Relations between frequency selectivity and two-tone rate suppression in lizard cochlear-nerve fibers.

Cochlear-nerve fibers innervating the apicial region of the alligator lizard basilar papilla show sharp frequency selectivity in response to single tones (measured with the frequency threshold contour, or FTC), and the phenomenon of two-tone rate suppression (TTRS) in response to two simultaneously presented tones (measured with the iso-TTRS contour, or ITC). The gross shapes of the FTCs, as characterized by the slopes of the sides and Q10dB, vary systematically with the fiber's characteristic frequency (CF). 'Fine-structural' features are also found: below CF, notches (frequency regions of relatively high threshold) occur in the FTC at frequencies related to CF. Above CF, a break frequency, which varies with CF, divides the FTC into segments of different slope. Features of the ITC also vary with CF. The detailed shapes of the FTCs and ITCs are related: lobes of the ITC interdigitate with notches in the FTC; the side of the FTC with steepest slope is closely associated with the side of the ITC with steepest slope. The close relation that is observed between sharp frequency selectivity and TTRS suggests that both phenomena arise from a common cochlear mechanism.