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The Journal of Experimental Biology 205, 2591-2603 (2002)
© 2002 The Company of Biologists Limited

The C-start escape response of Polypterus senegalus: bilateral muscle activity and variation during stage 1 and 2

Eric D. Tytell^* and George V. Lauder

Department of Organismic and Evolutionary Biology, Harvard University, Cambridge, MA 02138, USA

^* e-mail: tytell{at}oeb.harvard.edu and glauder{at}oeb.harvard.edu

Accepted 30 May 2002

The fast-start escape response is the primary reflexive escape mechanism in a wide phylogenetic range of fishes. To add detail to previously reported novel muscle activity patterns during the escape response of the bichir, Polypterus, we analyzed escape kinematics and muscle activity patterns in Polypterus senegalus using high-speed video and electromyography (EMG). Five fish were filmed at 250 Hz while synchronously recording white muscle activity at five sites on both sides of the body simultaneously (10 sites in total). Body wave speed and center of mass velocity, acceleration and curvature were calculated from digitized outlines. Six EMG variables per channel were also measured to characterize the motor pattern. P. senegalus shows a wide range of activity patterns, from very strong responses, in which the head often touched the tail, to very weak responses. This variation in strength is significantly correlated with the stimulus and is mechanically driven by changes in stage 1 muscle activity duration. Besides these changes in duration, the stage 1 muscle activity is unusual because it has strong bilateral activity, although the observed contralateral activity is significantly weaker and shorter in duration than ipsilateral activity. Bilateral activity may stiffen the body, but it does so by a constant amount over the variation we observed; therefore, P. senegalus does not modulate fast-start wave speed by changing body stiffness. Escape responses almost always have stage 2 contralateral muscle activity, often only in the anterior third of the body. The magnitude of the stage 2 activity is the primary predictor of final escape velocity.

Key words: fast-start, fish, kinematics, electromyography, bichir, Polypterus senegalus, bilateral activity, body stiffness

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