Comparative analysis of the flexural stiffness of pinniped vibrissae

dc.date.accessioned2015-04-30T16:56:04Z
dc.date.available2015-04-30T16:56:04Z
dc.date.issued2015-05
dc.description.abstractVibrissae are important components of the mammalian tactile sensory system and are used to detect vibrotactile stimuli in the environment. Pinnipeds have the largest and most highly innervated vibrissae among mammals, and the hair shafts function as a biomechanical filter spanning the environmental stimuli and the neural mechanoreceptors deep in the follicle-sinus complex. Therefore, the material properties of these structures are critical in transferring vibrotactile information to the peripheral nervous system. Vibrissae were tested as cantilever beams and their flexural stiffness (EI) was measured to test the hypotheses that the shape of beaded vibrissae reduces EI and that vibrissae are anisotropic. EI was measured at two locations on each vibrissa, 25% and 50% of the overall length, and at two orientations to the point force. EI differed in orientations that were normal to each other, indicating a functional anisotropy. Since vibrissae taper from base to tip, the second moment of area (I) was lower at 50% than 25% of total length. The anterior orientation exhibited greater EI values at both locations compared to the dorsal orientation for all species. Smooth vibrissae were generally stiffer than beaded vibrissae. The profiles of beaded vibrissae are known to decrease the amplitude of vibrations when protruded into a flow field. The lower EI values of beaded vibrissae, along with the reduced vibrations, may function to enhance the sensitivity of mechanoreceptors to detection of small changes in flow from swimming prey by increasing the signal to noise ratio. This study builds upon previous morphological and hydrodynamic analyses of vibrissae and is the first comparative study of the mechanical properties of pinniped vibrissae.en_US
dc.identifier.citationGinter Summarell, C.C., Ingole, S., Fish, F.E., and MARSHALL, C.D. In Press. Comparative analysis of the flexural stiffness of pinniped vibrissae. PLOS ONE.en_US
dc.identifier.urihttp://hdl.handle.net/1969.3/28656
dc.publisherPLOS ONEen_US
dc.subjectmaterial properties, sensory systems, whiskers, pinnipedsen_US
dc.titleComparative analysis of the flexural stiffness of pinniped vibrissaeen_US
dc.typeDataseten_US
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