Effect of Whisker Geometry on Contact Force Produced by Vibrissae Moving at Different Velocities

Rats and mice are able to perform a variety of subtle tactile discriminations using their mystacial vibrissae. Increasingly, the design and interpretation of neurophysiological and behavioral studies are inspired by and linked to a more precise understanding of the detailed physical properties of the whiskers and their associated hair follicles. Here we used a piezoelectric sensor (bimorph) to examine how contact forces are influenced by the geometry of individual whisker hairs. For a given point along a whisker, bimorph signals are linearly related to whisker movement velocity. The slope of this linear function, called velocity sensitivity (VS), diminishes non-linearly as whisker diameter decreases. Whiskers differ in overall length, thickness and proximal-distal taper. Thus velocity sensitivity varies along an individual whisker and among different whiskers on the mystacial pad. Thinner, shorter whiskers, such as those located rostrally in rats and those in mice, have lower overall velocity sensitivities, rendering them potentially less effective for mediating discriminations that rely on subtle velocity cues. The non-linear effect of diameter combined with the linear effect of arc length produces radial distance tuning curves wherein small differences in the proximal-distal location of impacts yields larger differences in signal magnitude. Such position-dependent cues could contribute to the localization of objects near the face. Proximal-to-distal changes in contact location during whisking sweeps could also provide signals that aid texture discrimination.

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