Mitochondrial and nuclear genes suggest that stony corals are monophyletic but most families of stony corals are not (Order Scleractinia, Class Anthozoa, Phylum Cnidaria).

Mitochondrial and nuclear genes suggest that stony corals are monophyletic but most families of stony corals are not (Order Scleractinia, Class Anthozoa, Phylum Cnidaria).

Modern hard corals (Class Hexacorallia; Order Scleractinia) are widely studied because of their fundamental role in reef building and their superb fossil record extending back to the Triassic. Nevertheless, interpretations of their evolutionary relationships have been in flux for over a decade. Rece...

Full description

Bibliographic Details
Main Authors: Hironobu Fukami, Chaolun Allen Chen, Ann F Budd, Allen Collins, Carden Wallace, Yao-Yang Chuang, Chienhsun Chen, Chang-Feng Dai, Kenji Iwao, Charles Sheppard, Nancy Knowlton
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2008-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC2528942?pdf=render
id doaj-04c220ba2f364afab3b62234319b0315
record_format Article
spelling doaj-04c220ba2f364afab3b62234319b03152020-11-24T21:51:14ZengPublic Library of Science (PLoS)PLoS ONE1932-62032008-01-0139e322210.1371/journal.pone.0003222Mitochondrial and nuclear genes suggest that stony corals are monophyletic but most families of stony corals are not (Order Scleractinia, Class Anthozoa, Phylum Cnidaria).Hironobu FukamiChaolun Allen ChenAnn F BuddAllen CollinsCarden WallaceYao-Yang ChuangChienhsun ChenChang-Feng DaiKenji IwaoCharles SheppardNancy KnowltonModern hard corals (Class Hexacorallia; Order Scleractinia) are widely studied because of their fundamental role in reef building and their superb fossil record extending back to the Triassic. Nevertheless, interpretations of their evolutionary relationships have been in flux for over a decade. Recent analyses undermine the legitimacy of traditional suborders, families and genera, and suggest that a non-skeletal sister clade (Order Corallimorpharia) might be imbedded within the stony corals. However, these studies either sampled a relatively limited array of taxa or assembled trees from heterogeneous data sets. Here we provide a more comprehensive analysis of Scleractinia (127 species, 75 genera, 17 families) and various outgroups, based on two mitochondrial genes (cytochrome oxidase I, cytochrome b), with analyses of nuclear genes (ss-tubulin, ribosomal DNA) of a subset of taxa to test unexpected relationships. Eleven of 16 families were found to be polyphyletic. Strikingly, over one third of all families as conventionally defined contain representatives from the highly divergent "robust" and "complex" clades. However, the recent suggestion that corallimorpharians are true corals that have lost their skeletons was not upheld. Relationships were supported not only by mitochondrial and nuclear genes, but also often by morphological characters which had been ignored or never noted previously. The concordance of molecular characters and more carefully examined morphological characters suggests a future of greater taxonomic stability, as well as the potential to trace the evolutionary history of this ecologically important group using fossils.http://europepmc.org/articles/PMC2528942?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Hironobu Fukami
Chaolun Allen Chen
Ann F Budd
Allen Collins
Carden Wallace
Yao-Yang Chuang
Chienhsun Chen
Chang-Feng Dai
Kenji Iwao
Charles Sheppard
Nancy Knowlton
spellingShingle Hironobu Fukami
Chaolun Allen Chen
Ann F Budd
Allen Collins
Carden Wallace
Yao-Yang Chuang
Chienhsun Chen
Chang-Feng Dai
Kenji Iwao
Charles Sheppard
Nancy Knowlton
Mitochondrial and nuclear genes suggest that stony corals are monophyletic but most families of stony corals are not (Order Scleractinia, Class Anthozoa, Phylum Cnidaria).
PLoS ONE
author_facet Hironobu Fukami
Chaolun Allen Chen
Ann F Budd
Allen Collins
Carden Wallace
Yao-Yang Chuang
Chienhsun Chen
Chang-Feng Dai
Kenji Iwao
Charles Sheppard
Nancy Knowlton
author_sort Hironobu Fukami
title Mitochondrial and nuclear genes suggest that stony corals are monophyletic but most families of stony corals are not (Order Scleractinia, Class Anthozoa, Phylum Cnidaria).
title_short Mitochondrial and nuclear genes suggest that stony corals are monophyletic but most families of stony corals are not (Order Scleractinia, Class Anthozoa, Phylum Cnidaria).
