Effect of salinity on the swimming behaviour of the estuarine calanoid copepod Eurytemora affinis

doi:10.1093/plankt/fbl012

JPR Advance Access originally published online on May 25, 2006
Journal of Plankton Research 2006 28(9):805-813; doi:10.1093/plankt/fbl012

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Effect of salinity on the swimming behaviour of the estuarine calanoid copepod Eurytemora affinis

Laurent Seuront¹^,2^,*

¹ Station Marine de Wimereux, CNRS FRE 2816 Elico, Universite des Sciences et Technologies de Lille, 28 Avenue Foch, 62930 Wimereux, France and ² School of Biological Sciences, Flinders University, GPO Box 2100, Adelaide, SA 5001, Australia

^* Corresponding Author: laurent.seuront{at}univ-lille1.fr

Received January 17, 2006; accepted in principle February 21, 2006; accepted for publication May 15, 2006; published online May 25, 2006
Communicating editor: K.J. Flynn

The calanoid copepod, Eurytemora affinis, is the dominant zooplanktonspecies in most of European and North American estuaries, andtheir population maintenance within an environment of net seawardflow has mainly been explained by endogenous rhythms of circatidalswimming activity. However, no attention has been paid to thepotential link between the swimming behaviour of this speciesand salinity. The swimming behaviour of males, non-ovigerousfemales and ovigerous females from a continuous culture wasinvestigated under different salinity conditions. Increase anddecrease in salinity, respectively, increased and decreasedthe overall swimming activity of both males and non-ovigerousfemales. The complexity of the swimming paths of males and non-ovigerousfemales significantly increased with salinity. In contrast,ovigerous females were less motile and mainly sank. These observationssuggest an endogenous behavioural adaptive strategy to salinityfluctuations and the intrinsic ability of E. affinis to undergoshort-scale vertical migration triggered by changes in salinity.This supports field observations reporting increased abundanceof E. affinis in the water column during flood tides and providesa behavioural basis for the maintenance of viable populationsunder net ouflow conditions.

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