Variability in Velocity Profiles During Free-Air Whisking Behavior of Unrestrained Rats

doi:10.1152/jn.01295.2007

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J Neurophysiol 100: 740-752, 2008. First published April 24, 2008; doi:10.1152/jn.01295.2007
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Variability in Velocity Profiles During Free-Air Whisking Behavior of Unrestrained Rats

R. Blythe Towal¹ and Mitra J. Z. Hartmann¹^,2

¹Department of Biomedical Engineering and ²Department of Mechanical Engineering, Northwestern University, Evanston, Illinois

Submitted 28 November 2007; accepted in final form 21 April 2008

During exploratory behaviors, the velocity of an organism'ssensory surfaces can have a pronounced effect on the incomingflow of sensory information. In this study, we quantified variabilityin the velocity profiles of rat whisking during natural exploratorybehavior that included head rotations. A wide continuum of profileswas observed, including monotonic, delayed, and reversing velocitiesduring protractions and retractions. Three alternative hypothesesfor the function of the variable velocity profiles were tested:1) that they produce bilateral asymmetry specifically correlatedwith rotational head velocity, 2) that they serve to generatebilaterally asymmetric and/or asynchronous whisker movementsindependent of head velocity, and 3) that the different profiles—despiteincreasing variability in instantaneous velocity—reducevariability in the average whisking velocity. Our results favorthe third hypothesis and do not support the first two. Specifically,the velocity variability within a whisk can be observed as ashift in the phase of the maximum velocity. We discuss the implicationsof these results for the control of whisker motion, horizontalobject localization, and processing in the thalamus and cortexof the rat vibrissal system.

Address for reprint requests and other correspondence: M. Hartmann, Mechanical Engineering, Northwestern University, 2145 Sheridan Road, Evanston, IL 60208-3107 (E-mail: m-hartmann{at}northwestern.edu)

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