Hearing in cichlid fishes under noise conditions

Hearing thresholds of fishes are typically acquired under laboratory conditions. This does not reflect the situation in natural habitats, where ambient noise may mask their hearing sensitivities. In the current study we investigate hearing in terms of sound pressure (SPL) and particle acceleration l...

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Bibliographic Details
Published in:PloS one 2013-02, Vol.8 (2), p.e57588
Main Authors: Ladich, Friedrich, Schulz-Mirbach, Tanja
Format: Article
Language:English
Subjects:
Acoustic noise
Animals
Auditory evoked potentials
Auditory Threshold
Background noise
Behavior
Biology
Cichlidae
Cichlids - physiology
Ears & hearing
Etroplus maculatus
Evolution
Fish
Hearing
Hearing - physiology
Morphology
Neogobius melanostomus
Noise
Noise levels
Orientation
Orientation behavior
Particle acceleration
Perceptual Masking
Sensitivity
Sound
Sound pressure
Species
Steatocranus tinanti
Studies
Swim bladder
Thresholds
White noise
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Summary:Hearing thresholds of fishes are typically acquired under laboratory conditions. This does not reflect the situation in natural habitats, where ambient noise may mask their hearing sensitivities. In the current study we investigate hearing in terms of sound pressure (SPL) and particle acceleration levels (PAL) of two cichlid species within the naturally occurring range of noise levels. This enabled us to determine whether species with and without hearing specializations are differently affected by noise. We investigated auditory sensitivities in the orange chromide Etroplus maculatus, which possesses anterior swim bladder extensions, and the slender lionhead cichlid Steatocranus tinanti, in which the swim bladder is much smaller and lacks extensions. E. maculatus was tested between 0.2 and 3kHz and S. tinanti between 0.1 and 0.5 kHz using the auditory evoked potential (AEP) recording technique. In both species, SPL and PAL audiograms were determined in the presence of quiet laboratory conditions (baseline) and continuous white noise of 110 and 130 dB RMS. Baseline thresholds showed greatest hearing sensitivity around 0.5 kHz (SPL) and 0.2 kHz (PAL) in E. maculatus and 0.2 kHz in S. tinanti. White noise of 110 dB elevated the thresholds by 0-11 dB (SPL) and 7-11 dB (PAL) in E. maculatus and by 1-2 dB (SPL) and by 1-4 dB (PAL) in S. tinanti. White noise of 130 dB elevated hearing thresholds by 13-29 dB (SPL) and 26-32 dB (PAL) in E. maculatus and 6-16 dB (SPL) and 6-19 dB (PAL) in S. tinanti. Our data showed for the first time for SPL and PAL thresholds that the specialized species was masked by different noise regimes at almost all frequencies, whereas the non-specialized species was much less affected. This indicates that noise can limit sound detection and acoustic orientation differently within a single fish family.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0057588