A time-calibrated molecular phylogeny of the precious corals: reconciling discrepancies in the taxonomic classification and insights into their evolutionary history

Abstract Background Seamount-associated faunas are often considered highly endemic but isolation and diversification processes leading to such endemism have been poorly documented at those depths. Likewise, species delimitation and phylogenetic studies in deep-sea organisms remain scarce, due to the...

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Main Authors: Ardila, Néstor E, Giribet, Gonzalo, Sánchez, Juan A
Format: Article in Journal/Newspaper
Language:English
Published: BioMed Central Ltd. 2012
Subjects:
New Zealand
Pacific
Antarc*
Antarctica
Online Access:http://www.biomedcentral.com/1471-2148/12/246
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record_format openpolar
spelling ftbiomed:oai:biomedcentral.com:1471-2148-12-246 2023-05-15T13:42:30+02:00 A time-calibrated molecular phylogeny of the precious corals: reconciling discrepancies in the taxonomic classification and insights into their evolutionary history Ardila, Néstor E Giribet, Gonzalo Sánchez, Juan A 2012-12-18 http://www.biomedcentral.com/1471-2148/12/246 en eng BioMed Central Ltd. http://www.biomedcentral.com/1471-2148/12/246 Copyright 2012 Ardila et al.; licensee BioMed Central Ltd. Research article 2012 ftbiomed 2013-02-10T01:04:16Z Abstract Background Seamount-associated faunas are often considered highly endemic but isolation and diversification processes leading to such endemism have been poorly documented at those depths. Likewise, species delimitation and phylogenetic studies in deep-sea organisms remain scarce, due to the difficulty in obtaining samples, and sometimes controversial. The phylogenetic relationships within the precious coral family Coralliidae remain largely unexplored and the monophyly of its two constituent genera, Corallium Cuvier and Paracorallium Bayer & Cairns, has not been resolved. As traditionally recognized, the diversity of colonial forms among the various species correlates with the diversity in shape of their supporting axis, but the phylogenetic significance of these characters remains to be tested. We thus used mitochondrial sequence data to evaluate the monophyly of Corallium and Paracorallium and the species boundaries for nearly all named taxa in the family. Species from across the coralliid range, including material from Antarctica, Hawaii, Japan, New Zealand, Taiwan, Tasmania, the eastern Pacific and the western Atlantic were examined. Results The concatenated analysis of five mitochondrial regions (COI, 16S rRNA, ND2, and ND3-ND6) recovered two major coralliid clades. One clade is composed of two subgroups, the first including Corallium rubrum , the type species of the genus, together with a small group of Paracorallium species ( P. japonicum and P. tortuosum ) and C. medea (clade I-A); the other subgroup includes a poorly-resolved assemblage of six Corallium species ( C. abyssale, C. ducale, C. imperiale, C. laauense, C. niobe, and C. sulcatum clade I-B). The second major clade is well resolved and includes species of Corallium and Paracorallium ( C. elatius, C. kishinouyei, C. konojoi, C. niveum, C. secundum, Corallium sp., Paracorallium nix, Paracorallium thrinax and Paracorallium spp.). A traditional taxonomic study of this clade delineated 11 morphospecies that were congruent with the general mixed Yule-coalescent (GMYC) model. A multilocus species-tree approach also identified the same two well-supported clades, being Clade I-B more recent in the species tree (18.0-15.9 mya) than in the gene tree (35.2-15.9 mya). In contrast, the diversification times for Clade II were more ancient in the species tree (136.4-41.7 mya) than in the gene tree (66.3-16.9 mya). Conclusions Our results provide no support for the taxonomic status of the two currently recognized genera in the family Coralliidae. Given that Paracorallium species were all nested within Corallium , we recognize the coralliid genus Corallium , which includes the type species of the family, and thus consider Paracorallium a junior synonym of Corallium . We propose the use of the genus Hemicorallium Gray for clade I-B (species with long rod sclerites, cylindrical autozooids and . Article in Journal/Newspaper Antarc* Antarctica BioMed Central New Zealand Pacific
institution Open Polar
collection BioMed Central
op_collection_id ftbiomed
language English
