Integrative taxonomic analyses reveal that rapid genetic divergence drives Acropora speciation

[Display omitted] •Speciation of the tabular Acropora species does not involve hybridization.•The four tabular coral Acropora species are morphologically similar but distinctive.•Many coding sequences (CDs) and non-coding RNA were found at loci with high FST values in the tabular Acropora.•The adapt...

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Published inMolecular phylogenetics and evolution Vol. 195; p. 108063
Main Authors Furukawa, Mao, Kitanobo, Seiya, Ohki, Shun, Teramoto, Mariko M., Hanahara, Nozomi, Morita, Masaya
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.06.2024
Subjects
Acropora
climate
coral reefs
Gamete incompatibility
genetic variance
genetic variation
genome
genus
Introgression
non-coding RNA
phylogeny
Pleistocene epoch
population structure
Positive selection
Reproductive isolation
sea level
Speciation
species
Reproductive isolation
Acropora
Introgression
Positive selection
Speciation
Gamete incompatibility
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Abstract [Display omitted] •Speciation of the tabular Acropora species does not involve hybridization.•The four tabular coral Acropora species are morphologically similar but distinctive.•Many coding sequences (CDs) and non-coding RNA were found at loci with high FST values in the tabular Acropora.•The adaptive evolution of these CDs is supported in the tabular Acropora.•Rapid gene evolution is potentially associated with rapid Acropora speciation. Reef-building corals provide the structural basis for one of Earth's most spectacular and diverse but increasingly threatened ecosystems. The reef-building coral genus Acropora may have undergone substantial speciation during the Pleistocene climate and sea-level changes. Here, we aimed to evaluate the speciation history of four morphologically similar tabular Acropora species (Acropora aff. hyacinthus, A. cf. bifurcata, A. cf. cytherea, and A. cf. subulata) using an integrative approach with morphology, genetic, and reproduction methodology. Extensive morphological analyses showed that these four species are distinct and exhibited high gamete incompatibility, preventing hybridization. Furthermore, population structure and principal component analyses with SNPs (>60,000) indicated that these species were genetically distinct, and the ABBA-BABA test did not support introgression among these species. Many of their coding and noncoding RNA sequences showed high genetic variance at loci with high Fst values along the genome. Comparison of these orthologs with those of other Acropora species suggested that many of these genes are under positive selection, which could be associated with spawning time, gamete, and morphological divergence. Our findings show that the speciation of tabular Acropora occurred without hybridization, and the divergence accompanying the rapid evolution of genes in species-rich Acropora could be associated with speciation.
AbstractList Reef-building corals provide the structural basis for one of Earth's most spectacular and diverse but increasingly threatened ecosystems. The reef-building coral genus Acropora may have undergone substantial speciation during the Pleistocene climate and sea-level changes. Here, we aimed to evaluate the speciation history of four morphologically similar tabular Acropora species (Acropora aff. hyacinthus, A. cf. bifurcata, A. cf. cytherea, and A. cf. subulata) using an integrative approach with morphology, genetic, and reproduction methodology. Extensive morphological analyses showed that these four species are distinct and exhibited high gamete incompatibility, preventing hybridization. Furthermore, population structure and principal component analyses with SNPs (>60,000) indicated that these species were genetically distinct, and the ABBA-BABA test did not support introgression among these species. Many of their coding and noncoding RNA sequences showed high genetic variance at loci with high Fst values along the genome. Comparison of these orthologs with those of other Acropora species suggested that many of these genes are under positive selection, which could be associated with spawning time, gamete, and morphological divergence. Our findings show that the speciation of tabular Acropora occurred without hybridization, and the divergence accompanying the rapid evolution of genes in species-rich Acropora could be associated with speciation.
