Molecular phylogenetics of Vandeae (Orchidaceae) and the evolution of leaflessness

Members of tribe Vandeae (Orchidaceae) form a large, pantropical clade of horticulturally important epiphytes. Monopodial leafless members of Vandeae have undergone extreme reduction in habit and represent a novel adaptation to the canopy environment in tropical Africa, Asia, and America. To study t...

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Veröffentlicht in:	American journal of botany 2006-05, Vol.93 (5), p.770-786
Hauptverfasser:	Carlsward, Barbara S, Whitten, W. Mark, Williams, Norris H, Bytebier, Benny
Format:	Artikel
Sprache:	eng
Schlagworte:	Biological taxonomies Boluses Botany Datasets Deoxyribonucleic acid DNA epiphytes Evolution Flowers & plants gas exchange Genera horticultural crops internal transcribed spacers ITS leaves matK molecular sequence data molecular systematics monopodial leaflessness Orchidaceae overstory photosynthesis Phylogenetics phylogeny plant architecture plant morphology plant taxonomy Plants plastid DNA Plastids ribosomal DNA roots Systematics and Phytogeography Taxa Topology trnL‐F tropical forests tropics Vandeae Vouchers
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description	Members of tribe Vandeae (Orchidaceae) form a large, pantropical clade of horticulturally important epiphytes. Monopodial leafless members of Vandeae have undergone extreme reduction in habit and represent a novel adaptation to the canopy environment in tropical Africa, Asia, and America. To study the evolution of monopodial leaflessness, molecular and structural evidence was used to generate phylogenetic hypotheses for Vandeae. Molecular analyses used sequence data from ITS nrDNA, trnL-F plastid DNA, and matK plastid DNA. Maximum parsimony analyses of these three DNA regions each supported two subtribes within monopodial Vandeae: Aeridinae and a combined Angraecinae + Aerangidinae. Adding structural characters to sequence data resulted in trees with more homoplasy, but gave fewer trees each with more well-supported clades than either data set alone. Two techniques for examining character evolution were compared: (1) mapping vegetative characters onto a molecular topology and (2) tracing vegetative characters onto a combined structural and molecular topology. In both cases, structural synapomorphies supporting monopodial Vandeae were nearly identical. A change in leaf morphology (usually reduced to a nonphotosynthetic scale), monopodial growth habit, and aeration complexes for gas exchange in photosynthetic roots seem to be the most important characters in making the evolutionary transition to leaflessness.
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Mark</creatorcontrib><creatorcontrib>Williams, Norris H</creatorcontrib><creatorcontrib>Bytebier, Benny</creatorcontrib><title>Molecular phylogenetics of Vandeae (Orchidaceae) and the evolution of leaflessness</title><title>American journal of botany</title><addtitle>Am J Bot</addtitle><description>Members of tribe Vandeae (Orchidaceae) form a large, pantropical clade of horticulturally important epiphytes. Monopodial leafless members of Vandeae have undergone extreme reduction in habit and represent a novel adaptation to the canopy environment in tropical Africa, Asia, and America. To study the evolution of monopodial leaflessness, molecular and structural evidence was used to generate phylogenetic hypotheses for Vandeae. Molecular analyses used sequence data from ITS nrDNA, trnL-F plastid DNA, and matK plastid DNA. Maximum parsimony analyses of these three DNA regions each supported two subtribes within monopodial Vandeae: Aeridinae and a combined Angraecinae + Aerangidinae. 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subjects	Biological taxonomies Boluses Botany Datasets Deoxyribonucleic acid DNA epiphytes Evolution Flowers & plants gas exchange Genera horticultural crops internal transcribed spacers ITS leaves matK molecular sequence data molecular systematics monopodial leaflessness Orchidaceae overstory photosynthesis Phylogenetics phylogeny plant architecture plant morphology plant taxonomy Plants plastid DNA Plastids ribosomal DNA roots Systematics and Phytogeography Taxa Topology trnL‐F tropical forests tropics Vandeae Vouchers
title	Molecular phylogenetics of Vandeae (Orchidaceae) and the evolution of leaflessness
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