Data Types and the Phylogeny of Neoaves

Braun, Edward L.; Kimball, Rebecca T.

doi:10.20944/preprints202011.0423.v1

Cited by 9 publications

(30 citation statements)

References 59 publications

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“…For example, when the ∑Δln L criterion is used, VI + VII as the earliest Neoavian branch received much higher support in analyses of non-coding data, especially introns, than it did in analyses of coding data (10.9% for introns, 7.4% for UCEs, and 2% for exons). These results agree with the data type effects reported by Reddy et al (2017) and by Braun and Kimball (2021), although the differences among data types also appear to be more complex than the results suggested before.…”

Section: Resultssupporting

confidence: 91%

“…Fundamentally, there are only two ways to examine conflict using the concatenated approach. First, one can subdivide data based on some criterion, such as coding vs. non-coding data (e.g., Jarvis et al 2014, Reddy et al 2017; Braun and Kimball 2021) or protein structure (e.g., Pandey and Braun 2020; Gordon et al 2021), and conduct concatenated tree searches on the data subsets. Second, one can examine differences in the tree selection criterion (typically the likelihood) for various topologies at the level of the genes (Shen et al 2017) or the individual site level (Kimball et al 2013).…”

Section: Resultsmentioning

confidence: 99%

“…In contrast, the position of the Hoatzin has been even more variable across studies (e.g., Reddy et al 2017) and its position does not exhibit an obvious correlation with data type. Due to biased base composition and high GC content variation (hereafter GCCV), exons received the most criticism for model violation and impact on phylogenetic reconstruction (Jarvis et al 2014; Reddy et al 2017; Braun and Kimball 2021). Using models that incorporate base compositional heterogeneity (e.g., Galtier and Gouy 1998; Morgan et al 2013) might improve analyses, but dramatic incongruence among gene trees is often observed within data types (e.g., Jarvis et al 2014) so the available models that incorporate base compositional heterogeneity are unlikely to eliminate incongruence among exonic trees.…”

Section: Introductionmentioning

confidence: 99%

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Categorical edge-based analyses of phylogenomic data reveal conflicting signals for difficult relationships in the avian tree

Wang

Liang

et al. 2021

Preprint

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Phylogenetic analyses of large-scale datasets sometimes fail to yield a satisfactory resolution of the relationships among taxa for a number of nodes in the tree of life. This has even been true for genome-scale datasets, where the failure to resolve relationships is unlikely to reflect limitations in the amount of data. Gene tree conflicts are particularly notable in studies focused on these contentious nodes in the tree of life, and taxon sampling, different analytical methods, and/or data-type effects are thought to further confound analyses. Observed conflicts among gene trees arise from both biological processes and artefactual sources of noise in analyses. Although many efforts have been made to incorporate biological conflicts, few studies have curated individual genes for their efficiency in phylogenomic studies. Here, we conduct an edge-based analysis of Neoavian evolution, examining the phylogenetic efficacy of two recent phylogenomic bird datasets and three datatypes (ultraconserved elements [UCEs], introns, and coding regions). We assess the potential causes for biases in signal-resolution for three difficult nodes: the earliest divergence of Neoaves, the position of the enigmatic Hoatzin (Opisthocomus hoazin), and the position of owls (Strigidae). We observed extensive conflict among genes for all data types and datasets even after we removed potentially problematic loci. Edge-based analyses increased congruence and examined the impact of data type, GC content variation (GCCV), and outlier genes on analyses. These factors had different impact on each of nodes we examined. First, outlier gene signals appeared to drive different patterns of support for the relationships among the earliest diverging Neoaves. Second, the position of Hoatzin was highly variable, but we found that data type was correlated with the signals that support different placements of the Hoatzin. However, the resolution with the most support in our analyses was Hoatzin + shorebirds. Finally, GCCV, rather than data type (i.e., coding vs non-coding) per se, was correlated with an owl + Accipitriformes signal. Eliminating high GCCV loci increased the signal for an owl + mousebird relationship. Difficult edges (i.e., characterized by deep coalescence and high gene-tree estimation error) are hard to recover with all methods (including concatenation, multispecies coalescent, and edge-based analyses), whereas "easy" edges (e.g., flamingos + grebes) can be recovered without ambiguity. Thus, the nature of the edges, rather than the methods, is the limiting factor. Categorical edge-based analyses can reveal the nature of each edge and provide a way to highlight especially problematic branches that warrant further examination in future phylogenomic studies. We suggest that edge-based analyses provide a tool that can increase our understanding about the parts of the avian tree that remain unclear, even with large-scale data. In fact, our results emphasize that the conflicts associated with edges that remain contentious in the bird tree may be even greater than appreciated based on previous studies.

