Journal
PROTIST
Volume 163, Issue 2, Pages 252-262Publisher
ELSEVIER GMBH, URBAN & FISCHER VERLAG
DOI: 10.1016/j.protis.2011.04.005
Keywords
Bayesian phylogenetics; cladistics; Bremer support; partitioned Bremer support; combined data; Attheya; Bacillariophyceae; Toxarium
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Funding
- faculty professional development council (FPDC) of the State System of Higher Education in Pennsylvania
- faculty senate/department of biology of the Edinboro University of Pennsylvania
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A Bayesian analysis of a seven gene data set was conducted to reconstruct phylogenetic relationships among a sample of centric and pennate diatoms and to test alternative hypotheses about the closest living relative of Bacillariophyceae. A lineage, composed of two Attheya species, was inferred to share the most recent common ancestor with Bacillariophyceae - a relationship that was also corroborated by the combined parsimony analysis. All competing hypotheses about the closest living relative of Bacillariophyceae were rejected because 100% of the trees in the post-burn-in sample in the Bayesian analysis supported the Attheya-Bacillariophyceae clade. According to a partitioned Bremer support analysis, the majority of the genes in the combined data matrix supported the Attheya - Bacillariophyceae relationship. The global topology of the phylogenetic tree indicated that a monophyletic group consisting of Thalassiosirales and Toxarium undulatum formed the deepest branch followed by a node uniting a clade composed of Bacillariophyceae/Attheya species and a lineage made up of Eucampia zoodiacus, Chaetocerotales, Lithodesmiales, Triceratiales, Biddulphiales and Cymatosirales. Except for the phylogenetic positions of Lithodesmiales, Thalassiosira sp and Skeletonema costatum, the optimal tree obtained from the combined parsimony analysis showed the same branching order of taxa as those seen in the consensus tree inferred from three independent Markov chain Monte Carlo analyses. Noteworthy findings are that Toxarium undulatum shares a strongly supported node with Thalassiosirales and that the genus Attheya is not a member of the Chaetocerotales lineage. (C) 2011 Elsevier GmbH. All rights reserved.
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