Abstract

BackgroundBirdsong, a key model in animal communication studies, has been the focus of intensive research. Song traits are commonly considered to reflect differences in individual or territory quality. Yet, few studies have quantified the variability of song traits between versus within individuals (i.e. repeatability), and thus whether certain song traits indeed provide reliable individual-specific information. Here, we studied the dawn chorus of male great tits (Parus major) to determine if key song traits are repeatable over multiple days and during different breeding stages. Additionally, we examined whether repeatability was associated with exploration behaviour, a relevant personality trait. Finally, we tested if variation in song traits could be explained by breeding stage, lowest night temperature, and exploration behaviour.ResultsWe show that the start time of an individual’s dawn song was indeed repeatable within and across breeding stages, and was more repeatable before, than during, their mate’s egg laying stage. Males started singing later when the preceding night was colder. Daily repertoire size was repeatable, though to a lesser extent than song start time, and no differences were observed between breeding stages. We did not find evidence for an association between exploration behaviour and variation in dawn song traits. Repertoire composition, and specifically the start song type, varied across days, but tended to differ less than expected by chance.ConclusionsOur findings that individuals consistently differ in key song traits provides a better understanding of the information receivers can obtain when sampling songs of different males. Surprisingly, start time, despite being influenced by a highly variable environmental factor, appeared to be a more reliable signal of individual differences than repertoire size. Against expectation, singers were more repeatable before than during their mate’s egg laying stage, possibly because before egg laying, females are less constrained to move around unguarded and thus may then already sample (and compare) different singers. Combining repeated dawn song recordings with spatial tracking could reveal if the sampling strategies of receivers are indeed important drivers of repeatability of song traits. Such a complementary approach will further advance our insights into the dynamics and evolution of animal signalling systems.

Highlights

  • Birdsong, a key model in animal communication studies, has been the focus of intensive research

  • The repeatability in start time of the dawn song by slow explorers did not differ from the repeatability in start time by fast explorers (Table 1, overlapping 84% Confidence Intervals (CI))

  • The full dawn repertoire size calculated from all recordings of a given male, but which excluded song types following the dawn song, ranged very from two to seven song types per male (Mean ± SD = 4.32 ± 18)

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Summary

Introduction

A key model in animal communication studies, has been the focus of intensive research. Naguib et al Frontiers in Zoology (2019) 16:27 suggested that an early start time of singing may provide information about a bird’s current body condition, or more generally reflect individual or territory quality [5, 10, 11]. Production performance related traits (like trill rates and bandwidths) have been shown to reflect more fundamental neuromotor coordination abilities or age [12,13,14,15] Learned components, such as repertoire composition and size, can reflect age [16], yet have most frequently been shown to reflect conditions experienced during song learning [17,18,19,20,21,22] and might even be an indicator of general cognitive performance [23]. Song traits that are repeatable have the potential to provide the social environment with relevant information on the individual and territory quality of a singer. Knowing what information is coded in song traits, and can be extracted by receivers, will help us understand how selection pressures, acting through the behaviour of these receivers, may shape animal communication systems

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