Using plastid genome-scale data to resolve enigmatic relationships among basal angiosperms
Abstract
Although great progress has been made in clarifying deep-level angiosperm relationships, several early nodes in the angiosperm branch of the Tree of Life have proved difficult to resolve. Perhaps the last great question remaining in basal angiosperm phylogeny involves the branching order among the five major clades of mesangiosperms (Ceratophyllum, Chloranthaceae, eudicots, magnoliids, and monocots). Previous analyses have found no consistent support for relationships among these clades. In an effort to resolve these relationships, we performed phylogenetic analyses of 61 plastid genes (≈42,000 bp) for 45 taxa, including members of all major basal angiosperm lineages. We also report the complete plastid genome sequence of Ceratophyllum demersum. Parsimony analyses of combined and partitioned data sets varied in the placement of several taxa, particularly Ceratophyllum, whereas maximum-likelihood (ML) trees were more topologically stable. Total evidence ML analyses recovered a clade of Chloranthaceae + magnoliids as sister to a well supported clade of monocots + (Ceratophyllum + eudicots). ML bootstrap and Bayesian support values for these relationships were generally high, although approximately unbiased topology tests could not reject several alternative topologies. The extremely short branches separating these five lineages imply a rapid diversification estimated to have occurred between 143.8 ± 4.8 and 140.3 ± 4.8 Mya.
Repository Citation
Moore, M. J., C. D. Bell, P. S. Soltis, and D. E. Soltis. 2007. "Using plastid genome-scale data to resolve enigmatic relationships among basal angiosperms." Proceedings Of The National Academy Of Sciences Usa 104(49): 19363-19368.
Publisher
National Academy of Sciences
Publication Date
1-1-2007
Publication Title
Proceedings of the National Academy of Sciences
Department
Biology
Document Type
Article
DOI
https://dx.doi.org/10.1073/pnas.0708072104
Keywords
Ceratophyllum, Molecular dating, Phylogenetics, Mesangiosperms
Language
English
Format
text