Time-varying auditory gain control in response to double-pulse stimuli in harbour porpoises is not mediated by a stapedial reflex

Time-varying auditory gain control in response to double-pulse stimuli in harbour porpoises is not mediated by a stapedial reflex

Echolocating animals reduce their output level and hearing sensitivity with decreasing echo delays, presumably to stabilize the perceived echo intensity during target approaches. In bats, this variation in hearing sensitivity is formed by a call-induced stapedial reflex that tapers off over time aft...

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Bibliographic Details
Main Authors: Asger Emil Munch Schrøder, Kristian Beedholm, Peter Teglberg Madsen
Format: Article
Language:English
Published: The Company of Biologists 2017-04-01
Series:Biology Open
Subjects:
Toothed whale
Echolocation
Stapedial reflex
Masking
Automatic gain control
Hearing
Online Access:http://bio.biologists.org/content/6/4/525
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spelling doaj-1012a86ae16c429dadad03dbeb96b8802021-06-02T15:40:05ZengThe Company of BiologistsBiology Open2046-63902017-04-016452552910.1242/bio.021469021469Time-varying auditory gain control in response to double-pulse stimuli in harbour porpoises is not mediated by a stapedial reflexAsger Emil Munch Schrøder0Kristian Beedholm1Peter Teglberg Madsen2 Zoophysiology, Bioscience, Aarhus University, C. F. Moellers Allé 3, Aarhus C 8000, Denmark Zoophysiology, Bioscience, Aarhus University, C. F. Moellers Allé 3, Aarhus C 8000, Denmark Zoophysiology, Bioscience, Aarhus University, C. F. Moellers Allé 3, Aarhus C 8000, Denmark Echolocating animals reduce their output level and hearing sensitivity with decreasing echo delays, presumably to stabilize the perceived echo intensity during target approaches. In bats, this variation in hearing sensitivity is formed by a call-induced stapedial reflex that tapers off over time after the call. Here, we test the hypothesis that a similar mechanism exists in toothed whales by subjecting a trained harbour porpoise to a series of double sound pulses varying in delay and frequency, while measuring the magnitudes of the evoked auditory brainstem responses (ABRs). We find that the recovery of the ABR to the second pulse is frequency dependent, and that a stapedial reflex therefore cannot account for the reduced hearing sensitivity at short pulse delays. We propose that toothed whale auditory time-varying gain control during echolocation is not enabled by the middle ear as in bats, but rather by frequency-dependent mechanisms such as forward masking and perhaps higher-order control of efferent feedback to the outer hair cells.http://bio.biologists.org/content/6/4/525Toothed whaleEcholocationStapedial reflexMaskingAutomatic gain controlHearing
collection DOAJ
language English
format Article
sources DOAJ
author Asger Emil Munch Schrøder
Kristian Beedholm
Peter Teglberg Madsen
spellingShingle Asger Emil Munch Schrøder
Kristian Beedholm
Peter Teglberg Madsen
Time-varying auditory gain control in response to double-pulse stimuli in harbour porpoises is not mediated by a stapedial reflex
Biology Open
Toothed whale
Echolocation
Stapedial reflex
Masking
Automatic gain control
Hearing
author_facet Asger Emil Munch Schrøder
Kristian Beedholm
Peter Teglberg Madsen
author_sort Asger Emil Munch Schrøder
title Time-varying auditory gain control in response to double-pulse stimuli in harbour porpoises is not mediated by a stapedial reflex
title_short Time-varying auditory gain control in response to double-pulse stimuli in harbour porpoises is not mediated by a stapedial reflex
title_full Time-varying auditory gain control in response to double-pulse stimuli in harbour porpoises is not mediated by a stapedial reflex
title_fullStr Time-varying auditory gain control in response to double-pulse stimuli in harbour porpoises is not mediated by a stapedial reflex
title_full_unstemmed Time-varying auditory gain control in response to double-pulse stimuli in harbour porpoises is not mediated by a stapedial reflex
title_sort time-varying auditory gain control in response to double-pulse stimuli in harbour porpoises is not mediated by a stapedial reflex
publisher The Company of Biologists
series Biology Open
issn 2046-6390
publishDate 2017-04-01
description Echolocating animals reduce their output level and hearing sensitivity with decreasing echo delays, presumably to stabilize the perceived echo intensity during target approaches. In bats, this variation in hearing sensitivity is formed by a call-induced stapedial reflex that tapers off over time after the call. Here, we test the hypothesis that a similar mechanism exists in toothed whales by subjecting a trained harbour porpoise to a series of double sound pulses varying in delay and frequency, while measuring the magnitudes of the evoked auditory brainstem responses (ABRs). We find that the recovery of the ABR to the second pulse is frequency dependent, and that a stapedial reflex therefore cannot account for the reduced hearing sensitivity at short pulse delays. We propose that toothed whale auditory time-varying gain control during echolocation is not enabled by the middle ear as in bats, but rather by frequency-dependent mechanisms such as forward masking and perhaps higher-order control of efferent feedback to the outer hair cells.
topic Toothed whale
Echolocation
Stapedial reflex
Masking
Automatic gain control
Hearing
url http://bio.biologists.org/content/6/4/525
work_keys_str_mv AT asgeremilmunchschrøder timevaryingauditorygaincontrolinresponsetodoublepulsestimuliinharbourporpoisesisnotmediatedbyastapedialreflex
AT kristianbeedholm timevaryingauditorygaincontrolinresponsetodoublepulsestimuliinharbourporpoisesisnotmediatedbyastapedialreflex
AT peterteglbergmadsen timevaryingauditorygaincontrolinresponsetodoublepulsestimuliinharbourporpoisesisnotmediatedbyastapedialreflex
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