Thursday, August 7, 2008 - 1:30 PM

COS 106-1: Intraspecific variation in a keystone predator affects community structure and cascading trophic interactions

David M. Post1, Eric P. Palkovacs2, Erika G. Schielke1, and Stanley I. Dodson3. (1) Yale University, (2) University of Maine, (3) University of Wisconsin - Madison

Background/Question/Methods

Intraspecific phenotypic variation in ecologically important traits is widespread and important for evolutionary processes, but its effects on community and ecosystem processes are poorly understood. We use life history differences among populations of alewives, Alosa pseudoharengus, to test the effects of intraspecific phenotypic variation in a predator on pelagic zooplankton community structure and the strength of cascading trophic interactions. We focus on the effects of differences in 1) the duration of residence in freshwater (either seasonal or year-round) and 2) differences in foraging morphology, both of which may strongly influence interactions between alewives and their prey. We measured zooplankton community structure, algal biomass, and spring total phosphorus in lakes that contained landlocked, anadromous or no alewiv

Results/Conclusions

The duration of residence and intraspecific variation in foraging morphology both strongly influenced zooplankton community structure. Lakes with landlocked alewives had small-bodied zooplankton year-round and lakes with no alewives had large-bodied zooplankton year-round. In contrast, zooplankton communities in lakes with anadromous alewives cycled between large-bodied zooplankton in the winter and spring and small-bodied zooplankton in the summer. In summer, differences in feeding morphology of alewives caused zooplankton biomass to be lower and body-size smaller in lakes with anadromous alewives than in lakes with landlocked alewives. Furthermore, intraspecific variation altered the strength of the trophic cascade caused by alewives. Our results demonstrate that intraspecific phenotypic variation of predators can regulate community structure and ecosystem processes by modifying the form and strength of complex trophic interactions.