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Ant backbone phylogeny resolved by modelling compositional heterogeneity among sites in genomic data

Chenyang Cai

2024Communications Biology21 citationsDOIOpen Access PDF

Abstract

Ants are the most ubiquitous and ecologically dominant arthropods on Earth, and understanding their phylogeny is crucial for deciphering their character evolution, species diversification, and biogeography. Although recent genomic data have shown promise in clarifying intrafamilial relationships across the tree of ants, inconsistencies between molecular datasets have also emerged. Here I re-examine the most comprehensive published Sanger-sequencing and genome-scale datasets of ants using model comparison methods that model among-site compositional heterogeneity to understand the sources of conflict in phylogenetic studies. My results under the best-fitting model, selected on the basis of Bayesian cross-validation and posterior predictive model checking, identify contentious nodes in ant phylogeny whose resolution is modelling-dependent. I show that the Bayesian infinite mixture CAT model outperforms empirical finite mixture models (C20, C40 and C60) and that, under the best-fitting CAT-GTR + G4 model, the enigmatic Martialis heureka is sister to all ants except Leptanillinae, rejecting the more popular hypothesis supported under worse-fitting models, that place it as sister to Leptanillinae. These analyses resolve a lasting controversy in ant phylogeny and highlight the significance of model comparison and adequate modelling of among-site compositional heterogeneity in reconstructing the deep phylogeny of insects.

Topics & Concepts

PhylogeneticsEvolutionary biologyPhylogenetic treeBiologyPhylogenomicsBayesian probabilityCladeArtificial intelligenceComputer scienceGeneticsGeneInsect and Arachnid Ecology and BehaviorPlant and animal studiesAnimal Behavior and Reproduction
Ant backbone phylogeny resolved by modelling compositional heterogeneity among sites in genomic data | Litcius