Phylogenetic Comparative Methods: A User's Guide for Paleontologists

Soul, Laura C.; Wright, David F.

doi:10.1017/9781108894142

Cited by 13 publications

(13 citation statements)

References 133 publications

(94 reference statements)

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“…The low posterior support of nodes (i.e., highly variable topology) is not uncommon in empirical datasets (O'Reilly and Donoghue 2018; Barido-Sottani et al 2020), and the tree topology and divergence times affect the results of phylogenetic comparative analysis (Bapst 2014; Bapst and Hopkins 2017). However, the downstream comparative analyses are not impossible if multiple trees, rather than a single point estimate of phylogeny, are analyzed (Wright et al 2015; Bapst et al 2016; Soul and Wright 2021).…”

Section: Discussionmentioning

confidence: 99%

“…In this study, many nodes recovered by the MCC tree are not well supported (see "Results"). To avoid utilizing the MCC tree as the only input in the following analysis, multiple posterior trees were also analyzed to account for the uncertainty of the tree topology and divergence times (Wright et al 2015(Wright et al , 2021Bapst et al 2016;Soul and Wright 2021).…”

Section: Tip-dated Bayesian Inference Analysesmentioning

confidence: 99%

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Permian–Triassic phylogenetic and morphologic evolution of rhynchonellide brachiopods

Guo¹,

Chen²,

Harper³

et al. 2021

Paleobiology

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The Rhynchonellida is a major group of brachiopods that survived the “big five” mass extinctions and flourished after the Permian/Triassic (P/Tr) crisis. However, phylogenetic and character evolution in the Rhynchonellida across the P/Tr transition is poorly understood. In view of the widespread homoplasy across this order, we employ a tip-dated Bayesian analysis to reconstruct phylogenetic relationships for late Permian–Triassic rhynchonellides. The same data were also analyzed using three other methods: undated Bayesian, equal-weighting, and implied-weighting parsimony. Compared with trees generated by other methods, those constructed by tip-dating best account for the homoplasy in this group and are closer to previous assumptions on the evolution of this order. Based on the analyses of multiple trees, the major increase in lineage richness occurred in the Early and early Middle Triassic. Also, richness in the Anisian almost reached the highest level seen in the Triassic. According to fossil records, a pronounced reduction in shell size and in the development of ornamentation occurred after the P/Tr extinction, which is largely due to the loss of large and highly sculptured genera and the diversification of small-sized and weakly ornamented genera. Ancestral-state estimation of shell size and development of ornamentation, coupled with comparisons of other characters, indicate that the Early–Middle Triassic mature “small-sized taxa” may have characters displayed by juveniles of their ancestors. This suggests that for these genera, paedomorphosis was possibly a strategy to survive and diversify in the harsh environment after the P/Tr extinction.

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Section: Discussionmentioning

confidence: 99%

Section: Tip-dated Bayesian Inference Analysesmentioning

confidence: 99%

Permian–Triassic phylogenetic and morphologic evolution of rhynchonellide brachiopods

Guo¹,

Chen²,

Harper³

et al. 2021

Paleobiology

View full text Add to dashboard Cite

show abstract

“…The remaining fossil taxa in our dataset with age ranges determined from published literature (Dataset in Dryad) and the Paleobiology Database ( https://www.paleobiodb.org ) were incorporated into this MCC tree based on a recent cladogram ( Jia et al, 2021a : Figure 6) we constructed for living and fossil cryptobranchoids ( Figure 1D ). Adding fossil taxa increases the accuracy for multivariate phylogenetic comparative analyses and ancestral state reconstruction (see below; Soul and Wright, 2021 ), but will inevitably bring zero-length branches when the age of internal nodes was considered equal to that of its immediate oldest descendant, resulting in difficulties in multivariate phylogenetic comparative analyses. To circumvent this problem, any zero-length branch in the cladogram was treated to have a same branch length with its first none zero-length ancestral branch by using the ‘equal’ dating method in the ‘DatePhylo’ function from the R package ‘strap’ (version 1.4; Bell et al, 2015 ).…”

Section: Methodsmentioning

confidence: 99%

Palatal morphology predicts the paleobiology of early salamanders

Jia

Gao

2022

eLife

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Ecological preferences and life history strategies have enormous impacts on the evolution and phenotypic diversity of salamanders, but the yet established reliable ecological indicators from bony skeletons hinder investigations into the paleobiology of early salamanders. Here we statistically demonstrate, by using time-calibrated cladograms and geometric morphometric analysis on 71 specimens in 36 species, that both the shape of the palate and many non-shape covariates particularly associated with vomerine teeth are ecologically informative in early stem- and basal crown-group salamanders. Disparity patterns within the morphospace of the palate in ecological preferences, life history strategies and taxonomic affiliations were analyzed in detail, and evolutionary rates and ancestral states of the palate were reconstructed. Our results show that the palate is heavily impacted by convergence constrained by feeding mechanisms and also exhibits clear stepwise evolutionary patterns with alternative phenotypic configurations to cope with similar functional demand. Salamanders are diversified ecologically before the Middle Jurassic and achieved all their present ecological preferences in the Early Cretaceous. Our results reveal that the last common ancestor of all salamanders shares with other modern amphibians a unified biphasic ecological preference, and metamorphosis is significant in the expansion of ecomorphospace of the palate in early salamanders.

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“…6) we constructed for living and fossil cryptobranchoids (Figure 1D). Adding fossil taxa increases the accuracy for multivariate phylogenetic comparative analyses and ancestral state reconstruction (see below; Soul and Wright, 2021), but will inevitably bring zero-length branches when the age of internal nodes 25 was considered equal to that of its immediate oldest descendant, resulting in difficulties in multivariate phylogenetic comparative analyses. To circumvent this problem, any zero-length branch in the cladogram was treated to have a same branch length with its first none zero-length ancestral branch by using the "equal" dating method in the "DatePhylo" function from the R package 'strap' (version 1.4; Bell and Lloyd, 2015).…”

Section: Methodsmentioning

confidence: 99%

Palatal morphology predicts the paleobiology of early salamanders

Jia

Gao

2022

Preprint

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Ecological preferences and life history strategies have enormous impacts on the evolution and phenotypic diversity of salamanders, but the yet established reliable ecological indicators hinder investigations on the paleobiology of early salamanders. Here we statistically demonstrate using geometric morphometric analysis that both the shape of the palate and many non-shape variables particularly associated with vomerine teeth are ecologically informative in early stem- and basal crown-group salamanders. The morphology of the palate is heavily impacted by convergence constrained by feeding mechanisms and also exhibits clear stepwise evolutionary patterns with alternative phenotypic designs to cope with similar functional demand. Paleoecological disparities in early salamanders had took place before the Middle Jurassic and have achieved all ecological preferences in the Early Cretaceous. Metamorphosis is significant in the expansion of ecomorphospace of the palate in early salamanders. The common ancestor of salamanders is metamorphosed and terrestrial, and share unified lifestyles with other modern amphibians.

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Phylogenetic Comparative Methods: A User's Guide for Paleontologists

Cited by 13 publications

References 133 publications

Permian–Triassic phylogenetic and morphologic evolution of rhynchonellide brachiopods

Permian–Triassic phylogenetic and morphologic evolution of rhynchonellide brachiopods

Palatal morphology predicts the paleobiology of early salamanders

Palatal morphology predicts the paleobiology of early salamanders

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