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Section: Resultssupporting

confidence: 91%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Categorical edge-based analyses of phylogenomic data reveal conflicting signals for difficult relationships in the avian tree

Wang

Liang

et al. 2021

Preprint

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“…However, the use of different data types in that study [ 11 ] still yield limited support for the weakly supported relationships found in this study. Incomplete lineage sorting and data-type effects (the topological differences associated with the use of different types of markers [ 44 , 45 ] may have caused the instability within this clade [ 13 , 46 ].…”

Section: Discussionmentioning

confidence: 99%

Divergence time estimation of Galliformes based on the best gene shopping scheme of ultraconserved elements

et al. 2021

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Background Divergence time estimation is fundamental to understanding many aspects of the evolution of organisms, such as character evolution, diversification, and biogeography. With the development of sequence technology, improved analytical methods, and knowledge of fossils for calibration, it is possible to obtain robust molecular dating results. However, while phylogenomic datasets show great promise in phylogenetic estimation, the best ways to leverage the large amounts of data for divergence time estimation has not been well explored. A potential solution is to focus on a subset of data for divergence time estimation, which can significantly reduce the computational burdens and avoid problems with data heterogeneity that may bias results. Results In this study, we obtained thousands of ultraconserved elements (UCEs) from 130 extant galliform taxa, including representatives of all genera, to determine the divergence times throughout galliform history. We tested the effects of different “gene shopping” schemes on divergence time estimation using a carefully, and previously validated, set of fossils. Our results found commonly used clock-like schemes may not be suitable for UCE dating (or other data types) where some loci have little information. We suggest use of partitioning (e.g., PartitionFinder) and selection of tree-like partitions may be good strategies to select a subset of data for divergence time estimation from UCEs. Our galliform time tree is largely consistent with other molecular clock studies of mitochondrial and nuclear loci. With our increased taxon sampling, a well-resolved topology, carefully vetted fossil calibrations, and suitable molecular dating methods, we obtained a high quality galliform time tree. Conclusions We provide a robust galliform backbone time tree that can be combined with more fossil records to further facilitate our understanding of the evolution of Galliformes and can be used as a resource for comparative and biogeographic studies in this group.

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“…Morphological data, by contrast, suggest a sister group relationship between the Caprimulgidae and the Nyctibiidae and recover both taxa as nested within Strisores (Mayr 2010). Whereas morphological data suggest that the Steatornithidae are the earliest branching taxon of the Strisores, most current molecular analyses support a sister group relationship between the Steatornithidae and Nyctibiidae (this topology is, however, sensitive to the data type analysed and is not recovered in analyses of non‐coding sequences; Braun & Kimball 2021).…”

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confidence: 77%

An early Eocene fossil from the British London Clay elucidates the evolutionary history of the enigmatic Archaeotrogonidae (Aves, Strisores)

Mayr

2021

Papers in Palaeontology

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Archaeotrogons have long been known from late Eocene and Oligocene localities in France, where limb bones are abundantly represented. The phylogenetic affinities of these birds, however, have remained elusive. Although archaeotrogons are now considered to be representatives of the Strisores, the clade including ‘caprimulgiform’ and apodiform birds, their exact position in this clade is unresolved. Here, a partial skeleton of a new species of the Archaeotrogonidae is described from the early Eocene London Clay of Walton‐on‐the‐Naze (Essex, UK). In addition, a new specimen of the archaeotrogon Hassiavis from the latest early or earliest middle Eocene of the Messel fossil site in Germany is reported, which is the best preserved skeleton of this species. Archaeodromus anglicus gen. et sp. nov. from the London Clay is the earliest archaeotrogon known to date, and the holotype shows previously unknown skeletal characteristics of archaeotrogons that bear on the phylogenetic affinities of these birds. The quadrate in particular exhibits a distinctive morphology and shows derived morphological characteristics of the Strisores. Although the primary analysis did not conclusively resolve the affinities of archaeotrogons, analyses constrained to a molecular scaffold resulted in a sister group relationship to the Caprimulgidae (nightjars). The evolutionary history of this most species‐rich group of nocturnal Strisores is virtually unknown, and recognition of archaeotrogons as archaic stem group representatives of the Caprimulgidae would fill a striking gap in the fossil record.

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Data Types and the Phylogeny of Neoaves

Cited by 9 publications

References 59 publications

Categorical edge-based analyses of phylogenomic data reveal conflicting signals for difficult relationships in the avian tree

Categorical edge-based analyses of phylogenomic data reveal conflicting signals for difficult relationships in the avian tree

Divergence time estimation of Galliformes based on the best gene shopping scheme of ultraconserved elements

An early Eocene fossil from the British London Clay elucidates the evolutionary history of the enigmatic Archaeotrogonidae (Aves, Strisores)

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