the data favour sponges
at the root of the animal tree, while models that drastically fail to describe
the data favour the comb jellies.
Dr Feuda from Caltech continued: “Our results offer a simple explanation to
the ‘flip-flop effect’ cogently discussed by Professor David Hillis in a recent
interview in Nature.”
Dr Dohrmann from LMU added: “Our results rationalise this effect and illustrate
how you can draw robust conclusions from flip-flopping datasets.”
Professor Gert Wörheide of LMU said: “Indeed, a flip-flopping dataset is a
dataset that supports different evolutionary histories or phylogenetic trees,
when analysed using different evolutionary models. Discriminating between
alternative hypotheses in the face of a flip-flopping dataset requires
clarifying how good the models are that support alternative phylogenetic trees.
Posterior Predictive Analyses allow us to do exactly that. We found that models
which describe the data poorly invariably identify the comb jellies at the root
of the tree. Models that better describe the data invariably find the sponges
in that position.”
Professor Pisani concluded:
“Phylogenomics, the use of genomic data in phylogenetics, is a relatively
new science. Evidence for comb jellies as the earliest branching animal
lineage first emerged in 2008, a decade ago, in the first, large-scale,
phylogenomic analysis of the animal phyla. We have now better analytical
tools and data and this study seriously challenges the accepted status quo.”
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