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Cochlear resonance in the mustached bat: Behavioral adaptations |
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| Authors: | O. W. Henson P. A. Koplas A. W. Keating R. F. Huffman M. M. Henson |
| Affiliation: | 1 Department of Cell Biology and A natomy, The University of North Carolina, Chapel Hill, USA 2 Curriculum in Neurobiology, The University of North Carolina, Chapel Hill, USA 3 Division of Otolaryngology/Head and Neck Surgery, Department of Surgery, The University of North Carolina, Chapel Hill, North Carolina, U.S.A. |
| Abstract: | Mustached bats. Pteronotus p. parnellii. use complex, multiharmonic biosonar signals with prominent approx. 60 kHz (CF) components. The sense of hearing is especially acute to sounds near 60 kHz and the cochlea shows a number of specializations in the 60 kHz region. Foremost is a remarkable degree of cochlear resonance. In this study it is shown that: 1) any sounds near the resonance frequency elicit a pronounced resonance that continues after the stimulus terminates; 2) Doppler-shifted echoes of the bat's own cries may cause resonance; 3) continuous resonance can be produced by stimulating the ear with broadband noise but such resonance does not interfere with the bat's ability to Doppler-shift compensate during simulated flight; 4) significant changes in the resonance frequency of the cochlea occur during and after flight; 5) the changes in resonance can be dependent or independent of body temperature changes; and 6) mustached bats continuously adjust the CF component of their pulses to keep the second harmonic echoes in a constant frequency band near the resonance frequency. Thus, mustached bats not only compensate for Doppler-shifts imposed by their movements relative to that of a target, but they cochlear resonance compensate to deal with small changes in the micromechanical properties of the cochlea. |
| Keywords: | Cochlear potentials Bats Cochlear resonance Cochlear emissions Echolocation |
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