Hearing pathways and directional sensitivity of the beluga whale, Delphinapterus leucas

Odontocetes are believed to receive sounds primarily through the pan bone region of the lower jaw although much variation in jaw morphology exists among species. In order to further examine this jaw hearing hypothesis we tested the head receiving sensitivity and directional hearing of a beluga whale, Delphinapterus leucas. Hearing thresholds were measured using auditory evoked potentials (AEPs). The subject proved to have highly directional hearing for far-field click stimuli similar to that of bottlenose dolphins and more directional than the harbor porpoise. For near-field jawphone stimulation, the beluga's lowest thresholds were found when click stimuli were presented at the rostrum tip (76 dB Fe: 1 mu Pa) although thresholds from the pan bone region Stimulation were only 2-3 dB higher. Stimulation at and behind the external auditory meatus were elevated by nearly 20 dB. Stimuli presented at the surface of the melon did not generate detectable AEP responses, although sound levels of up to 142 dB were employed. Latencies of responses were generally shortest for meatal stimulation and increased with distance. Results support a shaded receiver model for odontocete hearing but how received sounds are filtered and shaded may depend on species. We also suggest that odontocete hearing thresholds are not necessarily lowest through the pan bone region. Rather, hearing pathway variations appear to exist among odontocete species and are at least partially dependent on head morphology. (C) 2008 Published by Elsevier B.V.