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Phylogenetic Hypotheses for the Monocotyledons Constructed from rbcL Sequence Data
Melvin R. Duvall, Michael T. Clegg, Mark W. Chase, W. Dennis Clark, W. John Kress, Harold G. Hills, Luis E. Eguiarte, James F. Smith, Brandon S. Gaut, Elizabeth A. Zimmer and Gerald H. Learn, Jr.
Annals of the Missouri Botanical Garden
Vol. 80, No. 3 (1993), pp. 607-619
Published by: Missouri Botanical Garden Press
Page Count: 13
You can always find the topics here!Topics: Maximum parsimony, Topology, Taxa, Hypoxia, Codons, Tradescantia, Computer analysis, Angiosperms
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DNA sequences for the plastid locus that encodes the large subunit of ribulose 1,5-bisphosphate carboxylase/oxygenase (rbcL) were determined for 18 species of monocotyledons in 15 families. These data were analyzed together with sequences for 60 other monocot species in a total of 52 families by the maximum likelihood method producing one, presumably optimal, topology. An additional 26 species were added (104 total monocot species) and analyzed by the parsimony method with an outgroup of 18 dicot species producing 109 trees of 3,932 steps. The rbcL data show at least moderate support for seven lineages corresponding to the following orders, superorders, or combinations: Arecanae; Asparagales (excluding Hypoxidaceae) plus Iridaceae; Cyclanthanae plus Pandananae; Dioscoreales; Orchidales; Typhales; and Zingiberanae. Six clades corresponding to families or genera are well supported, including: Agavaceae, Asphodelaceae, Bromeliaceae, Hypoxidaceae, Poaceae, and Tradescantia. The two, earliest diverging multispecies clades in our rbcL phylogenies, Alismatanae and Aranae, are only weakly supported, and Bromelianae, Commelinanae, and Lilianae are paraphyletic. In all analyses Acorus calamus is phylogenetically isolated as the sister species to the remaining species of monocotyledons.
Annals of the Missouri Botanical Garden © 1993 Missouri Botanical Garden Press