Combination of Interaural Level and Time Difference in Azimuthal Sound Localization in Owls
Lutz Kettler,Lutz Kettler,Hannah Griebel,Roland Ferger,Hermann Wagner +4 more
- Vol. 4, Iss: 6
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TLDR
Electrophysiological recordings of ILD sensitivity in the owl’s midbrain support the behavioral findings indicating that rival brain hemispheres drive the decision to orient to either true or phantom sources.Abstract:
A function of the auditory system is to accurately determine the location of a sound source. The main cues for sound location are interaural time (ITD) and level (ILD) differences. Humans use both ITD and ILD to determine the azimuth. Thus far, the conception of sound localization in barn owls was that their facial ruff and asymmetrical ears generate a two-dimensional grid of ITD for azimuth and ILD for elevation. We show that barn owls also use ILD for azimuthal sound localization when ITDs are ambiguous. For high-frequency narrowband sounds, midbrain neurons can signal multiple locations, leading to the perception of an auditory illusion called a phantom source. Owls respond to such an illusory percept by orienting toward it instead of the true source. Acoustical measurements close to the eardrum reveal a small ILD component that changes with azimuth, suggesting that ITD and ILD information could be combined to eliminate the illusion. Our behavioral data confirm that perception was robust against ambiguities if ITD and ILD information was combined. Electrophysiological recordings of ILD sensitivity in the owl's midbrain support the behavioral findings indicating that rival brain hemispheres drive the decision to orient to either true or phantom sources. Thus, the basis for disambiguation, and reliable detection of sound source azimuth, relies on similar cues across species as similar response to combinations of ILD and narrowband ITD has been observed in humans.read more
Citations
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Journal ArticleDOI
Binaural responses in the auditory midbrain of chicken (Gallus gallus).
TL;DR: The results suggest that generalist birds such as the chicken show a prominent representation of ITD and ILD cues in the IC, providing complementary information for sound localization, according to the duplex theory.
Journal ArticleDOI
The barn owls' Minimum Audible Angle.
TL;DR: Physical and neural characteristics combine to result in better spatial acuity for frontal compared to lateral sounds and reduced localisation acuity at lower frequencies in the barn owl.
Book ChapterDOI
Neuroethology of Sound Localization in Birds
TL;DR: Although the major groups of land vertebrates diverged before the advent of tympanic hearing, in birds and mammals computations of ITD and ILD use similar algorithms, indicating the parallel evolution of spatial hearing.
Journal ArticleDOI
Interaction of interaural cues and their contribution to the lateralisation of Mongolian gerbils (Meriones unguiculatus)
TL;DR: Gerbils’ lateralisation was driven by the ITD but strongly affected by the ILD indicating that both interaural cues contribute to the lateralisation, and ongoing ITDs are decisive for theateralisation of low-frequency tones.
Book ChapterDOI
Anatomy and Physiology of the Avian Binaural System
TL;DR: In this paper, anatomical structures and physiological processes that underlie the perceptual effects of binaural hearing are reviewed, including the role of spatially selective cells in auditory perception in acoustical environments with echoes and multiple sound sources.
References
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Journal ArticleDOI
Spatial Hearing: The Psychophysics of Human Sound Localization by Jens Blauert
Jens Blauert,Robert A. Butler +1 more
Book
Spatial Hearing: The Psychophysics of Human Sound Localization
TL;DR: In this article, the physics of the external ear (transfer functions of external ear, area function and termination of the ear canal, analysis of transfer characteristics) evaluation of monaural attributes of ear input signals (lateralization and multiple auditory events, summing localization and the law of the first wavefront, inhibition of the primary sound) two sound sources radiating partially coherent or incoherent signals (the influence of the degree of coherence, binaural signal detection) more than two sound source and diffuse sound fields.
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Response of binaural neurons of dog superior olivary complex to dichotic tonal stimuli: some physiological mechanisms of sound localization.
J M Goldberg,P B Brown +1 more
TL;DR: How the introduction of these two cues affects the discharge of individual binaural neurons of the superior olivary complex is considered.
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Illusions: What you see is what you hear
TL;DR: It is shown that auditory information can qualitatively alter the perception of an unambiguous visual stimulus to create a striking visual illusion, indicating that visual perception can be manipulated by other sensory modalities.
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XII. On our perception of sound direction
TL;DR: In this paper, the authors discuss the perception of sound direction in the human brain and propose a method to find the root cause of the perceived soundness of the human perception of direction.
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