A Paleogene origin for crown passerines and the diversification of the Oscines in the New World

- The origin of passerines was dated at the Paleogene, much younger than the usual estimates.
- Our timetree agrees with key geological events that took place in the Cenozoic.
- The core split in Suboscines links to a South American-African chain of islands break.
- Timing and feeding habits have influenced the history of Oscines in the Americas.

In this study, we present a detailed family-level phylogenetic hypothesis for the largest avian order (Aves: Passeriformes) and an unmatched multi-calibrated, relaxed clock inference for the diversification of crown passerines. Extended taxon sampling allowed the recovery of many challenging clades and elucidated their position in the tree. Acanthisittia appear to have diverged from all other passerines at the early Paleogene, which is considerably later than previously suggested. Thus, Passeriformes may be younger and represent an even more intense adaptive radiation compared to the remaining avian orders. Based on our divergence time estimates, a novel hypothesis for the diversification of modern Suboscines is proposed. According to this hypothesis, the first split between New and Old World lineages would be related to the severing of the Africa-South America biotic connection during the mid-late Eocene, implying an African origin for modern Eurylaimides. The monophyletic status of groups not recovered by any subsequent study since their circumscription, viz. Sylvioidea including Paridae, Remizidae, Hyliotidae, and Stenostiridae; and Muscicapoidea including the waxwing assemblage (Bombycilloidea) were notable topological findings. We also propose possible ecological interactions that may have shaped the distinct Oscine distribution patterns in the New World. The insectivorous endemic Oscines of the Americas, Vireonidae (Corvoidea), Mimidae, and Troglodytidae (Muscicapoidea), probably interfered with autochthonous Suboscines through direct competition. Thus, the Early Miocene arrival of these lineages before any other Oscines may have occupied the few available niches left by Tyrannides, constraining the diversification of insectivorous Oscines that arrived in the Americas later. The predominantly frugivorous-nectarivorous members of Passeroidea, which account for most of the diversity of New World-endemic Oscines, may not have been subjected to competition with Tyrannides. In fact, the vast availability of frugivory niches combined with weak competition with the autochthonous passerine fauna may have been crucial for passeroids to thrive in the New World.