Reef-building corals provide the structural basis for one of Earth's most spectacular and diverse but increasingly threatened ecosystems. The reef-building coral genus Acropora may have undergone substantial speciation during the Pleistocene climate and sea-level changes. Here, we aimed to evaluate the speciation history of four morphologically similar tabular Acropora species (Acropora aff. hyacinthus, A. cf. bifurcata, A. cf. cytherea, and A. cf. subulata) using an integrative approach with morphology, genetic, and reproduction methodology. Extensive morphological analyses showed that these four species are distinct and exhibited high gamete incompatibility, preventing hybridization. Furthermore, population structure and principal component analyses with SNPs (>60,000) indicated that these species were genetically distinct, and the ABBA-BABA test did not support introgression among these species. Many of their coding and noncoding RNA sequences showed high genetic variance at loci with high Fst values along the genome. Comparison of these orthologs with those of other Acropora species suggested that many of these genes are under positive selection, which could be associated with spawning time, gamete, and morphological divergence. Our findings show that the speciation of tabular Acropora occurred without hybridization, and the divergence accompanying the rapid evolution of genes in species-rich Acropora could be associated with speciation.Reef-building corals provide the structural basis for one of Earth's most spectacular and diverse but increasingly threatened ecosystems. The reef-building coral genus Acropora may have undergone substantial speciation during the Pleistocene climate and sea-level changes. Here, we aimed to evaluate the speciation history of four morphologically similar tabular Acropora species (Acropora aff. hyacinthus, A. cf. bifurcata, A. cf. cytherea, and A. cf. subulata) using an integrative approach with morphology, genetic, and reproduction methodology. Extensive morphological analyses showed that these four species are distinct and exhibited high gamete incompatibility, preventing hybridization. Furthermore, population structure and principal component analyses with SNPs (>60,000) indicated that these species were genetically distinct, and the ABBA-BABA test did not support introgression among these species. Many of their coding and noncoding RNA sequences showed high genetic variance at loci with high Fst values along the genome. Comparison of these orthologs with those of other Acropora species suggested that many of these genes are under positive selection, which could be associated with spawning time, gamete, and morphological divergence. Our findings show that the speciation of tabular Acropora occurred without hybridization, and the divergence accompanying the rapid evolution of genes in species-rich Acropora could be associated with speciation.
[Display omitted] •Speciation of the tabular Acropora species does not involve hybridization.•The four tabular coral Acropora species are morphologically similar but distinctive.•Many coding sequences (CDs) and non-coding RNA were found at loci with high FST values in the tabular Acropora.•The adaptive evolution of these CDs is supported in the tabular Acropora.•Rapid gene evolution is potentially associated with rapid Acropora speciation. Reef-building corals provide the structural basis for one of Earth's most spectacular and diverse but increasingly threatened ecosystems. The reef-building coral genus Acropora may have undergone substantial speciation during the Pleistocene climate and sea-level changes. Here, we aimed to evaluate the speciation history of four morphologically similar tabular Acropora species (Acropora aff. hyacinthus, A. cf. bifurcata, A. cf. cytherea, and A. cf. subulata) using an integrative approach with morphology, genetic, and reproduction methodology. Extensive morphological analyses showed that these four species are distinct and exhibited high gamete incompatibility, preventing hybridization. Furthermore, population structure and principal component analyses with SNPs (>60,000) indicated that these species were genetically distinct, and the ABBA-BABA test did not support introgression among these species. Many of their coding and noncoding RNA sequences showed high genetic variance at loci with high Fst values along the genome. Comparison of these orthologs with those of other Acropora species suggested that many of these genes are under positive selection, which could be associated with spawning time, gamete, and morphological divergence. Our findings show that the speciation of tabular Acropora occurred without hybridization, and the divergence accompanying the rapid evolution of genes in species-rich Acropora could be associated with speciation.
ArticleNumber 108063
Author Hanahara, Nozomi
Ohki, Shun
Teramoto, Mariko M.
Morita, Masaya
Kitanobo, Seiya
Furukawa, Mao
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Keywords Reproductive isolation
Acropora
Introgression
Positive selection
Speciation
Gamete incompatibility
Language English
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Snippet [Display omitted] •Speciation of the tabular Acropora species does not involve hybridization.•The four tabular coral Acropora species are morphologically...
Reef-building corals provide the structural basis for one of Earth's most spectacular and diverse but increasingly threatened ecosystems. The reef-building...
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SubjectTerms Acropora
climate
coral reefs
Gamete incompatibility
genetic variance
genetic variation
genome
genus
Introgression
non-coding RNA
phylogeny
Pleistocene epoch
population structure
Positive selection
Reproductive isolation
sea level
Speciation
species
Title Integrative taxonomic analyses reveal that rapid genetic divergence drives Acropora speciation
URI https://dx.doi.org/10.1016/j.ympev.2024.108063
https://www.ncbi.nlm.nih.gov/pubmed/38493988
https://www.proquest.com/docview/2967060140
https://www.proquest.com/docview/3153706941
Volume 195
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