2020
DOI: 10.1038/s41559-020-01291-1
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Palaeoclimate ocean conditions shaped the evolution of corals and their skeletons through deep time

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Cited by 122 publications
(151 citation statements)
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References 66 publications
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“…There are also a few inherent disadvantages to RAD‐Seq relative to sequence enrichment methods. These include a stark drop in orthologous loci that can be extracted from distantly related taxa (Cairou, Duret, & Charlat, 2013; Viricel, Pante, Dabin, & Simon‐Bouhet, 2013), limiting the ability of RAD‐Seq to resolve deep phylogenetic relationships (Harvey, Smith, Glenn, Faircloth, & Brumfield, 2016; but see Eaton, Spriggs, Park, & Donoghue, 2017), and rendering this method impractical for combining data sets of taxa that first diverged hundreds of millions of years ago (Stolarski et al., 2011; Quattrini et al, 2020).…”
Section: Introductionmentioning
confidence: 99%
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“…There are also a few inherent disadvantages to RAD‐Seq relative to sequence enrichment methods. These include a stark drop in orthologous loci that can be extracted from distantly related taxa (Cairou, Duret, & Charlat, 2013; Viricel, Pante, Dabin, & Simon‐Bouhet, 2013), limiting the ability of RAD‐Seq to resolve deep phylogenetic relationships (Harvey, Smith, Glenn, Faircloth, & Brumfield, 2016; but see Eaton, Spriggs, Park, & Donoghue, 2017), and rendering this method impractical for combining data sets of taxa that first diverged hundreds of millions of years ago (Stolarski et al., 2011; Quattrini et al, 2020).…”
Section: Introductionmentioning
confidence: 99%
“…Recently, Quattrini et al. (2018) and Quattrini et al (2020) demonstrated that UCEs and exons can resolve deeper‐level phylogenetic relationships within the class Anthozoa, and Quek, Jain, Neo, Rouse, and Huang (2020) applied a similar transcriptome‐based target‐enrichment approach to resolve genera of scleractinian corals. However, because highly divergent and phylogenetically informative regions flank both UCE and exon loci (Faircloth et al., 2012; Wolf et al., 2018), they have the potential to resolve phylogenetic relationships at shallow evolutionary scales as well.…”
Section: Introductionmentioning
confidence: 99%
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“…www.nature.com/scientificreports/ Despite its crucial relevance for improving our understanding of the deep evolutionary patterns in Scleractinia, phylogenetic analyses have been based on limited data from a few partial genes (majoritarily cox1, 16S rDNA, 18S rDNA and 28S rDNA [14][15][16] ). Only recently, using 933 loci (278,819 bp) captured with a targetedenrichment approach, Quattrini et al 17 recovered the family Micrabaciidae as the first diverging lineage within "Robust" corals. Nevertheless, they lack representatives of Gardineriidae or other exclusively deep-water azooxanthellate families, such as Deltocyathidae and Anthemiphylliidae.…”
Section: Discussionmentioning
confidence: 99%
“…In contrast to widely accepted Triassic emergence of Scleractinia, divergence of the earliest scleractinian clade with extant representatives (families Micrabaciidae and Gardineriidae) was suggested to have occurred between the Ordovician and Silurian, around 425 million years ago (mya) 14 , or in the Silurian, 407 mya 16 . Although recovering a slightly later onset, a recent study by Quattrini and collaborators 17 has also pointed to a Paleozoic origin for the order. Composed of exclusively azooxanthellate taxa 18 , representatives of Micrabaciidae share some morphological skeletal characters (septal bifurcations) with the Ordovician Kilbuchophylliidae (~ 460 mya), but otherwise represent a morphologically unique coral group 19 .…”
mentioning
confidence: 93%