Rapid loss of flight in the Aldabra white-throated rail

Flight loss has evolved independently in numerous island bird lineages worldwide, and particularly in rails (Rallidae). The Aldabra white-throated rail (Dryolimnas [cuvieri] aldabranus) is the last surviving flightless bird in the western Indian Ocean, and the only living flightless subspecies withi...

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Veröffentlicht in:	PloS one 2019-12, Vol.14 (12), p.e0226064-e0226064
Hauptverfasser:	van de Crommenacker, Janske, Bunbury, Nancy, Jackson, Hazel A, Nupen, Lisa J, Wanless, Ross, Fleischer-Dogley, Frauke, Groombridge, Jim J, Warren, Ben H
Format:	Artikel
Sprache:	eng
Schlagworte:	Animal biology Animals Biodiversity Biological Evolution Biology and Life Sciences Birds Birds - classification Birds - genetics Birds - physiology Computer and Information Sciences Conservation Conservation of Natural Resources Conservation status Divergence DNA - chemistry DNA - isolation & purification DNA - metabolism Dryolimnas Dryolimnas cuvieri Earth Sciences Ecology Endangered & extinct species Evolution Evolution (Biology) Extinction Flight Flight, Animal Genetic analysis Genetic divergence Genetic research Genetic Variation Haplotypes Indian Ocean Islands Life Sciences Medicine and Health Sciences Museums Oceans Ornithology People and Places Phylogeny Population Populations and Evolution Research and Analysis Methods Sequence Analysis, DNA Species extinction Vertebrate Zoology
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description	Flight loss has evolved independently in numerous island bird lineages worldwide, and particularly in rails (Rallidae). The Aldabra white-throated rail (Dryolimnas [cuvieri] aldabranus) is the last surviving flightless bird in the western Indian Ocean, and the only living flightless subspecies within Dryolimnas cuvieri, which is otherwise volant across its extant range. Such a difference in flight capacity among populations of a single species is unusual, and could be due to rapid evolution of flight loss, or greater evolutionary divergence than can readily be detected by traditional taxonomic approaches. Here we used genetic and morphological analyses to investigate evolutionary trajectories of living and extinct Dryolimnas cuvieri subspecies. Our data places D. [c.] aldabranus among the most rapid documented avian flight loss cases (within an estimated maximum of 80,000-130,000 years). However, the unusual intraspecific variability in flight capacity within D. cuvieri is best explained by levels of genetic divergence, which exceed those documented between other volant taxa versus flightless close relatives, all of which have full species status. Our results also support consideration of Dryolimnas [cuvieri] aldabranus as sufficiently evolutionary distinct from D. c. cuvieri to warrant management as an evolutionary significant unit. Trait variability among closely related lineages should be considered when assessing conservation status, particularly for traits known to influence vulnerability to extinction (e.g. flightlessness).
doi_str_mv	10.1371/journal.pone.0226064
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However, the unusual intraspecific variability in flight capacity within D. cuvieri is best explained by levels of genetic divergence, which exceed those documented between other volant taxa versus flightless close relatives, all of which have full species status. Our results also support consideration of Dryolimnas [cuvieri] aldabranus as sufficiently evolutionary distinct from D. c. cuvieri to warrant management as an evolutionary significant unit. 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However, the unusual intraspecific variability in flight capacity within D. cuvieri is best explained by levels of genetic divergence, which exceed those documented between other volant taxa versus flightless close relatives, all of which have full species status. Our results also support consideration of Dryolimnas [cuvieri] aldabranus as sufficiently evolutionary distinct from D. c. cuvieri to warrant management as an evolutionary significant unit. Trait variability among closely related lineages should be considered when assessing conservation status, particularly for traits known to influence vulnerability to extinction (e.g. flightlessness).</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>31869373</pmid><doi>10.1371/journal.pone.0226064</doi><tpages>e0226064</tpages><orcidid>https://orcid.org/0000-0001-8362-0368</orcidid><orcidid>https://orcid.org/0000-0002-0758-7612</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Animal biology Animals Biodiversity Biological Evolution Biology and Life Sciences Birds Birds - classification Birds - genetics Birds - physiology Computer and Information Sciences Conservation Conservation of Natural Resources Conservation status Divergence DNA - chemistry DNA - isolation & purification DNA - metabolism Dryolimnas Dryolimnas cuvieri Earth Sciences Ecology Endangered & extinct species Evolution Evolution (Biology) Extinction Flight Flight, Animal Genetic analysis Genetic divergence Genetic research Genetic Variation Haplotypes Indian Ocean Islands Life Sciences Medicine and Health Sciences Museums Oceans Ornithology People and Places Phylogeny Population Populations and Evolution Research and Analysis Methods Sequence Analysis, DNA Species extinction Vertebrate Zoology
title	Rapid loss of flight in the Aldabra white-throated rail
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