Song determined by phylogeny and body mass in two differently constrained groups of birds: manakins and cardinals.

IF 2.3 Q2 ECOLOGY BMC ecology and evolution Pub Date : 2024-08-19 DOI:10.1186/s12862-024-02298-z

Natália S Porzio, Angelica Crottini, Rafael N Leite, Paulo G Mota

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Abstract

The songs of birds are complex signals that may have several functions and vary widely among species. Different ecological, behavioural and morphological factors, as well as phylogeny, have been associated as predictors of the evolution of song structure. However, the importance of differences in development, despite their relevance, has seldom been considered. Here, we analysed the evolution of song in two families of songbirds that differ in song development, manakins (suboscines) and cardinals (oscines), with their phylogeny, morphology, and ecology. Our results show that song characteristics had higher phylogenetic signal in cardinals than in manakins, suggesting higher evolutionary lability in the suboscines. Body mass was the main predictor of song parameters in manakins, and together with habitat type, had a major effect on cardinals' song structure. Precipitation and altitude were also associated with some song characteristics in cardinals. Our results bring unexpected insights into birdsong evolution, in which non-learners (manakins) revealed greater evolutionary lability than song learners (cardinals).

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由系统发育和体质决定的两类不同鸟类的歌声：红嘴鸥和红雀。

鸟类的歌声是一种复杂的信号，可能具有多种功能，而且在不同物种之间差异很大。不同的生态、行为和形态因素以及系统发育都是预测鸟类鸣声结构进化的相关因素。然而，尽管发展过程中的差异具有相关性，但其重要性却很少被考虑。在这里，我们分析了两个鸣禽家族的鸣声进化，这两个家族在鸣声发育方面存在差异，它们分别是红腹锦鸡（suboscines）和红雀（oscines），并分析了它们的系统发育、形态学和生态学。我们的研究结果表明，红雀的鸣唱特征具有比红嘴鸥更高的系统发育信号，这表明亚目鸟类具有更高的进化易变性。体质量是预测红雀鸣声参数的主要因素，它与栖息地类型一起对红雀的鸣声结构产生了重大影响。降水和海拔也与红雀的某些鸣声特征有关。我们的研究结果给鸟鸣进化带来了意想不到的启示，在鸟鸣进化过程中，非学唱者（红雀）比学唱者（红雀）表现出更大的进化易变性。

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BMC ecology and evolution

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