title_full Mitochondrial and nuclear genes suggest that stony corals are monophyletic but most families of stony corals are not (Order Scleractinia, Class Anthozoa, Phylum Cnidaria).
title_fullStr Mitochondrial and nuclear genes suggest that stony corals are monophyletic but most families of stony corals are not (Order Scleractinia, Class Anthozoa, Phylum Cnidaria).
title_full_unstemmed Mitochondrial and nuclear genes suggest that stony corals are monophyletic but most families of stony corals are not (Order Scleractinia, Class Anthozoa, Phylum Cnidaria).
title_sort mitochondrial and nuclear genes suggest that stony corals are monophyletic but most families of stony corals are not (order scleractinia, class anthozoa, phylum cnidaria).
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2008-01-01
description Modern hard corals (Class Hexacorallia; Order Scleractinia) are widely studied because of their fundamental role in reef building and their superb fossil record extending back to the Triassic. Nevertheless, interpretations of their evolutionary relationships have been in flux for over a decade. Recent analyses undermine the legitimacy of traditional suborders, families and genera, and suggest that a non-skeletal sister clade (Order Corallimorpharia) might be imbedded within the stony corals. However, these studies either sampled a relatively limited array of taxa or assembled trees from heterogeneous data sets. Here we provide a more comprehensive analysis of Scleractinia (127 species, 75 genera, 17 families) and various outgroups, based on two mitochondrial genes (cytochrome oxidase I, cytochrome b), with analyses of nuclear genes (ss-tubulin, ribosomal DNA) of a subset of taxa to test unexpected relationships. Eleven of 16 families were found to be polyphyletic. Strikingly, over one third of all families as conventionally defined contain representatives from the highly divergent "robust" and "complex" clades. However, the recent suggestion that corallimorpharians are true corals that have lost their skeletons was not upheld. Relationships were supported not only by mitochondrial and nuclear genes, but also often by morphological characters which had been ignored or never noted previously. The concordance of molecular characters and more carefully examined morphological characters suggests a future of greater taxonomic stability, as well as the potential to trace the evolutionary history of this ecologically important group using fossils.
url http://europepmc.org/articles/PMC2528942?pdf=render
work_keys_str_mv AT hironobufukami mitochondrialandnucleargenessuggestthatstonycoralsaremonophyleticbutmostfamiliesofstonycoralsarenotorderscleractiniaclassanthozoaphylumcnidaria
AT chaolunallenchen mitochondrialandnucleargenessuggestthatstonycoralsaremonophyleticbutmostfamiliesofstonycoralsarenotorderscleractiniaclassanthozoaphylumcnidaria
AT annfbudd mitochondrialandnucleargenessuggestthatstonycoralsaremonophyleticbutmostfamiliesofstonycoralsarenotorderscleractiniaclassanthozoaphylumcnidaria
AT allencollins mitochondrialandnucleargenessuggestthatstonycoralsaremonophyleticbutmostfamiliesofstonycoralsarenotorderscleractiniaclassanthozoaphylumcnidaria
AT cardenwallace mitochondrialandnucleargenessuggestthatstonycoralsaremonophyleticbutmostfamiliesofstonycoralsarenotorderscleractiniaclassanthozoaphylumcnidaria
AT yaoyangchuang mitochondrialandnucleargenessuggestthatstonycoralsaremonophyleticbutmostfamiliesofstonycoralsarenotorderscleractiniaclassanthozoaphylumcnidaria
AT chienhsunchen mitochondrialandnucleargenessuggestthatstonycoralsaremonophyleticbutmostfamiliesofstonycoralsarenotorderscleractiniaclassanthozoaphylumcnidaria
AT changfengdai mitochondrialandnucleargenessuggestthatstonycoralsaremonophyleticbutmostfamiliesofstonycoralsarenotorderscleractiniaclassanthozoaphylumcnidaria
AT kenjiiwao mitochondrialandnucleargenessuggestthatstonycoralsaremonophyleticbutmostfamiliesofstonycoralsarenotorderscleractiniaclassanthozoaphylumcnidaria
AT charlessheppard mitochondrialandnucleargenessuggestthatstonycoralsaremonophyleticbutmostfamiliesofstonycoralsarenotorderscleractiniaclassanthozoaphylumcnidaria
AT nancyknowlton mitochondrialandnucleargenessuggestthatstonycoralsaremonophyleticbutmostfamiliesofstonycoralsarenotorderscleractiniaclassanthozoaphylumcnidaria
_version_ 1725879772566781952

Similar Items