Abstract
For over a century, the duplex theory has guided our understanding of human sound localization in the horizontal plane. According to this theory, the auditory system uses interaural time differences (ITDs) and interaural level differences (ILDs) to localize low-frequency and high-frequency sounds, respectively. Whilst this theory successfully accounts for the localization of tones by humans, some species show very different behaviour. Ferrets are widely used for studying both clinical and fundamental aspects of spatial hearing, but it is not known whether the duplex theory applies to this species or, if so, to what extent the frequency range over which each binaural cue is used depends on acoustical or neurophysiological factors. To address these issues, we trained ferrets to lateralize tones presented over earphones and found that the frequency dependence of ITD and ILD sensitivity broadly paralleled that observed in humans. Compared with humans, however, the transition between ITD and ILD sensitivity was shifted toward higher frequencies. We found that the frequency dependence of ITD sensitivity in ferrets can partially be accounted for by acoustical factors, although neurophysiological mechanisms are also likely to be involved. Moreover, we show that binaural cue sensitivity can be shaped by experience, as training ferrets on a 1-kHz ILD task resulted in significant improvements in thresholds that were specific to the trained cue and frequency. Our results provide new insights into the factors limiting the use of different sound localization cues and highlight the importance of sensory experience in shaping the underlying neural mechanisms.
Highlights
First proposed more than a century ago (Strutt, 1907), the ‘duplex theory’ of sound localization provides a remarkably successful account of the way in which humans localize pure tones (Blauert, 1997; Macpherson & Middlebrooks, 2002)
Previous work using broadband noise as a stimulus has shown that the sensitivity of ferrets to interaural time difference (ITD) and interaural level difference (ILD) is comparable with that of other species, including humans (Keating et al, 2013b)
We extend this comparison with human hearing by showing that the duplex theory of sound localization, in which these binaural cues operate over different frequency ranges, applies to ferrets
Summary
First proposed more than a century ago (Strutt, 1907), the ‘duplex theory’ of sound localization provides a remarkably successful account of the way in which humans localize pure tones (Blauert, 1997; Macpherson & Middlebrooks, 2002). In species where the duplex theory does apply, it is of interest to determine whether the Received 11 July 2013, revised 5 September 2013, accepted 27 September 2013 range of sound frequencies over which sounds are lateralized using ITDs and ILDs is fixed or whether this can be modified by sensory experience The answer to this question is important because it would provide insight into the mechanisms underlying behavioural sensitivity to binaural spatial cues, and because it has important implications for plasticity in the adult brain as well as rehabilitation strategies following hearing loss
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