Robert D. Holt1, Gary R. Huxel2, and Michael Barfield1. (1) University of Florida, (2) University of Arkansas
A rich body of theoretical literature now exists focused on the three-species module of intraguild predation (IGP), in which a top predator both attacks and competes with an intermediate predator. Simple models of intraguild predation are often unstable, either because one consumer is excluded, or because sustained oscillations emerge from long feedback loops. Yet many natural IGP systems robustly persist. Standard models of intraguild predation simplify natural systems in crucial ways that could influence persistence; in particular, many empirical IGP systems are embedded in communities with alternative prey species. We briefly review the key conclusions of standard 3-species IGP theory, and then present results of theoretical explorations of how alternative prey can influence the persistence and stability of a focal intraguild predation interaction. Alternative prey can both stabilize and destabilize intraguild predation, permit novel alternative stable states for communities, and alter patterns of abundance along productivity gradients.