Resource Ecology of Virulence in a Planktonic Host-Parasite System: An Explanation Using Dynamic Energy Budgets

Parasites steal resources that a host would otherwise direct toward its own growth and reproduction. We use this fundamental notion to explain resource-dependent virulence in a fungal parasite (Metschnikowia)-zooplankton host (Daphnia) system and in a variety of other disease systems with invertebrate hosts. In an experiment, well-fed hosts died faster and produced more parasites than did austerely fed ones. This resource-dependent variation in virulence and other experimental results (involving growth and reproduction rate/timing of hosts) readily emerged from a model based on dynamic energy budgets. This model follows energy flow through the host, from ingestion of food, to internal energy storage, to allocation toward growth and reproduction or to a parasite that consumes these reserves. Acting as a consumer, the parasite catalyzes its own extinction, persistence with an energetically compromised host, or death of the host. In this last case, more resources for the host inadvertently fuels faster parasite growth, thereby accelerating the demise of the host (although the opposite result arises with different resource kinetics of the parasite). Thus, this model can explain how resource supply drives variation in virulence. This ecological dependence of virulence likely rivals and/or interacts with genetic mechanisms that often garner more attention in the literature on disease.