Peter M. Scheifele scite author profile

Noise pollution is recognized as a potential danger to marine mammals in general, and to the St. Lawrence beluga in particular. One method of determining the impacts of noise on an animal's communication is to observe a natural and repeatable response of the vocal system to variations in noise level. This is accomplished by observing intensity changes in animal vocalizations in response to environmental noise. One such response observed in humans, songbirds, and some primates is the Lombard vocal response. This response represents a vocal system reaction manifested by changes in vocalization level in direct response to changes in the noise field. In this research, a population of belugas in the St. Lawrence River Estuary was tested to determine whether a Lombard response existed by using hidden Markhov-classified vocalizations as targets for acoustical analyses. Correlation and regression analyses of signals and noise indicated that the phenomenon does exist. Further, results of human subjects experiments [Egan, J. J. (1966), Ph.D. dissertation; Scheifele, P. M. (2003), Ph.D. dissertation], along with previously reported data from other animal species, are similar to those exhibited by the belugas. Overall, findings suggest that typical noise levels in the St. Lawrence River Estuary have a detectable effect on the communication of the beluga.

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Effect of kennel noise on hearing in dogs

Scheifele¹,

Martin²,

Clark³

et al. 2012

ajvr

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Results of the noise assessments indicated levels that are damaging to the human auditory system. Such levels could be considered dangerous for kenneled dogs as well, particularly given the demonstrated hearing loss in dogs housed in the veterinary kennel for a prolonged period. Noise abatement strategies should be a standard part of kennel design and operation when such kennels are intended for long-term housing of dogs.

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Electrodiagnostic Evaluation of Auditory Function in the Dog

Scheifele

Clark

2012

Veterinary Clinics of North America: Small Animal Practice

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The Time Course of the Amplitude and Latency in the Auditory Late Response Evoked by Repeated Tone Bursts

Zhang

Eliassen²,

Anderson³

et al. 2009

J Am Acad Audiol

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Characterization of equine vocalization

Pond¹,

Darre²,

Scheifele³

et al. 2010

Journal of Veterinary Behavior

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Analysis and effectiveness of deer whistles for motor vehicles: frequencies, levels, and animal threshold responses

Scheifele

Browning

Collins-Scheifele

2003

Acoustics Research Letters Online

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Canine brainstem auditory evoked responses are not clinically impacted by head size or breed

Kemper

Scheifele

Clark

2013

Physiology & Behavior

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Ambient habitat noise and vibration at the Georgia Aquarium

Scheifele

Johnson

Kretschmer

et al. 2012

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Underwater and in-air noise evaluations were completed in performance pool systems at Georgia Aquarium under normal operating conditions and with performance sound tracks playing. Ambient sound pressure levels at in-pool locations, with corresponding vibration measures from life support system (LSS) pumps, were measured in operating configurations, from shut down to full operation. Results indicate noise levels in the low frequency ranges below 100 Hz were the highest produced by the LSS relative to species hearing thresholds. The LSS had an acoustic impact of about 10 dB at frequencies up to 700 Hz, with a 20 dB re 1 μPa impact above 1000 Hz.

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