Improvements of Sound Localization Abilities by the Facial Ruff of the Barn Owl (Tyto alba) as Demonstrated by Virtual Ruff Removal
Autor: | Frank Endler, Laura Hausmann, Martin Singheiser, Hermann Wagner, Mark von Campenhausen |
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Rok vydání: | 2009 |
Předmět: |
Auditory perception
Sound localization medicine.medical_specialty Auditory Pathways Time Factors business.product_category lcsh:Medicine Audiology Head-related transfer function Hearing medicine Animals Sound Localization lcsh:Science Sensory cue Headphones Neuroscience/Cognitive Neuroscience Physics Neuroscience/Behavioral Neuroscience Multidisciplinary Behavior Animal biology Neuroscience/Sensory Systems Barn-owl lcsh:R Neuroscience/Animal Cognition Ear Feathers Strigiformes biology.organism_classification Sound medicine.anatomical_structure Acoustic Stimulation Auditory Perception lcsh:Q business Head Eardrum Binaural recording Research Article |
Zdroj: | PLoS ONE PLoS ONE, Vol 4, Iss 11, p e7721 (2009) |
ISSN: | 1932-6203 |
DOI: | 10.1371/journal.pone.0007721 |
Popis: | Background: When sound arrives at the eardrum it has already been filtered by the body, head, and outer ear. This process is mathematically described by the head-related transfer functions (HRTFs), which are characteristic for the spatial position of a sound source and for the individual ear. HRTFs in the barn owl (Tyto alba) are also shaped by the facial ruff, a specialization that alters interaural time differences (ITD), interaural intensity differences (ILD), and the frequency spectrum of the incoming sound to improve sound localization. Here we created novel stimuli to simulate the removal of the barn owl’s ruff in a virtual acoustic environment, thus creating a situation similar to passive listening in other animals, and used these stimuli in behavioral tests. Methodology/Principal Findings: HRTFs were recorded from an owl before and after removal of the ruff feathers. Normal and ruff-removed conditions were created by filtering broadband noise with the HRTFs. Under normal virtual conditions, no differences in azimuthal head-turning behavior between individualized and non-individualized HRTFs were observed. The owls were able to respond differently to stimuli from the back than to stimuli from the front having the same ITD. By contrast, such a discrimination was not possible after the virtual removal of the ruff. Elevational head-turn angles were (slightly) smaller with non-individualized than with individualized HRTFs. The removal of the ruff resulted in a large decrease in elevational head-turning amplitudes. Conclusions/Significance: The facial ruff a) improves azimuthal sound localization by increasing the ITD range and b) improves elevational sound localization in the frontal field by introducing a shift of iso–ILD lines out of the midsagittal plane, which causes ILDs to increase with increasing stimulus elevation. The changes at the behavioral level could be related to the changes in the binaural physical parameters that occurred after the virtual removal of the ruff. These data provide new insights into the function of external hearing structures and open up the possibility to apply the results on autonomous agents, creation of virtual auditory environments for humans, or in hearing aids. |
Databáze: | OpenAIRE |
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