Differential emigration causes aggregation of the amphipod Corophium volutator (Pallas) in tide pools on mudflats of the upper Bay of Fundy, Canada

We investigated mechanisms responsible for the formation of spatial patterns in a dominant macro-invertebrate, the burrowing amphipod Corophium volutator, in relation to tide pools on intertidal mudflats of the upper Bay of Fundy, Canada. A field survey of 3 different mudflats showed that density of C. volutator at low tide was consistently higher inside than outside tide pools, and a manipulative field experiment indicated that C. volutator selected tide pools over the adjacent emerged areas. Differential survival in immersed and emerged areas at low tide did not explain the observed pattern, because short-term survival of amphipods was not affected by immersion at low tide. As well, immigration rates of C. volutator into immersed and emerged areas at low tide were similar after one day, so preferential settlement did not explain aggregation of amphipods. However, marked C. volutator departed from experimental areas that were immersed at low tide at a slower rate compared to emerged experimental areas. Thus, formation of the spatial pattern observed in the field (higher densities inside tide pools) is likely the result of an effect of immersion at low tide on proportion of individuals emigrating from an area every day.