Juvenile pollock (Pollachius virens) school in open water at low tide
and disperse in beds of intertidal algae at high tide. The goal of the
present study was to determine whether both aggregation and use of al
gal habitat represent alternative antipredator tactics for pollock, an
d whether their occurrence depended on the number of fish present and
the amount of algal habitat available. We systematically varied fish d
ensity and algal availability in large (8-m(2)) arenas and examined di
stributions before and after exposure to an avian predator model, a st
uffed cormorant (Phalacrocorax auritus). Pollock preferred the algal h
abitat, and the proportion of fish in the algae increased as the amoun
t of algal habitat increased. When density of fish in the arena increa
sed, the number of fish in the algal habitat increased, but the propor
tion decreased. Following exposure to the predator model, the proporti
on of fish in the algae increased. Fish in the open were aggregated mo
st of the time, but there was a trend toward increased aggregation of
those fish remaining in the open following exposure to the predator. T
hus, the use of two alternative antipredator tactics can produce very
dynamic spatial distributions. Because the benefits of aggregations ar
e positively density dependent while those of refuges are likely negat
ively density dependent, species that use both tactics are likely to s
how dramatic shifts in habitat distribution with changes in population
size and refuge availability.