Weighted ASTRID: fast and accurate species trees from weighted internode distances

Liu, Baqiao; Warnow, Tandy

doi:10.1186/s13015-023-00230-6

Cited by 3 publications

(2 citation statements)

References 78 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…After all, the published ML concatenation topologies were known to include most reliable clades and it was very unlikely that our reanalyses using ML concatenation would yield trees that differed from those in Jarvis et al (2014) in fundamental ways. The Jarvis datasets were also used in the papers describing wASTRAL and wASTRID (Zhang and Mirarab, 2022; Liu and Warnow, 2023), so there was already evidence that those methods can recover many reliable clades (although neither of those studies analyzed UCEs or introns separately). Thus, the primary questions we could ask using the Jarvis datasets was whether SVDquartets and/or METAL would exhibit good performance.…”

Section: Discussionmentioning

confidence: 99%

“…We also used IQ-TREE to generate ML estimates of gene trees for summary coalescent analyses; as above, we used the -m TEST option to identify the best-fitting model and we used the parametric approximate likelihood ratio test (the -alrt 0 option) (Anisimova and Gascuel, 2006) to assess branch support in the gene trees. The gene trees with support values were used as input for the weighted versions of ASTRAL (wASTRAL, Zhang and Mirarab, 2022) and ASTRID (wASTRID, Liu and Warnow, 2023). We assessed support in wASTRAL using the local posterior probabilities (Sayyari and Mirarab, 2016) generated by that program.…”

Section: Phylogenetic Analysesmentioning

confidence: 99%

See 1 more Smart Citation

Testing the mettle of METAL: A comparison of phylogenomic methods using a challenging but well-resolved phylogeny

Braun,

Oliveros,

White Carreiro

et al. 2024

Preprint

View full text Add to dashboard Cite

The evolutionary histories of different genomic regions typically differ from each other and from the underlying species phylogeny. This makes species tree estimation challenging. Here, we examine the performance of phylogenomic methods using a well-resolved phylogeny that nevertheless contains many difficult nodes, the species tree of living birds. We compared trees generated by maximum likelihood (ML) analysis of concatenated data, gene tree summary methods, and SVDquartets. We also conduct the first empirical test of a “new” method called METAL (Metric algorithm for Estimation ofTrees based onAggregation of Loci), which is based on evolutionary distances calculated using concatenated data. We conducted this test using a novel dataset comprising more than 4,000 ultra-conserved element (UCE) loci from almost all bird families and two existing UCE and intron datasets sampled from almost all avian orders. We identified “reliable clades” very likely to be present in the true avian species tree and used them to assess method performance. ML analyses of concatenated data recovered almost all reliable clades with less data and greater robustness to missing data than other methods. METAL recovered many reliable clades, but only performed well with the largest datasets. Gene tree summary methods (weighted ASTRAL and weighted ASTRID) performed well; they required less data than METAL but more data than ML concatenation. SVDquartets exhibited the worst performance of the methods tested. In addition to the methodological insights, this study provides a novel estimate of avian phylogeny with almost 99% of the currently recognized avian families. Only one of the 181 reliable clades we examined was consistently resolved differently by ML concatenation versus other methods, suggesting that it may be possible to achieve consensus on the deep phylogeny of extant birds.

show abstract

Section: Discussionmentioning

confidence: 99%

Section: Phylogenetic Analysesmentioning

confidence: 99%

Testing the mettle of METAL: A comparison of phylogenomic methods using a challenging but well-resolved phylogeny

Braun,

Oliveros,

White Carreiro

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

A molecular phylogeny of the Petaluridae (Odonata: Anisoptera): A 160-Million-Year-Old story of drift and extinction

Tolman,

Beatty,

Kohli

et al. 2024

Molecular Phylogenetics and Evolution

View full text Add to dashboard Cite

Integrating Phylogenies with Chronology to Assemble the Tree of Life

Barba-Montoya,

Craig,

Kumar

2024

Preprint

View full text Add to dashboard Cite

Reconstructing the global Tree of Life necessitates computational approaches to integrate numerous molecular phylogenies with limited species overlap into a comprehensive supertree. Our survey of published literature shows that individual phylogenies are frequently restricted to specific taxonomic groups due to the expertise of investigators and molecular evolutionary considerations, resulting in any given species present in a minuscule fraction of phylogenies. We present a novel approach, called the chronological supertree algorithm (Chrono-STA), that can build a supertree of species from such data by using node ages in published molecular phylogenies scaled to time. Chrono-STA builds a supertree of organisms by integrating chronological data from molecular timetrees. It fundamentally differs from existing approaches that generate consensus phylogenies from gene trees with missing taxa, as Chrono-STA does not impute nodal distances, use a guide tree as a backbone, or reduce phylogenies to quartets. Analyses of simulated and empirical datasets show that Chrono-STA can combine taxonomically restricted timetrees with extremely limited species overlap. For such data, approaches that impute missing distances or assemble phylogenetic quartets did not perform well. We conclude that integrating phylogenies via temporal dimension enhances the accuracy of reconstructed supertrees that are also scaled to time.

show abstract

Weighted ASTRID: fast and accurate species trees from weighted internode distances

Cited by 3 publications

References 78 publications

Testing the mettle of METAL: A comparison of phylogenomic methods using a challenging but well-resolved phylogeny

Testing the mettle of METAL: A comparison of phylogenomic methods using a challenging but well-resolved phylogeny

A molecular phylogeny of the Petaluridae (Odonata: Anisoptera): A 160-Million-Year-Old story of drift and extinction

Integrating Phylogenies with Chronology to Assemble the Tree of Life

Contact Info

Product

Resources

About