Abstract
Dreyer and Oxenham [(2008). "Effects of level and background noise on interaural time difference discrimination for transposed stimuli," J. Acoust. Soc. Am. 123, EL1-EL7] reported that spectrally flanking noise increased threshold interaural temporal disparities (ITDs) conveyed by high-frequency transposed tones but rendered them indiscriminable when they were conveyed by high-frequency sinusoidally amplitude-modulated (SAM) tones. This study extends those observations and evaluates the role of "off-frequency listening." Threshold ITDs were measured using 4-kHz-centered transposed or SAM tonal "targets." In "baseline" conditions, targets were presented without spectrally flanking noise. Additionally, targets were presented along with continuous diotic broadband Gaussian noise spectrally "notched" between 3.6 and 4.4 kHz. In another condition, only the high-pass segment of the notched noise was continuously present. In the final condition, only the low-pass segment was continuously present. Results indicate that (1) relative to baseline, adding notched noise resulted in similar relative increases of threshold ITDs for both SAM and transposed targets; (2) the presence of the high-pass segment of the notched noise resulted in greater relative increases in threshold ITDs over those obtained in baseline conditions for SAM tones as compared to transposed tones; (3) comparisons among all of the data were consistent with the interpretation that both on-frequency and off-frequency processing of envelope-based ITDs can be disrupted by the presence of a notched noise.
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