Abstract
Echolocating bats have developed advanced auditory perception systems, predominantly using acoustic signaling to communicate with each other. They can emit a diverse range of social calls in complex behavioral contexts. This study examined the vocal repertoire of five pregnant big-footed myotis bats (Myotis macrodactylus). In the process of clustering, the last individual to return to the colony (LI) emitted social calls that correlated with behavior, as recorded on a PC-based digital recorder. These last individuals could emit 10 simple monosyllabic and 27 complex multisyllabic types of calls, constituting four types of syllables. The social calls were composed of highly stereotyped syllables, hierarchically organized by a common set of syllables. However, intra-specific variation was also found in the number of syllables, syllable order and patterns of syllable repetition across call renditions. Data were obtained to characterize the significant individual differences that existed in the maximum frequency and duration of calls. Time taken to return to the roost was negatively associated with the diversity of social calls. Our findings indicate that variability in social calls may be an effective strategy taken by individuals during reintegration into clusters of female M. macrodactylus.
Highlights
Animals have evolved a variety of communication systems across all sensory modalities, such as visual, chemical, electrical, and acoustic signals
The four syllable types and their 37 combinations are outlined in Figure 3 and Figure 4: downward frequency-modulated syllable (DFM; Figure 3A), short quasi-V
These data confirmed that differences in social calls existed between M. macrodactylus individuals during the process of approaching the colony
Summary
Animals have evolved a variety of communication systems across all sensory modalities, such as visual, chemical, electrical, and acoustic signals. Acoustic signals have the advantage of broadcasting information for longer distances with less interference from physical barriers. Many bat species demonstrate a diverse repertoire of social calls under a variety of behavioral conditions (Bohn et al, 2008; Clement et al, 2006; Gadziola et al, 2012; Knörnschild et al, 2010; Ma et al, 2006). These characteristics of bats provide a unique opportunity for research on acoustic communication of animal sociality
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