While several marine species exhibit biological rhythms of heart rate, gill ventilation, or locomotion, the relationship between these three measures in any species remains unexplored. The American horseshoe crab, Limulus polyphemus, Linnaeus, 1758, expresses circalunidian locomotor rhythms and circadian eye sensitivity rhythms but it is not clear if either heart and ventilation rates are controlled on a circadian or circatidal basis or the nature of the relationship between these three measures. The goal of this study was to determine the extent to which the heart and ventilation rates of Limulus polyphemus are coordinated with its endogenous rhythms of locomotion. To address this goal, rhythmic beating of the heart and movements of the gill plates were recorded in freely moving horseshoe crabs. Most animals exhibited robust circatidal rhythms of locomotion, heart rate, and ventilation that were highly correlated with each other over three weeks of continuous recording. These results are the first showing long term rhythms of all three measures in any marine species and suggest that heart rate and ventilation rhythms are coordinated in Limulus polyphemus both with each other, and with locomotion, and thus are all modulated on a tidal basis.
Keywords: endogenous; ventilation.