Afro-alpine flagships revisited: Parallel adaptation, intermountain admixture and shallow genetic structuring in the giant senecios (Dendrosenecio)

Distantly related lineages of the enigmatic giant rosette plants of tropical alpine environments provide classical examples of convergent adaptation. For the giant senecios (Dendrosenecio), the endemic landmarks of the East African sky islands, it has also been suggested that parallel adaptation has...

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Veröffentlicht in:	PloS one 2020-03, Vol.15 (3), p.e0228979-e0228979
Hauptverfasser:	Tusiime, Felly Mugizi, Gizaw, Abel, Gussarova, Galina, Nemomissa, Sileshi, Popp, Magnus, Masao, Catherine Aloyce, Wondimu, Tigist, Abdi, Ahmed Abdikadir, Mirré, Virginia, Muwanika, Vincent, Eilu, Gerald, Brochmann, Christian
Format:	Artikel
Sprache:	eng
Schlagworte:	Adaptation Alpine environments Bayesian analysis Biodiversity Biogeography Biology and Life Sciences Computer and Information Sciences Conservation Corridors (Ecology) Earth Sciences Ecological adaptation Ecology and Environmental Sciences Evolution Expeditions Flowers & plants Forestry Gene flow Genes Genetic analysis Genetic diversity Genetic research Genetic structure Geography Habitats Hybridization Hypotheses Islands Leaves Matematikk og Naturvitenskap: 400 Mathematics and natural science: 400 Morphology Mountains Museums Natural history Physiology Plant biology Plant sciences Population genetics Radiation Research and Analysis Methods Rosette Taxonomy Tourism VDP
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creator	Tusiime, Felly Mugizi Gizaw, Abel Gussarova, Galina Nemomissa, Sileshi Popp, Magnus Masao, Catherine Aloyce Wondimu, Tigist Abdi, Ahmed Abdikadir Mirré, Virginia Muwanika, Vincent Eilu, Gerald Brochmann, Christian
description	Distantly related lineages of the enigmatic giant rosette plants of tropical alpine environments provide classical examples of convergent adaptation. For the giant senecios (Dendrosenecio), the endemic landmarks of the East African sky islands, it has also been suggested that parallel adaptation has been important for within-lineage differentiation. To test this hypothesis and to address potential gene flow and hybridization among the isolated sky islands, we organized field expeditions to all major mountains. We sampled all currently accepted species and all but one subspecies and genotyped 460 plants representing 109 populations. We tested whether genetic structuring corresponds to geography, as predicted by a parallel adaptation hypothesis, or to altitudinal belt and habitat rather than mountains, as predicted by a hypothesis of a single origin of adaptations. Bayesian and Neighbor-Net analyses showed that the main genetic structure is shallow and largely corresponds to geography, supporting a hypothesis of recent, rapid radiation via parallel altitude/habitat adaptation on different mountains. We also found evidence for intermountain admixture, suggesting several long-distance dispersals by wind across vast areas of unsuitable habitat. The combination of parallel adaptation, secondary contact, and hybridization may explain the complex patterns of morphological variation and the contradicting taxonomic treatments of these rare enigmatic giants, supporting the use of wide taxonomic concepts. Notably, the within-population genetic diversity was very low and calls for increased conservation efforts.
doi_str_mv	10.1371/journal.pone.0228979
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subjects	Adaptation Alpine environments Bayesian analysis Biodiversity Biogeography Biology and Life Sciences Computer and Information Sciences Conservation Corridors (Ecology) Earth Sciences Ecological adaptation Ecology and Environmental Sciences Evolution Expeditions Flowers & plants Forestry Gene flow Genes Genetic analysis Genetic diversity Genetic research Genetic structure Geography Habitats Hybridization Hypotheses Islands Leaves Matematikk og Naturvitenskap: 400 Mathematics and natural science: 400 Morphology Mountains Museums Natural history Physiology Plant biology Plant sciences Population genetics Radiation Research and Analysis Methods Rosette Taxonomy Tourism VDP
title	Afro-alpine flagships revisited: Parallel adaptation, intermountain admixture and shallow genetic structuring in the giant senecios (Dendrosenecio)
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