Geographical variation of the acoustic signals in the spot‐legged treefrog (Polypedates megacephalus) of Hainan Island

Geographical divergence in acoustic signals is often affected by multiple selective pressures. Environmental factors are expected to shape signals by adjusting for greater propagation efficiency. Nevertheless, such habitat‐driven hypotheses have not been well‐examined with multi‐signal and multi‐habitat types included simultaneously. In this study, we evaluated call similarity of the spot‐legged treefrog (Polypedates megacephalus), characterized by multiple call types, from 11 geographic populations across Hainan Island. We also examined multiple factors (i.e. body mass, temperature, altitude, and vegetation) among different acoustical geographic clusters, and tested whether the variation in acoustic length and frequency among different habitats was in accordance with the prediction derived from the acoustic adaptation hypothesis. We showed that P. megacephalus from Hainan Island included 3 acoustic geographic clusters: the northeastern flatlands, the southwest mountains, and the hills around the mountains. We also showed that environmental factors (i.e. altitude and vegetation) varied across these 3 acoustically distinct areas. Moreover, the duration of the different call types supported the hypothesis that they should have optimal transmission in their own habitats. Thus, our results reveal the roles of ecological selection in the geographical divergence of anuran acoustic signals. Graphical The hypothesis that environmental factors should shape signals by adjusting for greater propagation efficiency has not been well‐examined with multi‐signal and multi‐habitat types included simultaneously. Polypedates megacephalus of Hainan Island shows a geographic divergence in acoustic signals, which may be caused by the variation of environmental factors (vegetation and/or altitude) across populations. Our results increase our understanding of acoustic adaptation in heterogeneous environments.