description Abstract Background Seamount-associated faunas are often considered highly endemic but isolation and diversification processes leading to such endemism have been poorly documented at those depths. Likewise, species delimitation and phylogenetic studies in deep-sea organisms remain scarce, due to the difficulty in obtaining samples, and sometimes controversial. The phylogenetic relationships within the precious coral family Coralliidae remain largely unexplored and the monophyly of its two constituent genera, Corallium Cuvier and Paracorallium Bayer & Cairns, has not been resolved. As traditionally recognized, the diversity of colonial forms among the various species correlates with the diversity in shape of their supporting axis, but the phylogenetic significance of these characters remains to be tested. We thus used mitochondrial sequence data to evaluate the monophyly of Corallium and Paracorallium and the species boundaries for nearly all named taxa in the family. Species from across the coralliid range, including material from Antarctica, Hawaii, Japan, New Zealand, Taiwan, Tasmania, the eastern Pacific and the western Atlantic were examined. Results The concatenated analysis of five mitochondrial regions (COI, 16S rRNA, ND2, and ND3-ND6) recovered two major coralliid clades. One clade is composed of two subgroups, the first including Corallium rubrum , the type species of the genus, together with a small group of Paracorallium species ( P. japonicum and P. tortuosum ) and C. medea (clade I-A); the other subgroup includes a poorly-resolved assemblage of six Corallium species ( C. abyssale, C. ducale, C. imperiale, C. laauense, C. niobe, and C. sulcatum clade I-B). The second major clade is well resolved and includes species of Corallium and Paracorallium ( C. elatius, C. kishinouyei, C. konojoi, C. niveum, C. secundum, Corallium sp., Paracorallium nix, Paracorallium thrinax and Paracorallium spp.). A traditional taxonomic study of this clade delineated 11 morphospecies that were congruent with the general mixed Yule-coalescent (GMYC) model. A multilocus species-tree approach also identified the same two well-supported clades, being Clade I-B more recent in the species tree (18.0-15.9 mya) than in the gene tree (35.2-15.9 mya). In contrast, the diversification times for Clade II were more ancient in the species tree (136.4-41.7 mya) than in the gene tree (66.3-16.9 mya). Conclusions Our results provide no support for the taxonomic status of the two currently recognized genera in the family Coralliidae. Given that Paracorallium species were all nested within Corallium , we recognize the coralliid genus Corallium , which includes the type species of the family, and thus consider Paracorallium a junior synonym of Corallium . We propose the use of the genus Hemicorallium Gray for clade I-B (species with long rod sclerites, cylindrical autozooids and .
format Article in Journal/Newspaper
author Ardila, Néstor E
Giribet, Gonzalo
Sánchez, Juan A
spellingShingle Ardila, Néstor E
Giribet, Gonzalo
Sánchez, Juan A
A time-calibrated molecular phylogeny of the precious corals: reconciling discrepancies in the taxonomic classification and insights into their evolutionary history
author_facet Ardila, Néstor E
Giribet, Gonzalo
Sánchez, Juan A
author_sort Ardila, Néstor E
title A time-calibrated molecular phylogeny of the precious corals: reconciling discrepancies in the taxonomic classification and insights into their evolutionary history
title_short A time-calibrated molecular phylogeny of the precious corals: reconciling discrepancies in the taxonomic classification and insights into their evolutionary history
title_full A time-calibrated molecular phylogeny of the precious corals: reconciling discrepancies in the taxonomic classification and insights into their evolutionary history
title_fullStr A time-calibrated molecular phylogeny of the precious corals: reconciling discrepancies in the taxonomic classification and insights into their evolutionary history
title_full_unstemmed A time-calibrated molecular phylogeny of the precious corals: reconciling discrepancies in the taxonomic classification and insights into their evolutionary history
title_sort time-calibrated molecular phylogeny of the precious corals: reconciling discrepancies in the taxonomic classification and insights into their evolutionary history
publisher BioMed Central Ltd.
publishDate 2012
url http://www.biomedcentral.com/1471-2148/12/246
geographic New Zealand
Pacific
geographic_facet New Zealand
Pacific
genre Antarc*
Antarctica
genre_facet Antarc*
Antarctica
op_relation http://www.biomedcentral.com/1471-2148/12/246
op_rights Copyright 2012 Ardila et al.; licensee BioMed Central Ltd.
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