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First published online July 17, 2009
Journal of Experimental Biology 212, 2426-2435 (2009)
Published by The Company of Biologists 2009
doi: 10.1242/jeb.026880
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Dynamics and kinematics of ant locomotion: do wood ants climb on level surfaces?

Lars Reinhardt*, Tom Weihmann and Reinhard Blickhan

Freidrich-Schiller-University, Seidelstr. 20, Jena, Germany

* Author for correspondence (e-mail: lars.reinhardt{at}uni-jena.de)

Accepted 16 May 2009

The biomechanics of running in small animals have remained poorly characterized because of the difficulty of recording three-dimensional ground reaction forces. Available techniques limit investigations to animals with a body mass above 1 g. Here we present, for the first time, single-leg ground reaction forces of ants (body mass 10 mg), measured with a custom-built miniature force plate. We investigated forces and high-speed kinematics for straight level runs (average speed: 8.4 cm s–1) of Formica polyctena workers. The major finding was that the time course of ground reaction forces strongly differed from previous observations of larger insects. Maximum vertical force was reached during the first third of the tripod contact phase. During this period the body was decelerated predominantly by the front legs. Subsequently, the front legs pulled and accelerated the body. This `climbing' type of stride may be useful on the bumpy and unstable substrates that the animals face in their natural habitats, and may therefore also occur on level ground. Propulsive forces were generated predominantly by the front and hind legs. Dragging of the gaster on the substrate resulted in a breaking momentum, which was compensated by the legs. Future investigations will reveal, whether the identified pattern is due to specialization.

Key words: Formica polyctena, arthropods, ground reaction force, locomotion


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© The Company of Biologists Ltd 2009