Traffic noise differentially impacts call types in a Japanese treefrog (Buergeria japonica) |
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| Authors: | Henry D Legett Ryan P Madden Ikkyu Aihara Ximena E Bernal |
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| Institution: | 1. Department of Biological Sciences, Purdue University, West Lafayette, IN, USA;2. Graduate School of Systems and Information Engineering, University of Tsukuba, Tsukuba, Japan;3. Department of Biological Sciences, Purdue University, West Lafayette, IN, USA
Smithsonian Tropical Research Institute, Balboa, Panama |
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| Abstract: | Acoustic noise from automobile traffic impedes communication between signaling animals. To overcome the acoustic interference imposed by anthropogenic noise, species across taxa adjust their signaling behavior to increase signal saliency. As most of the spectral energy of anthropogenic noise is concentrated at low acoustic frequencies, species with lower frequency signals are expected to be more affected. Thus, species with low-frequency signals are under stronger pressure to adjust their signaling behaviors to avoid auditory masking than species with higher frequency signals. Similarly, for a species with multiple types of signals that differ in spectral characteristics, different signal types are expected to be differentially masked. We investigate how the different call types of a Japanese stream breeding treefrog (Buergeria japonica) are affected by automobile traffic noise. Male B. japonica produce two call types that differ in their spectral elements, a Type I call with lower dominant frequency and a Type II call with higher dominant frequency. In response to acoustic playbacks of traffic noise, B. japonica reduced the duration of their Type I calls, but not Type II calls. In addition, B. japonica increased the call effort of their Type I calls and decreased the call effort of their Type II calls. This result contrasts with prior studies in other taxa, which suggest that signalers may switch to higher frequency signal types in response to traffic noise. Furthermore, the increase in Type I call effort was only a short-term response to noise, while reduced Type II call effort persisted after the playbacks had ended. Overall, such differential effects on signal types suggest that some social functions will be disrupted more than others. By considering the effects of anthropogenic noise across multiple signal types, these results provide a more in-depth understanding of the behavioral impacts of anthropogenic noise within a species. |
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| Keywords: | acoustic communication anthropogenic noise frogs noise pollution road effect |
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