@ARTICLE{TreeBASE2Ref18888,
author = {Jean H. Burns and Robert B. Faden and Scott J. Steppan},
title = {Phylogenetic studies in the Commelinaceae subfamily Commelinoideae inferred from Nuclear Ribosomal and Chloroplast DNA Sequences},
year = {2011},
keywords = {Commelina, cpDNA, Murdannia, nrDNA, Tradescantia.},
doi = {10.1600/036364411X569471},
url = {http://},
pmid = {},
journal = {Systematic Botany},
volume = {36},
number = {2},
pages = {268--276},
abstract = {The Commelinaceae are a pantropical family of monocotyledonous herbs. Previous phylogenies in Commelinaceae have
emphasized sampling among genera. We extended this previous work by sampling multiple species within some of the largest genera of
Commelinaceae (especially Commelina and Tradescantia , and also including Callisia , Cyanotis, Gibasis, and Murdannia ), and by sequencing noncoding
regions both of the nuclear ribosomal DNA region, 5S NTS, and the chloroplast region, trnL-trnF . We generated a phylogenetic hypothesis
for 68 Commelinaceae that partially tests previous morphological, taxonomic classifications. We found little evidence for conflict between
nuclear and chloroplast regions for Tradescantia , Murdannia , and Callisia , and some evidence for conflict between the two regions for Commelina ,
though conflicting regions of the phylogeny were only weakly supported by bootstrap analyses. We found subtribe Tradescantieae to be paraphyletic,
consistent with an rbcL study, though with a different topology than that produced by rbcL . In addition, subtribe Commelineae was
monophyletic with strong support. We found Callisia to be polyphyletic, consistent with some previous molecular phylogenetic studies, and
we found Tradescantia , Gibasis , Cyanotis , Commelina , and Murdannia , to be monophyletic. The molecular phylogenies presented here generally
supported previous taxonomic classifications.}
}
Matrices for Study 10425
Citation title:
"Phylogenetic studies in the Commelinaceae subfamily Commelinoideae inferred from Nuclear Ribosomal and Chloroplast DNA Sequences".
Study name:
"Phylogenetic studies in the Commelinaceae subfamily Commelinoideae inferred from Nuclear Ribosomal and Chloroplast DNA Sequences".
This study is part of submission 10415
(Status: Published).
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