Abstract
The swimming rhythm of Pseudaega punctata Thomson is shown to have dual circadian and tidal components. The rhythm is endogenous, persisting for ten days under constant conditions in the laboratory and has a free-running period of greater than tidal frequency. The swimming activity has a basic semi-lunar rhythm even in the absence of marked differences between the heights of spring and neap tides. The rhythm is phased by exogenous factors such as light and tides but is flexible enough to deal with seasonal variations in day length and the shifting tidal cycle. Chilling weakly-rhythmic isopods re-inforces the rhythm. Control is thought to be neurosecretory, depletion of a neurosecretory product accumulated during a quiescent phase terminating swimming activity. The work is compared with similar studies on the related Eurydice pulchra which fills the same ecological niche in the northern hemisphere.
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