The frog inner ear contains two hearing organs: the amphibian and the basil
ar papilla. The amphibian papilla is sensitive to low- mid-frequency stimul
i (0.1-0.5 and 0.5-1.3 kHz, respectively, in Hyla cinerea), while the basil
ar papilla is sensitive to high-frequency stimuli (2.8-3.9 kHz in H. cinere
a). Distortion product otoacoustic emissions (DPOAE) were recorded from the
ear of the tree frog H. cinerea. In each of six ears investigated, a cubic
distortion product (DP) at 2f(1)-f(2) was present when the primary frequen
cies f(1) and f(2) and the DP frequency were close to either the mid- or th
e high-frequency range; At frequencies between the sensitive ranges of both
papillae, no emissions were observed. For the basilar papilla, the depende
nce of DP level on the primary tone frequency ratio f(2)/f(1) showed a patt
ern characteristic of the response of a single nonlinear resonator. Thus, i
n agreement with neural data, DPOAE from the basilar papilla reflect the co
ntribution of a single auditory filter to emission generation. (C) 2001 Els
evier Science B.V. All rights reserved.