Behavioral observations and computer simulations of blue crab movement to a chemical source in a controlled turbulent flow

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The Journal of Experimental Biology 205, 3387-3398 (2002)
Copyright © 2002 The Company of Biologists Limited

Behavioral observations and computer simulations of blue crab movement to a chemical source in a controlled turbulent flow

Marc J. Weissburg^* and David B. Dusenbery

School of Biology, Georgia Institute of Technology, Atlanta, GA 30332-0230, USA

^* Author for correspondence (e-mail: marc.weissburg{at}biology.gatech.edu)

Accepted 5 August 2002

The behavior of crabs tracking odor in turbulent chemical plumeswas compared to the performance of computer simulations of searchbehavior operating in similar chemical signal environments.The movement of blue crabs (Callinectes sapidus) towards a sourceof food odor was studied in controlled flow conditions in aflume. The evolving chemical stimulus field of a similar chemicalsource in an equivalent flow environment was captured by recordingconcentration patterns of a fluorescent tracer. Hypotheses aboutthe sensory mechanisms employed by the crabs were tested bycomputer simulation using the recorded fluorescence as the stimulus.The results demonstrate that a simple model combining chemotropotaxis(simultaneous, spatial comparisons of chemical signals) andodor-stimulated upstream movement (rheotaxis) is sufficientto explain the efficient movements towards the source displayedby foraging crabs. Spatial integration around each sensor improvesperformance significantly, but the number of sensors does nothave a large impact on performance. The weighting of informationfrom chemical versus flow signals can substantially change simulationperformance, resulting in more or less congruence between thebehavior of simulations and that of crabs, which suggests thegeneral importance of both sources of information for successful odor-guidednavigation.

Key words: blue crab, Callinectes sapidus, chemo-tropotaxis, rheotaxis, navigation, odor, turbulence

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