Variation in disturbance to a foundation species structures the dynamics of a benthic reef community.

Disturbance and foundation species can both have strong impacts on ecosystem structure and function, but studies of their interacting effects are hindered by the long life spans and slow growth of most foundation species. Here, we investigated the extent to which foundation species may mediate the impacts of disturbance on ecological communities, using the kelp forest ecosystem as a study system. Giant kelp (Macrocystis pyrifera) grows rapidly and experiences wave disturbance from winter storms. We developed and analyzed a model of the effects of variable storm regimes on giant kelp population dynamics and of the cascading effects on kelp-mediated competition between benthic community members in kelp forests. Simulations of severe storm regimes resulted in a greater abundance of understory macroalgae and a lower abundance of sessile invertebrates than did milder regimes. Both the cascading effects of periodic loss of giant kelp as well as the degree to which storms directly impacted the benthos (in the form of scouring) influenced the outcome of competition between benthic community members. The model's qualitative predictions were consistent with empirical data from a 20-yr time series of community dynamics, suggesting that interannual variability in disturbance that affects giant kelp abundance can have strong consequences for benthic community structure. Our findings point to the value of long-term studies in elucidating the interacting effects of disturbance and foundation species.