Phylogenomics of manakins (Aves: Pipridae) using alternative locus filtering strategies based on informativeness

[Display omitted] •Target capture of UCEs and exons were used to estimate the phylogeny of manakins.•The exon data showed topological differences but limited support compared to UCEs.•UCE data sets provided high support for most relationships under distinct methods.•Two genera (Chiroxiphia and Neope...

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Published in:Molecular phylogenetics and evolution 2021-02, Vol.155, p.107013-107013, Article 107013
Main Authors: Leite, Rafael N., Kimball, Rebecca T., Braun, Edward L., Derryberry, Elizabeth P., Hosner, Peter A., Derryberry, Graham E., Anciães, Marina, McKay, Jessica S., Aleixo, Alexandre, Ribas, Camila C., Brumfield, Robb T., Cracraft, Joel
Format: Article
Language:English
Subjects:
Animals
Base Sequence
Concatenation
Exon probes
Exons - genetics
Genetic Loci
Informative loci
Likelihood Functions
Multispecies coalescent
Passeriformes - classification
Passeriformes - genetics
Phylogeny
Species Specificity
Tyrannides
Ultraconserved elements
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Summary:[Display omitted] •Target capture of UCEs and exons were used to estimate the phylogeny of manakins.•The exon data showed topological differences but limited support compared to UCEs.•UCE data sets provided high support for most relationships under distinct methods.•Two genera (Chiroxiphia and Neopelma) were paraphyletic across all analyses.•Filtering loci by informative sites did not improve poorly supported relationships. Target capture sequencing effectively generates molecular marker arrays useful for molecular systematics. These extensive data sets are advantageous where previous studies using a few loci have failed to resolve relationships confidently. Moreover, target capture is well-suited to fragmented source DNA, allowing data collection from species that lack fresh tissues. Herein we use target capture to generate data for a phylogeny of the avian family Pipridae (manakins), a group that has been the subject of many behavioral and ecological studies. Most manakin species feature lek mating systems, where males exhibit complex behavioral displays including mechanical and vocal sounds, coordinated movements of multiple males, and high speed movements. We analyzed thousands of ultraconserved element (UCE) loci along with a smaller number of coding exons and their flanking regions from all but one species of Pipridae. We examined three different methods of phylogenetic estimation (concatenation and two multispecies coalescent methods). Phylogenetic inferences using UCE data yielded strongly supported estimates of phylogeny regardless of analytical method. Exon probes had limited capability to capture sequence data and resulted in phylogeny estimates with reduced support and modest topological differences relative to the UCE trees, although these conflicts had limited support. Two genera were paraphyletic among all analyses and data sets, with Antilophia nested within Chiroxiphia and Tyranneutes nested within Neopelma. The Chiroxiphia–Antilophia clade was an exception to the generally high support we observed; the topology of this clade differed among analyses, even those based on UCE data. To further explore relationships within this group, we employed two filtering strategies to remove low-information loci. Those analyses resulted in distinct topologies, suggesting that the relationships we identified within Chiroxiphia–Antilophia should be interpreted with caution. Despite the existence of a few continuing uncertainties, our analyses resulted in a
ISSN:1055-7903
1095-9513
DOI:10.1016/j.ympev.2020.107013