A clockwork mollusc: Ultradian rhythms in bivalve activity revealed by digital photography

Abstract

Time-lapse digital images can be acquired and archived using web-cameras, allowing non-invasive analysis of behavior patterns of bivalve molluscs at ultradian (sub-daily) time-scales over long intervals. These records can be analyzed directly by a human operator or through properly calibrated image analysis software. Preliminary results using species of marine and freshwater bivalves identify several ultradian biological rhythms of similar duration. Wavelet analysis indicates strong periodicity in mantle and siphon activity in the 3 to 7 min range, with longer duration shell contraction periods at 60–90 min. The recurrence of these rhythms among marine and freshwater bivalve species maintained under constant (but differing) conditions suggests the influence of common intrinsic drivers (chemico-physical mechanisms or biological clocks). Sub-daily growth increments preserved in the shells of rapidly growing bivalve species are potentially related to these biological rhythms, with implications for shell growth, biomineralization, and the temporal resolution of paleoclimate proxy data.