Abstract
Skylarks inhabit open fields and perform an aerial song display which serves as a territorial signal. The particularly long and elaborate structure of this song flight raises questions about the impact of physical and energetic constraints acting on a communication signal. Song produced during the three distinct phases of the flight - ascending, level and descending phase could be subject to different constraints, serve different functions and encode different types of information. We compared song parameters during the ascending and the level phases. We found that the structure of the song varied with the phase of the flight. In particular, song had a higher tempo when skylarks were ascending which might be related to higher oxygen and energetic demands. We also explored which phase of the song flight might encode individuality. Earlier studies reported that skylarks reduced their territorial response to established neighbours if the neighbour song was broadcasted from the correct adjacent boundary, but reacted aggressively if the neighbour songs were broadcasted from an incorrect boundary (mimicking a displaced neighbour). Such differential response provides some evidence for individual recognition. Here, we exposed subjects to playback stimuli of neighbour song in which we had replaced either the song produced during the level or the ascending phase by the relevant song of the neighbour from the incorrect border. Singing response was higher towards stimuli in which the ‘level phase song’ was replaced, indicating that skylarks could be able to recognise their neighbours based on song of this phase. Thus, individuality seems to be primarily coded in the level phase of the flight song.
Highlights
Bird song transmits different types of information such as species identity, group label, individual identity and motivational state [1], that are often encoded in the song at different levels
Species identity can be based on acoustic parameters such as rhythm, individual and group identity may be encoded through the composition of syllable sequences and aggressive motivation can be signalled by amplitude parameters, frequency parameters (e.g. African black coucals, Centropus grillii [6], [7]) or song density
Frequency parameters, temporal parameters and song versatility varied with the flight phase
Summary
Bird song transmits different types of information such as species identity, group label, individual identity and motivational state [1], that are often encoded in the song at different levels. The needs in oxygen and constrains exerted on the respiratory system are likely to impact the production of song and in particular its acoustic structure. Such links between sound production, breathing and muscular activity are likely to be tight in species that produce song and fly at the same time. Given that during flight oxygen consumption increases (evening grosbeak, Coccothraustes vespertinus,[13]) breathing rate might be increased and the acoustic structure of song produced by such species during flight may reflect the physical and metabolic constraints exerted by the flight. Acoustic parameters of the song could vary if oxygen demands change during different phases of a flight song
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