Prey‐Correlated Spectral Changes in Echolocation Sounds of the Indian False Vampire Megaderma lyra

Abstract

False Vampires (Megaderma lyra) are gleaning bats which emit brief (1 ms) and faint echolocation signals consisting of four harmonics of a shallow frequency downward modulated fundamental (27–19 kHz). The complete signal spans a frequency range from 100 to 19 kHz. In sound recordings from three experimental animals we show that Megaderma lyra shifts the dominant frequency in the echolocation signals in relation to the type of prey offered and to flight style. During roaming flights the mean peak frequency was 63.2 ± 9 kHz (third harmonic). In prey catching flights, peak frequencies were shifted into the fourth harmonic. In flights towards a dish of crawling mealworms, mean peak frequency was raised to 91.2 ± 3.3 kHz. When the bats flew towards living mice the dominant frequency was further increased to 99.8 ± 5.2 kHz, and the second and third harmonic were at least 10 dB fainter or no longer recordable. The additional frequency shift when flying towards mice was not only a consequence of the dominance of the fourth harmonic but also of an additional rise of the fundamental harmonic by nearly 2 kHz. These prey‐correlated frequency shifts in echolocation calls showed little variation between the three experimental animals and were reproducible over time. They occurred at or even before take‐off of the bats. This is the first report of target‐correlated transient adaptations in echolocation calls of any bat species.