Phylogeny, character evolution and spatiotemporal diversification of the species-rich and world-wide distributed tribe Rubieae (Rubiaceae)

The Rubiaceae tribe Rubieae has a world-wide distribution with up to 1,000 species. These collectively exhibit an enormous ecological and morphological diversity, making Rubieae an excellent group for macro- and microevolutionary studies. Previous molecular phylogenetic analyses used only a limited...

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Veröffentlicht in:	PloS one 2018-12, Vol.13 (12), p.e0207615-e0207615
Hauptverfasser:	Ehrendorfer, Friedrich, Barfuss, Michael H J, Manen, Jean-Francois, Schneeweiss, Gerald M
Format:	Artikel
Sprache:	eng
Schlagworte:	Asperula Bayes Theorem Biodiversity Biogeography Biological Evolution Biology and Life Sciences Computer and Information Sciences Deoxyribonucleic acid Distribution DNA DNA, Plant - genetics Earth Sciences Ecology and Environmental Sciences Evolution Evolution (Biology) Evolution, Molecular Flowers Fruits Galium Galium - genetics Genera Genetic aspects Genetic Speciation Genome, Plastid - genetics Hypotheses Land bridges Leaves Miocene Morphology Mutation Rate Phylogenetics Phylogeny Phylogeography - methods Plant evolution Plant reproduction Plastids - genetics Research and Analysis Methods Ribosomal DNA Rubiaceae Rubiaceae - genetics Sampling Sequence Analysis, DNA - methods Spacer Species Species diversity Taxonomy
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description	The Rubiaceae tribe Rubieae has a world-wide distribution with up to 1,000 species. These collectively exhibit an enormous ecological and morphological diversity, making Rubieae an excellent group for macro- and microevolutionary studies. Previous molecular phylogenetic analyses used only a limited sampling within the tribe or missed lineages crucial for understanding character evolution in this group. Here, we analyze sequences from two plastid spacer regions as well as morphological and biogeographic data from an extensive and evenly distributed sampling to establish a sound phylogenetic framework. This framework serves as a basis for our investigation of the evolution of important morphological characters and the biogeographic history of the Rubieae. The tribe includes three major clades, the Kelloggiinae Clade (Kelloggia), the Rubiinae Clade (Didymaea, Rubia) and the most species-rich Galiinae Clade (Asperula, Callipeltis, Crucianella, Cruciata, Galium, Mericarpaea, Phuopsis, Sherardia, Valantia). Within the Galiinae Clade, the largest genera Galium and Asperula are para- and polyphyletic, respectively. Smaller clades, however, usually correspond to currently recognized taxa (small genera or sections within genera), which may be used as starting points for a refined classification in this clade. Life-form (perennial versus annual), flower shape (long versus short corolla tube) and fruit characters (dry versus fleshy, with or without uncinate hairs) are highly homoplasious and have changed multiple times independently. Inference on the evolution of leaf whorls, a characteristic feature of the tribe, is sensitive to model choice. Multi-parted leaf whorls appear to have originated from opposite leaves with two small interpetiolar stipules that are subsequently enlarged and increased in number. Early diversification of Rubieae probably started during the Miocene in western Eurasia. Disjunctions between the Old and the New World possibly are due to connections via a North Atlantic land bridge. Diversification of the Galiineae Clade started later in the Miocene, probably in the Mediterranean, from where lineages reached, often multiple times, Africa, eastern Asia and further on the Americas and Australia.
