How the Worm Got its Pharynx: Phylogeny, Classification and Bayesian Assessment of Character Evolution in Acoela

Acoela are marine microscopic worms currently thought to be the sister taxon of all other bilaterians. Acoels have long been used as models in evolutionary scenarios, and generalized conclusions about acoel and bilaterian ancestral features are frequently drawn from studies of single acoel species....

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Bibliographic Details
Published in:Systematic biology 2011-12, Vol.60 (6), p.845-871
Main Authors: Jondelius, Ulf, Wallberg, Andreas, Hooge, Matthew, Raikova, Olga I
Format: Article
Language:English
Subjects:
Acoela
ancestor
Animals
Bayes Theorem
Bayesian analysis
Bilateria
Biological Evolution
Biological taxonomies
Biology
character evolution
Classification
divergence
Electron Transport Complex IV - genetics
Evolution
Evolution & development
genes
Pharynx
Pharynx - anatomy & histology
Phylogenetics
Phylogeny
Plant morphology
posterior similarity
reconstruction signal
RNA, Ribosomal, 18S - genetics
RNA, Ribosomal, 28S - genetics
Spermatozoa
Systematic biology
Taxa
taxonomy
Turbellaria - anatomy & histology
Turbellaria - classification
Turbellaria - genetics
Worms
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Summary:Acoela are marine microscopic worms currently thought to be the sister taxon of all other bilaterians. Acoels have long been used as models in evolutionary scenarios, and generalized conclusions about acoel and bilaterian ancestral features are frequently drawn from studies of single acoel species. There is no extensive phylogenetic study of Acoela and the taxonomy of the 380 species is chaotic. Here we use two nuclear ribosomal genes and one mitochondrial gene in combination with 37 morphological characters in an analysis of 126 acoel terminals (about one-third of the described species) to estimate the phylogeny and character evolution of Acoela. We present an estimate of posterior probabilities for ancestral character states at 31 control nodes in the phylogeny. The overall reconstruction signal based on the shape of the posterior distribution of character states was computed for all morphological characters and control nodes to assess how well these were reconstructed. The body-wall musculature appears more clearly reconstructed than the reproductive organs. Posterior similarity to the root was calculated by averaging the divergence between the posterior distributions at the nodes and the root over all morphological characters. Diopisthoporidae is the sister group to all other acoels and has the highest posterior similarity to the root. Convolutidae, including several "model" acoels, is most divergent. Finally, we present a phylogenetic classification of Acoela down to the family level where six previous family level taxa are synonymized.
ISSN:1063-5157
1076-836X
1076-836X
DOI:10.1093/sysbio/syr073