Neuronal Mechanisms of Voice Control Are Affected by Implicit Expectancy of Externally Triggered Perturbations in Auditory Feedback

When exposed to enhanced background noise, humans avoid signal masking by increasing the amplitude of the voice, a phenomenon termed the Lombard effect. This auditory feedback-mediated voice control has also been found in monkeys, bats, cetaceans, fish and some frogs and birds. We studied the Lombard effect for the first time in a phylogenetically basal primate, the grey mouse lemur,Microcebus murinus. When background noise was increased, mouse lemurs were able to raise the amplitude of the voice, comparable to monkeys, but they did not show this effect consistently across context/individuals. The Lombard effect, even if representing a generic vocal communication system property of mammals, may thus be affected by more complex mechanisms. The present findings emphasize an effect of context, and individual, and the need for further standardized approaches to disentangle the multiple system properties of mammalian vocal communication, important for understanding the evolution of the unique human faculty of speech and language.

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Sensory Processing: Advances in Understanding Structure and Function of Pitch-Shifted Auditory Feedback in Voice Control

AIMS Neuroscience ◽

10.3934/neuroscience.2016.1.22 ◽

2016 ◽

Vol 3 (1) ◽

pp. 22-39 ◽

Cited By ~ 8

Author(s):

Charles R Larson ◽

◽

Donald A Robin

Keyword(s):

Sensory Processing ◽

Auditory Feedback ◽

Structure And Function ◽

Voice Control ◽

And Function

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Delayed Auditory Feedback with Different Delay Times at Each Ear

Journal of Speech and Hearing Research ◽

10.1044/jshr.0704.369 ◽

1964 ◽

Vol 7 (4) ◽

pp. 369-371

Author(s):

Samuel Fillenbaum

Keyword(s):

Delay Interval ◽

Auditory Feedback ◽

Normal Subjects ◽

Delayed Auditory Feedback ◽

Delay Times

Binaurally asynchronous delayed auditory feedback (DAF) was compared with synchronous DAF in 80 normal subjects. Asynchronous DAF (0.10 sec difference) did not yield results different from those obtained under synchronous DAF with a 0.20 sec delay interval, an interval characteristically resulting in maximum disruptions in speech.

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Effects of Noise and Increased Vocal Intensity on Stuttering

Journal of Speech and Hearing Research ◽

10.1044/jshr.2002.233 ◽

1977 ◽

Vol 20 (2) ◽

pp. 233-240 ◽

Cited By ~ 17

Author(s):

Sharon F. Garber ◽

Richard R. Martin

Keyword(s):

Normal Level ◽

Auditory Feedback ◽

Concomitant Increase ◽

Vocal Intensity ◽

Presence And Absence

The present study was designed to assess the effects of increased vocal level on stuttering in the presence and absence of noise, and to assess the effects of noise on stuttering with and without a concomitant increase in vocal level. Accordingly, eight adult stutterers spoke in quiet with normal vocal level, in quiet with increased vocal level, in noise with normal level, and in noise with increased level. All subjects reduced stuttering in noise compared with quiet conditions. However, there was no difference in stuttering when subjects spoke with normal compared with increased vocal level. In the present study, reductions in stuttering under noise could not be explained by increases in vocal level. It appears, instead, that reductions in stuttering were related to a decrease in auditory feedback. The condition which resulted in the largest decrease in auditory feedback, speaking in noise with a normal level, also resulted in the largest decrease in stuttering.

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