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These collectively exhibit an enormous ecological and morphological diversity, making Rubieae an excellent group for macro- and microevolutionary studies. Previous molecular phylogenetic analyses used only a limited sampling within the tribe or missed lineages crucial for understanding character evolution in this group. Here, we analyze sequences from two plastid spacer regions as well as morphological and biogeographic data from an extensive and evenly distributed sampling to establish a sound phylogenetic framework. This framework serves as a basis for our investigation of the evolution of important morphological characters and the biogeographic history of the Rubieae. The tribe includes three major clades, the Kelloggiinae Clade (Kelloggia), the Rubiinae Clade (Didymaea, Rubia) and the most species-rich Galiinae Clade (Asperula, Callipeltis, Crucianella, Cruciata, Galium, Mericarpaea, Phuopsis, Sherardia, Valantia). 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These collectively exhibit an enormous ecological and morphological diversity, making Rubieae an excellent group for macro- and microevolutionary studies. Previous molecular phylogenetic analyses used only a limited sampling within the tribe or missed lineages crucial for understanding character evolution in this group. Here, we analyze sequences from two plastid spacer regions as well as morphological and biogeographic data from an extensive and evenly distributed sampling to establish a sound phylogenetic framework. This framework serves as a basis for our investigation of the evolution of important morphological characters and the biogeographic history of the Rubieae. The tribe includes three major clades, the Kelloggiinae Clade (Kelloggia), the Rubiinae Clade (Didymaea, Rubia) and the most species-rich Galiinae Clade (Asperula, Callipeltis, Crucianella, Cruciata, Galium, Mericarpaea, Phuopsis, Sherardia, Valantia). Within the Galiinae Clade, the largest genera Galium and Asperula are para- and polyphyletic, respectively. Smaller clades, however, usually correspond to currently recognized taxa (small genera or sections within genera), which may be used as starting points for a refined classification in this clade. Life-form (perennial versus annual), flower shape (long versus short corolla tube) and fruit characters (dry versus fleshy, with or without uncinate hairs) are highly homoplasious and have changed multiple times independently. Inference on the evolution of leaf whorls, a characteristic feature of the tribe, is sensitive to model choice. Multi-parted leaf whorls appear to have originated from opposite leaves with two small interpetiolar stipules that are subsequently enlarged and increased in number. Early diversification of Rubieae probably started during the Miocene in western Eurasia. Disjunctions between the Old and the New World possibly are due to connections via a North Atlantic land bridge. Diversification of the Galiineae Clade started later in the Miocene, probably in the Mediterranean, from where lineages reached, often multiple times, Africa, eastern Asia and further on the Americas and Australia.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>30517138</pmid><doi>10.1371/journal.pone.0207615</doi><tpages>e0207615</tpages><orcidid>https://orcid.org/0000-0001-7172-9454</orcidid><orcidid>https://orcid.org/0000-0003-2811-3317</orcidid><oa>free_for_read</oa></addata></record>
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ispartof	PloS one, 2018-12, Vol.13 (12), p.e0207615-e0207615
issn	1932-6203 1932-6203
language	eng
recordid	cdi_plos_journals_2150530827
source	Public Library of Science (PLoS) Journals Open Access; MEDLINE; PMC (PubMed Central); DOAJ Directory of Open Access Journals; EZB-FREE-00999 freely available EZB journals; Free Full-Text Journals in Chemistry
subjects	Asperula Bayes Theorem Biodiversity Biogeography Biological Evolution Biology and Life Sciences Computer and Information Sciences Deoxyribonucleic acid Distribution DNA DNA, Plant - genetics Earth Sciences Ecology and Environmental Sciences Evolution Evolution (Biology) Evolution, Molecular Flowers Fruits Galium Galium - genetics Genera Genetic aspects Genetic Speciation Genome, Plastid - genetics Hypotheses Land bridges Leaves Miocene Morphology Mutation Rate Phylogenetics Phylogeny Phylogeography - methods Plant evolution Plant reproduction Plastids - genetics Research and Analysis Methods Ribosomal DNA Rubiaceae Rubiaceae - genetics Sampling Sequence Analysis, DNA - methods Spacer Species Species diversity Taxonomy
title	Phylogeny, character evolution and spatiotemporal diversification of the species-rich and world-wide distributed tribe Rubieae (Rubiaceae)
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