Floating frogs sound larger: environmental constraints on signal production drives call frequency changes

In animal communication, receivers benefit from signals providing reliable information on signallers9 traits of interest. Individuals involved in conflicts, such as competition between rivals, should pay particular attention to cues that are 9unfakeable9 by the senders due to the intrinsic properties of the production process. In bioacoustics, the best-known example of such 9index signals9 is the relationship between a sender9s body size and the dominant frequency of their vocalizations. Dominant frequency may however not only depend on an animal9s morphology but also on the interaction between the sound production system and its immediate environment. Here, we experimentally altered the environment surrounding calling frogs and assessed its impact on the signal produced. More specifically, we altered water level, which forced frogs to float on the surface and tested how this manipulation affected the shuttling of air between the lungs and the vocal sac, and how this in turn impacted the calls9 dominant frequency. Our results show that frogs that are floating are able to fully inflate their lungs and vocal sacs, and that the associated change in airflow or air pressure is correlated with a decrease of call dominant frequency.