A multilocus phylogeny of the desmid genus Micrasterias (Streptophyta): Evidence for the accelerated rate of morphological evolution in protists

[Display omitted] ► A multigene phylogeny was constructed for the genus Micrasterias. ► The existence of three periods of accelerated morphological evolution was detected. ► The branching pattern and cell size were significantly correlated with the phylogeny. ► We hypothesise that the genus Micraste...

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Bibliographic Details
Published in:Molecular phylogenetics and evolution 2011-12, Vol.61 (3), p.933-943
Main Authors: Škaloud, Pavel, Nemjová, Katarína, Veselá, Jana, Černá, Kateřina, Neustupa, Jiří
Format: Article
Language:English
Subjects:
Bayes Theorem
Biogeography
Cosmarium
data collection
Databases, Genetic
DNA, Ribosomal - genetics
environmental factors
Evolution
Genetic Loci - genetics
loci
Micrasterias
Micrasterias - anatomy & histology
Micrasterias - genetics
Models, Genetic
Morphology
Phylogeny
Phylogeography
Protists
ribosomal DNA
Ribosome Subunits, Small - genetics
Staurodesmus
Triploceras
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Summary:[Display omitted] ► A multigene phylogeny was constructed for the genus Micrasterias. ► The existence of three periods of accelerated morphological evolution was detected. ► The branching pattern and cell size were significantly correlated with the phylogeny. ► We hypothesise that the genus Micrasterias evolved in North America. Micrasterias, the name of which is derived from the Greek for ‘little star’, comprises possibly the most spectacularly shaped desmids (Desmidiales, Streptophyta). Presently, the genus Micrasterias includes about 60 traditional species, the majority of which were described in the early 19th century. We used a comprehensive multigene dataset (including SSU rDNA, psaA, and coxIII loci) of 34 Micrasterias taxa to assess the relationships between individual morphological species. The resulting phylogeny was used to assess the patterns characterizing the morphological evolution of this genus. The phylogenetic analysis led to the recognition of eight well-resolved lineages that could be characterized by selected morphological features. Apart from the members of Micrasterias, three species belonged to different traditional desmid genera (Cosmarium, Staurodesmus, and Triploceras) and were inferred to be nested within the genus. Morphological comparisons of these species with their relatives revealed an accelerated rate of morphological evolution. Mapping morphological diversification of the genus on the phylogenetic tree revealed profound differences in the phylogenetic signal of selected phenotypic features. Whereas the branching pattern of the cells clearly correlated with the phylogeny, cell complexity possibly reflected rather their adaptive morphological responses to environmental conditions. Finally, ancestral reconstruction of distribution patterns indicated potential origin of the genus in North America, with additional speciation events occurring in the Indo-Malaysian region.
ISSN:1055-7903
1095-9513
DOI:10.1016/j.ympev.2011.08.018