Evolutionary dynamics of a common sub-Antarctic octocoral family

Sequence data were obtained for five different loci, both mitochondrial (cox1, mtMutS, 16S) and nuclear (18S, 28S rDNA), from 64 species representing 25 genera of the common deep-sea octocoral family Primnoidae. We tested the hypothesis that Primnoidae have an Antarctic origin, as this is where they...

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Published in:Molecular Phylogenetics and Evolution
Main Authors: Taylor, M., Rogers, A.
Format: Book
Language:English
Published: 2015
Subjects:
Antarctic
Drake Passage
Indian
Pacific
Antarc*
Online Access:http://hdl.handle.net/1834/17115
https://doi.org/10.1016/j.ympev.2014.11.008
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spelling ftoceandocs:oai:aquadocs.org:1834/17115 2024-06-09T07:39:53+00:00 Evolutionary dynamics of a common sub-Antarctic octocoral family Taylor, M. Rogers, A. 2015 pp.185-204 http://hdl.handle.net/1834/17115 https://doi.org/10.1016/j.ympev.2014.11.008 en eng https://doi.org/10.1016/j.ympev.2014.11.008 http://hdl.handle.net/1834/17115 Journal Contribution Refereed 2015 ftoceandocs https://doi.org/10.1016/j.ympev.2014.11.008 2024-05-15T08:02:16Z Sequence data were obtained for five different loci, both mitochondrial (cox1, mtMutS, 16S) and nuclear (18S, 28S rDNA), from 64 species representing 25 genera of the common deep-sea octocoral family Primnoidae. We tested the hypothesis that Primnoidae have an Antarctic origin, as this is where they currently have high species richness, using Maximum likelihood and Bayesian inference methods of phylogenetic analysis. Using a time-calibrated molecular phylogeny we also investigated the time of species radiation in sub-Antarctic Primnoidae.Our relatively wide taxon sampling and phylogenetic analysis supported Primnoidae as a monophyletic family. The base of the well-supported phylogeny was Pacific in origin, indicating Primnoidae sub-Antarctic diversity is a secondary species radiation. There is also evidence for a subsequent range extension of sub-Antarctic lineages into deep-water areas of the Indian and Pacific Oceans.Conservative and speculative fossil-calibration analyses resulted in two differing estimations of sub-Antarctic species divergence times. Conservative analysis suggested a sub-Antarctic species radiation occurred ~52. MYA (95% HPD: 36-73. MYA), potentially before the opening of the Drake Passage and Antarctic Circumpolar Current (ACC) formation (41-37. MYA). Speculative analysis pushed this radiation back into the late Jurassic, 157. MYA (95% HPD: 118-204. MYA).Genus-level groupings were broadly supported in this analysis with some notable polyphyletic exceptions: Callogorgia, Fanellia, Primnoella, Plumarella, Thouarella. Molecular and morphological evidence supports the placement of Tauroprimnoa austasensis within Dasystenella and Fannyella kuekenthali within Metafannyella. Published Book Antarc* Antarctic Drake Passage IODE-UNESCO: OceanDocs - E-Repository of Ocean Publications Antarctic Drake Passage Indian Pacific Molecular Phylogenetics and Evolution 84 185 204
institution Open Polar
collection IODE-UNESCO: OceanDocs - E-Repository of Ocean Publications
op_collection_id ftoceandocs
language English
description Sequence data were obtained for five different loci, both mitochondrial (cox1, mtMutS, 16S) and nuclear (18S, 28S rDNA), from 64 species representing 25 genera of the common deep-sea octocoral family Primnoidae. We tested the hypothesis that Primnoidae have an Antarctic origin, as this is where they currently have high species richness, using Maximum likelihood and Bayesian inference methods of phylogenetic analysis. Using a time-calibrated molecular phylogeny we also investigated the time of species radiation in sub-Antarctic Primnoidae.Our relatively wide taxon sampling and phylogenetic analysis supported Primnoidae as a monophyletic family. The base of the well-supported phylogeny was Pacific in origin, indicating Primnoidae sub-Antarctic diversity is a secondary species radiation. There is also evidence for a subsequent range extension of sub-Antarctic lineages into deep-water areas of the Indian and Pacific Oceans.Conservative and speculative fossil-calibration analyses resulted in two differing estimations of sub-Antarctic species divergence times. Conservative analysis suggested a sub-Antarctic species radiation occurred ~52. MYA (95% HPD: 36-73. MYA), potentially before the opening of the Drake Passage and Antarctic Circumpolar Current (ACC) formation (41-37. MYA). Speculative analysis pushed this radiation back into the late Jurassic, 157. MYA (95% HPD: 118-204. MYA).Genus-level groupings were broadly supported in this analysis with some notable polyphyletic exceptions: Callogorgia, Fanellia, Primnoella, Plumarella, Thouarella. Molecular and morphological evidence supports the placement of Tauroprimnoa austasensis within Dasystenella and Fannyella kuekenthali within Metafannyella. Published
format Book
author Taylor, M.
Rogers, A.
spellingShingle Taylor, M.
Rogers, A.
Evolutionary dynamics of a common sub-Antarctic octocoral family
author_facet Taylor, M.
Rogers, A.
author_sort Taylor, M.
title Evolutionary dynamics of a common sub-Antarctic octocoral family
title_short Evolutionary dynamics of a common sub-Antarctic octocoral family
title_full Evolutionary dynamics of a common sub-Antarctic octocoral family
title_fullStr Evolutionary dynamics of a common sub-Antarctic octocoral family
title_full_unstemmed Evolutionary dynamics of a common sub-Antarctic octocoral family
title_sort evolutionary dynamics of a common sub-antarctic octocoral family
publishDate 2015
url http://hdl.handle.net/1834/17115
https://doi.org/10.1016/j.ympev.2014.11.008
geographic Antarctic
Drake Passage
Indian
Pacific
geographic_facet Antarctic
Drake Passage
Indian
Pacific
genre Antarc*
Antarctic
Drake Passage
genre_facet Antarc*
Antarctic
Drake Passage
op_relation https://doi.org/10.1016/j.ympev.2014.11.008
http://hdl.handle.net/1834/17115
op_doi https://doi.org/10.1016/j.ympev.2014.11.008
container_title Molecular Phylogenetics and Evolution
container_volume 84
container_start_page 185
op_container_end_page 204
_version_ 1801382893742718976

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