Phytoplankton population dynamics of a small reservoir: physical/biological coupling and the time scales of community change

This paper describes the day-to-day changes in species compositionthat resulted from intermittent wind mixing of the surface watersof a small reservoir. Two major scales of community change weredetected: a short-term (>1 day) scale associated with theredistribution of cells within the basin, and a 5–14-dayscale associated with growth responses. The physical scalesof change were found to be almost identical to the biologicalscales: wind stress caused changes in the temperature gradientof surface waters at scales of a day, and major vertical mixingevents occurred at scales of 10–14 days. The presenceof buoyant species ensured that rapid advection of populationsfollowed wind events. Community change was a function of bothadvection and growth, so that both real and apparent changesin abundance occurred. The observed seasonal succession wasboth a true succession and a changing sequence of populationsdependent on horizontal advection of water within the basin.Consistent stratification was present throughout the summerperiod and phytoplankton diversity was low. Even so, the seasonalsuccession was best described as a series of allogenic perturbationsfollowed by biological restructuring of the community. Dailysampling was necessary to document fully the mechanisms drivingthe seasonal succession of species.