Litcius/Paper detail

Tuned vibration modes in a miniature hearing organ: Insights from the bushcricket

Anna Vavakou, Jan Scherberich, Manuela Nowotny, Marcel van der Heijden

2021Proceedings of the National Academy of Sciences21 citationsDOIOpen Access PDF

Abstract

We found different modes of nanovibration in the CA that have not been previously described. The two tympana and the adjacent septum of the foreleg that enclose the CA were recorded simultaneously, revealing an antiphasic lever motion strikingly reminiscent of vertebrate middle ears. Over the entire length of the CA, we were able to separate and compare vibrations of the top (cap cells) and base (dorsal wall) of the sensory tissue. The tuning of these two structures, only 15 to 60 μm (micrometer) apart, differed systematically in sharpness and best frequency, revealing a tuned periodic deformation of the CA. The relative motion of the two structures, a potential drive of transduction, demonstrated sharper tuning than either of them. The micromechanical complexity indicates that the bushcricket ear invokes multiple degrees of freedom to achieve frequency separation with a limited number of sensory cells.

Topics & Concepts

TonotopyAcousticsAnatomyBiologyCochleaSensory systemPhysicsDorsumNeuroscienceHearing, Cochlea, Tinnitus, GeneticsPlant and Biological Electrophysiology StudiesAnimal Vocal Communication and Behavior
Tuned vibration modes in a miniature hearing organ: Insights from the bushcricket | Litcius