Open AccessExploring Diversification and Genome Size Evolution in Extant Gymnosperms through Phylogenetic Synthesis
Author(s) -
J. Gordon Burleigh,
W. Brad Barbazuk,
John M. Davis,
Alison M. Morse,
Pamela S. Soltis
Publication year - 2012
Publication title -
journal of botany
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.249
H-Index - 11
eISSN - 2090-0139
pISSN - 2090-0120
DOI - 10.1155/2012/292857
Subject(s) - biology , gymnosperm , phylogenetic tree , ginkgo , supermatrix , clade , pinaceae , genome , genome size , evolutionary biology , extant taxon , phylogenomics , lineage (genetic) , phylogenetics , plant evolution , botany , gene , pinus <genus> , genetics , current algebra , mathematics , affine lie algebra , pure mathematics , algebra over a field
Gymnosperms, comprising cycads, Ginkgo, Gnetales, and conifers, represent one of the major groups of extant seed plants. Yet compared to angiosperms, little is known about the patterns of diversification and genome evolution in gymnosperms. We assembled a phylogenetic supermatrix containing over 4.5 million nucleotides from 739 gymnosperm taxa. Although 93.6% of the cells in the supermatrix are empty, the data reveal many strongly supported nodes that are generally consistent with previous phylogenetic analyses, including weak support for Gnetales sister to Pinaceae. A lineage through time plot suggests elevated rates of diversification within the last 100 million years, and there is evidence of shifts in diversification rates in several clades within cycads and conifers. A likelihood-based analysis of the evolution of genome size in 165 gymnosperms finds evidence for heterogeneous rates of genome size evolution due to an elevated rate in Pinus
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