Congruence and consensus in the cotton tribe (Malvaceae)

We explored the evolutionary history of the Gossypieae and Gossypium using phylogenetic analysis of biparentally and maternally inherited characters. Separate and combined data sets were analyzed and incongruence between data sets was quantified and statistically evaluated. At the tribal level, phyl...

Full description

Saved in:
Bibliographic Details
Published in:Systematic botany 1997-04, Vol.22 (2), p.259-290
Main Authors: Sheelanan, T, Schnabel, A, Wendel, J.F
Format: Article
Language:English
Subjects:
Biological taxonomies
chloroplasts
cienfuegosia
Datasets
genbank/u12710
genbank/u12712
genbank/u12713
genbank/u12720
genbank/u12721
genbank/u12722
genbank/u55331
genbank/u55332
genbank/u55333
genbank/u55334
genbank/u55337
genbank/u55338
genbank/u56786
genbank/u56787
genbank/u56788
genbank/u56789
genbank/u56790
genbank/u56791
genbank/u56792
genbank/u56793
genbank/u56794
genbank/u56795
genbank/u56798
genbank/u56806
genbank/u56807
genbank/u56808
genbank/u56809
genbank/u56810
genbank/u56811
genbank/u56812
Genera
genetic distance
genetic variation
Genomes
Genomics
gossypieae
gossypioides
Gossypium
inheritance (genetics)
internal transcribed spacers
kokia
maternal effect
molecular sequence data
Monophyly
ndhf genes
nuclei
nucleotide sequences
Phylogenetics
Phylogeny
plant morphology
restriction mapping
ribosomal DNA
species
Taxa
taxonomy
Thespesia
Topology
Citations: Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:We explored the evolutionary history of the Gossypieae and Gossypium using phylogenetic analysis of biparentally and maternally inherited characters. Separate and combined data sets were analyzed and incongruence between data sets was quantified and statistically evaluated. At the tribal level, phylogenetic analyses of nuclear ribosomal ITS sequences yielded trees that are highly congruent with those derived from the plastid gene ndhF, except for species that have a reticulate evolutionary history or for clades supported by few characters. Problematic taxa were then pruned from the data sets and the phylogeny was inferred from the combined data. Results indicate that 1) the Gossypieae is monophyletic, with one branch from the first split being represented by modern Cienfuegosia; 2) Thespesia is not monophyletic, and 3) Gossypium is monophyletic and sister to an unexpected clade consisting of the Hawaiian genus Kokia and the east African/Madagascan genus Gossypioides. Based on the magnitude of ndhF sequence divergence, we suggest that Kokia and Gossypioides diverged from each other in the Pliocene, subsequent to their apparent loss of a pair of chromosomes via chromosome fusion. Phylogenetic relationships among species and "genome groups" in Gossypium were assessed using cpDNA restriction site variation and ITS sequence data. Both data sets support the monophyly of each genome group, once taxa known or suspected to have reticulate histories are pruned from the trees. There was little congruence between these two data sets, however, with respect to relationships among genome groups. Statistical tests indicate that most incongruence is not significant and that it probably reflects insufficient information rather than a biological process that has differentially affected the data sets. We propose that the differing cpDNA- and ITS-based resolutions of genome groups in Gossypium reflect temporally closely spaced divergence events early in the diversification of the genus. This "short internode" phenomenon is suggested to be a common cause of phylogenetic incongruence.
ISSN:0363-6445
1548-2324
DOI:10.2307/2419457