Predators can have highly variable effects on the abundance and composition
of food webs, ranging from strong to weak effects of top predators. Typica
l food web models assume that individual prey are identical in their suscep
tibility to predators throughout their lives, but many prey species become
less vulnerable to predators through ontogeny. A simple set of models is ex
plored where prey must pass through a vulnerable stage prior to achieving a
predator-invulnerable size refuge. As productivity of the environment incr
eases, the proportional impact of predators decreases because more individu
als become and remain in the invulnerable adult stage. The addition of a co
mpetitor prey species that can not achieve size refuge results in contrasti
ng outcomes. At low productivity the small species wins in competition, and
the system is strongly consumer controlled At high productivity, the large
species wins due to the presence of predators, and the system becomes less
consumer controlled. At intermediate productivity either the small or the
large species can win depending on initial conditions, and the system can b
e either strongly or weakly consumer controlled Such alternative stable equ
ilibria derived from models with prey size refugia may help to explain many
natural situations.