Phylogeny, Hybridization, and Evolution of Habit and Breeding System inSidalceaandEremalche(Malvaceae)

Reconstructing the phylogeny of the western North AmericanSidalcea-Eremalchelineage provides an opportunity to study the evolution of different fundamental traits considered to play an important role in plant evolution. These plants display different life-history strategies, such as annual and peren...

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Bibliographic Details
Published in:International journal of plant sciences 2012-06, Vol.173 (5), p.532-548
Main Author: Andreasen, Katarina
Format: Article
Language:English
Subjects:
Biological taxonomies
Datasets
Evolution
Parsimony
Perennials
Phylogenetics
Ploidies
Polyploidy
Taxa
We they distinction
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Summary:Reconstructing the phylogeny of the western North AmericanSidalcea-Eremalchelineage provides an opportunity to study the evolution of different fundamental traits considered to play an important role in plant evolution. These plants display different life-history strategies, such as annual and perennial habit and hermaphroditic and gynodioecious breeding systems, enabling evolutionary investigation of these traits in a phylogenetic context. Difficult species delimitations have been suggested to be caused by hybridization in combination with polyploidy. Molecular phylogenetic analyses based on sequences of the chloroplast intronrpl16and nuclear ribosomal DNA show that the genera are strongly supported as monophyletic sister lineages, and the polytomy inSidalceain both data sets likely represents a rapid radiation event. Coastal California is indicated as ancestral area forSidalcea, in agreement with earlier biogeographical hypotheses. Hybridization hypotheses gained support from the chloroplast DNA data for the hexaploidSidalcealineage and forS. sparsifoliaandS. pedata.SidalceasectionAnnuae, including the annuals, represents a paraphyletic assemblage. The shift between annual and perennial habit must have happened at least four times, but reversals to perenniality appear unlikely. At least five reversals from the gynodioecious to the hermaphroditic condition are inferred, possibly due to population bottlenecks in some lineages.
ISSN:1058-5893
1537-5315
DOI:10.1086/665269