Abstract
Communicating species identity is a key component of many animal signals. However, whether selection for species recognition systematically increases signal diversity during clade radiation remains debated. Here we show that in woodpecker drumming, a rhythmic signal used during mating and territorial defense, the amount of species identity information encoded remained stable during woodpeckers’ radiation. Acoustic analyses and evolutionary reconstructions show interchange among six main drumming types despite strong phylogenetic contingencies, suggesting evolutionary tinkering of drumming structure within a constrained acoustic space. Playback experiments and quantification of species discriminability demonstrate sufficient signal differentiation to support species recognition in local communities. Finally, we only find character displacement in the rare cases where sympatric species are also closely related. Overall, our results illustrate how historical contingencies and ecological interactions can promote conservatism in signals during a clade radiation without impairing the effectiveness of information transfer relevant to inter-specific discrimination.
Highlights
IntroductionWhether selection for species recognition systematically increases signal diversity during clade radiation remains debated
Communicating species identity is a key component of many animal signals
The average rate of correct classification was 16.5%, significantly above what is expected by chance
Summary
Whether selection for species recognition systematically increases signal diversity during clade radiation remains debated. As information related to species identity supports mate and competitor recognition, understanding the processes driving signal divergence across lineages has important implications for explaining species’ reproductive isolation and interactions within ecological communities[4]. Previous studies on signal divergence have emphasized the direct role of natural and social/sexual selection (‘sensory drive model’)[6,7,8,9,10,11,12,13,14], the indirect consequences of ecological selection on traits related to signal production (‘magic traits’)[15,16,17], as well as the random effects of neutral mechanisms (genetic and cultural drifts)[4,18]. An important limitation of our current understanding of divergence mechanisms is that most previous studies have focused on the signal phenotype (e.g. the acoustic features of bird and insect song[11,25] or the colour of body elements33,34) without considering the signal functional value, i.e. its actual power to let the receiver decode information, such as species identity[35,36], but see ref
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