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First molecular estimate of cyclostome bryozoan phylogeny confirms extensive homoplasy among skeletal characters used in traditional taxonomy
Waeschenbach, A.; Cox, C.J.; Littlewood, D.T.J.; Porter, J.S.; Taylor, P.D. (2009). First molecular estimate of cyclostome bryozoan phylogeny confirms extensive homoplasy among skeletal characters used in traditional taxonomy. Mol. Phylogenet. Evol. 52(1): 241-251. https://dx.doi.org/10.1016/j.ympev.2009.02.002
In: Molecular Phylogenetics and Evolution. Elsevier: Orlando, FL. ISSN 1055-7903; e-ISSN 1095-9513, more
Peer reviewed article  

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Keywords
    Acids > Organic compounds > Organic acids > Nucleic acids > DNA
    Biogeny > Phylogeny
    Bryozoa [WoRMS]; Cyclostomata [WoRMS]
    Marine/Coastal
Author keywords
    Bryozoa; Cyclostomata; Phylogeny; ssrDNA; 18S rRNA; IsrDNA; 28S rRNA

Authors  Top 
  • Waeschenbach, A.
  • Cox, C.J.
  • Littlewood, D.T.J.
  • Porter, J.S., more
  • Taylor, P.D.

Abstract
    The Cyclostomata are the only extant representatives of the class Stenolaemata, an ancient group of exclusively marine bryozoans. Previous cladistic analyses of cyclostome bryozoans, based exclusively on skeletal characters, revealed extensive homoplasy amongst morphological traits. This study presents the first molecular phylogeny for Cyclostomata and confirms the previous findings of homoplasy. Almost complete Isr and ssrDNA fragments were sequenced for 22 taxa of cyclostome bryozoans, plus the out-group (Pectinatella magnifica and Flustrellidra hispida). Three well-supported major clades were found, but their inter relationships are unclear. Suborder Tubuliporina was polyphyletic, with representatives found in all three major clades. The tubuliporine family Plagioeciidae was resolved as polyphyletic; Plagioecia grouped with Lichenoporidae and Densiporidae, whereas Entalophoroecia, Diplosolen and Cardioecia formed a paraphyletic subgroup that included Frondiporidae and Horneridae. The suborder Cerioporina was also polyphyletic; Densiporidae grouped with Plagioecia and Lichenoporidae, whereas Heteroporidae nested in a paraphyletic subgroup of tubuliporines, with the Crisiidae forming the sister-group to this clade. Cinctiporidae could not be placed unambiguously. Morphological character mapping was performed in order to find evidence favouring one of the three possible hypotheses of inter relationships of the major clades, but the results were ambiguous. This study questions the extent to which morphological characters can be used in phylogenetic studies of cyclostome bryozoans, both fossil and extant, and how far their morphology is the result of ecophenotypic plasticity and convergent evolution. The finding of numerous non-monophyletic taxa has implications for extinction rate assessment and for the use of fossil cyclostomes to calibrate molecular trees.

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