Competitive pressures affect sexual signal complexity in Kurixalus odontotarsus: insights into the evolution of compound calls

Abstract

Male-male vocal competition in anuran species is critical for mating success; however, it is also energetically demanding and highly time-consuming. Thus, we hypothesized that males may change signal elaboration in response to competition in real time. Male serrate-legged small treefrogs (Kurixalus odontotarsus) produce compound calls that contain two kinds of notes, harmonic sounds called A notes and short broadband sounds called B notes. Using male evoked vocal response experiments, we found that competition influences the temporal structure and complexity of vocal signals produced by males. Males produce calls with a higher ratio of notes / call and more compound calls including more A notes but fewer B notes with contest escalation. In so doing males minimize the energy costs and maximize the benefits of competition when the level of competition is high. This means that the evolution of sexual signal complexity in frogs may be susceptible to selection for plasticity related to adjusting performance to the pressures of competition and supports the idea that more complex social contexts can lead to greater vocal complexity.