Evolutionary history of the Galápagos Rail revealed by ancient mitogenomes and modern samples

Chaves, Jaime A.; Martinez-Torres, Pedro J.; Depino, Emiliano A.; Espinoza-Ulloa, Sebastian; García-Loor, Jefferson; Beichman, Annabel C.; Stervander, Martin

doi:10.1101/2020.10.07.326983

Cited by 1 publication

(2 citation statements)

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“…2014, Stervander et al . 2019, Chaves et al . 2020), in the present case morphology appears to be rather informative.…”

Section: Discussionmentioning

confidence: 99%

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First genetic data for the Critically Endangered Cuban endemic Zapata RailCyanolimnas cerverai, and the taxonomic implications

Brown

Shannon

Collinson

et al. 2022

Preprint

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The taxonomic affinity of the near-flightless Zapata Rail Cyanolimnas cerverai, a Critically Endangered and highly localized species endemic to Cuba, has long been debated. Morphological analyses have suggested that this species, which constitutes a monotypic genus, could be related either to the extinct Tahitian Cave Rails (Nesotrochis sp.) or to the South American rail tribe Pardirallini, i.e., the genera Neocrex, Mustelirallus, and Pardirallus. Whilst pronounced phenotypic convergence—and divergence—among rails have repeatedly proven morphology-based phylogenies unreliable, thus far no attempt to sequence DNA from the enigmatic Cyanolimnas has succeeded. In this study, we extracted historic DNA from a museum specimen collected in 1927 and sequenced multiple short fragments that allowed us to assemble a partial sequence of the mitochondrial cytochrome oxidase I gene. Phylogenetic analyses confirm that Cyanolimnas belongs in tribe Pardirallini as sister to genus Neocrex, from which it diverged about six million years ago. Their divergence from Mustelirallus was estimated at about eight million years ago. Based on morphology and our mitochondrial phylogeny, we conclude that it is unjustified to retain the monotypic genus Cyanolimnas and tentatively recommend that C. cerverai and the two Neocrex species are ascribed to genus Mustelirallus.

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“…2014, Stervander et al . 2019, Chaves et al . 2020), in the present case morphology appears to be rather informative.…”

Section: Discussionmentioning

confidence: 99%

“…Employing a birth–death speciation model, we set the prior for death rate to follow an exponential distribution with mean 1. We enforced monophyly of the clades Rallidae, Ralloidea, and Gruoidea, and employed dating calibration priors on Gruiformes and stem Rallidae following Chaves et al . (2020).…”

Section: Methodsmentioning

confidence: 99%