Behavioral psychophysical techniques were used to evaluate the residual effects of underwater noise on the hearing sensitivity of three pinnipeds: a California sea lion (Zalophus californianus), a harbor seal (Phoca vitulina), and a northern elephant seal (Mirounga angustirostris). Temporary threshold shift (TTS), defined as the difference between auditory thresholds obtained before and after noise exposure, was assessed. The subjects were exposed to octave-band noise centered at 2500Hz at two sound pressure levels: 80 and 95dB SL (re: auditory threshold at 2500Hz). Noise exposure durations were 22, 25, and 50min. Threshold shifts were assessed at 2500 and 3530Hz. Mean threshold shifts ranged from 2.912.2dB. Full recovery of auditory sensitivity occurred within 24h of noise exposure. Control sequences, comprising sham noise exposures, did not result in significant mean threshold shifts for any subject. Threshold shift magnitudes increased with increasing noise sound exposure level (SEL) for two of the three subjects. The results underscore the importance of including sound exposure metrics (incorporating sound pressure level and exposure duration) in order to fully assess the effects of noise on marine mammal hearing.

Topics
Underwater acoustics, Auditory perception, Bioacoustics of mammals, Acoustical properties, Auditory system, Auditory threshold, Acoustic noise, Acoustic signal processing, Energy model, Differential geometry
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2005
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