Molecular phylogenetics supports widespread cryptic species in moonworts ( Botrychium s.s., Ophioglossaceae)

Premise of the study: Previous phylogenetic studies of moonworts (Botrychium sensu stricto (s.s.)) included few taxa from outside of North America. This low geographical representation limited interpretations of relationships of this group rich in cryptic species. With 18 out of 30 species in the ge...

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Main Authors:	Dauphin, Benjamin, Vieu, Julien, Grant, Jason R
Language:	English
Published:	2017
Subjects:	Arctic
Online Access:	http://doc.rero.ch/record/278377/files/Dauphin_B.-Molecular_20170120143428-RY.pdf

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record_format	openpolar
spelling	ftreroch:oai:doc.rero.ch:20170120143428-RY 2023-05-15T15:09:05+02:00 Molecular phylogenetics supports widespread cryptic species in moonworts ( Botrychium s.s., Ophioglossaceae) Dauphin, Benjamin Vieu, Julien Grant, Jason R 2017-01-20T13:36:51Z http://doc.rero.ch/record/278377/files/Dauphin_B.-Molecular_20170120143428-RY.pdf eng eng http://doc.rero.ch/record/278377/files/Dauphin_B.-Molecular_20170120143428-RY.pdf 2017 ftreroch 2023-02-16T17:27:10Z Premise of the study: Previous phylogenetic studies of moonworts (Botrychium sensu stricto (s.s.)) included few taxa from outside of North America. This low geographical representation limited interpretations of relationships of this group rich in cryptic species. With 18 out of 30 species in the genus being polyploid, understanding their evolutionary history remains a major challenge. Methods: A new molecular phylogeny was reconstructed using Maximum Likelihood (ML) and Bayesian Inference (BI) analyses based on multiple accessions of the most wide- ranging Arctic taxa of Botrychium in North America and Europe using three noncoding plastid DNA regions ( psbA-trnH GUG , trnL UAA - trnF GAA intergenic spacer, and rpL16 intron). Key results: The new phylogeny confirms the identity of several recently described species and proposed new taxa. Nine subclades are newly identified within the two major clades in Botrychium s.s.: Lanceolatum and Lunaria. Chloroplast DNA was variable enough to separate morphologically cryptic species in the Lunaria clade. On the contrary, much less variation is seen within the morphologically variable Lanceolatum clade despite sampling over the same broad geographic range. The chloroplast region psbA-trnH GUG is identified as an efficient DNA barcode for the identification of cryptic taxa in Botrychium s.s. Conclusions: The combined increase in species representation, samples from throughout the geographic range of each species, and sequencing of multiple plastid DNA regions supports morphologically cryptic species in Botrychium s.s. Other/Unknown Material Arctic RERO DOC Digital Library Arctic
institution	Open Polar
collection	RERO DOC Digital Library
op_collection_id	ftreroch
language	English
description	Premise of the study: Previous phylogenetic studies of moonworts (Botrychium sensu stricto (s.s.)) included few taxa from outside of North America. This low geographical representation limited interpretations of relationships of this group rich in cryptic species. With 18 out of 30 species in the genus being polyploid, understanding their evolutionary history remains a major challenge. Methods: A new molecular phylogeny was reconstructed using Maximum Likelihood (ML) and Bayesian Inference (BI) analyses based on multiple accessions of the most wide- ranging Arctic taxa of Botrychium in North America and Europe using three noncoding plastid DNA regions ( psbA-trnH GUG , trnL UAA - trnF GAA intergenic spacer, and rpL16 intron). Key results: The new phylogeny confirms the identity of several recently described species and proposed new taxa. Nine subclades are newly identified within the two major clades in Botrychium s.s.: Lanceolatum and Lunaria. Chloroplast DNA was variable enough to separate morphologically cryptic species in the Lunaria clade. On the contrary, much less variation is seen within the morphologically variable Lanceolatum clade despite sampling over the same broad geographic range. The chloroplast region psbA-trnH GUG is identified as an efficient DNA barcode for the identification of cryptic taxa in Botrychium s.s. Conclusions: The combined increase in species representation, samples from throughout the geographic range of each species, and sequencing of multiple plastid DNA regions supports morphologically cryptic species in Botrychium s.s.
author	Dauphin, Benjamin Vieu, Julien Grant, Jason R
spellingShingle	Dauphin, Benjamin Vieu, Julien Grant, Jason R Molecular phylogenetics supports widespread cryptic species in moonworts ( Botrychium s.s., Ophioglossaceae)
author_facet	Dauphin, Benjamin Vieu, Julien Grant, Jason R
author_sort	Dauphin, Benjamin
title	Molecular phylogenetics supports widespread cryptic species in moonworts ( Botrychium s.s., Ophioglossaceae)
title_short	Molecular phylogenetics supports widespread cryptic species in moonworts ( Botrychium s.s., Ophioglossaceae)
title_full	Molecular phylogenetics supports widespread cryptic species in moonworts ( Botrychium s.s., Ophioglossaceae)
title_fullStr	Molecular phylogenetics supports widespread cryptic species in moonworts ( Botrychium s.s., Ophioglossaceae)
title_full_unstemmed	Molecular phylogenetics supports widespread cryptic species in moonworts ( Botrychium s.s., Ophioglossaceae)
title_sort	molecular phylogenetics supports widespread cryptic species in moonworts ( botrychium s.s., ophioglossaceae)
publishDate	2017
url	http://doc.rero.ch/record/278377/files/Dauphin_B.-Molecular_20170120143428-RY.pdf
geographic	Arctic
geographic_facet	Arctic
genre	Arctic
genre_facet	Arctic
op_relation	http://doc.rero.ch/record/278377/files/Dauphin_B.-Molecular_20170120143428-RY.pdf
_version_	1766340311542398976

Molecular phylogenetics supports widespread cryptic species in moonworts ( Botrychium s.s., Ophioglossaceae)

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