Temporal variability of phytoplankton in a salt wedge estuary, the Swan–Canning Estuary, Western Australia

Abstract The temporal cycles of variation in salinity, temperature and river flow in the Swan–Canning Estuary plus rainfall in the vicinity are examined. A ‘normal’ pattern is defined for rainfall and river flow based on long‐term median monthly values from available historical data. Long‐term monthly median rainfall and median monthly river flow were highly correlated. Deviations from the ‘normal’ patterns of rainfall and river flow are documented. Three years of detailed data on the temporal distribution of the algal biomass and phytoplankton community composition from the Swan–Canning Estuary are presented and discussed. Significant interannual variability in the phytoplankton biomass was observed with 1996 having a significantly lower median chlorophyll a concentration than 1995 or 1997. Different years also had pronounced differences in the timing, persistence and occurrence of algal blooms. Links with, and between, rainfall, river flow, nutrient concentrations and phytoplankton biomass are made by careful examination of the temporal patterns. Deviations from the proposed ‘normal’ temporal pattern of physical and chemical environmental factors relevant to the growth of phytoplankton biomass are assessed. Deviations from ‘normal’ rainfall and river flow, depending upon their timing and intensity, appear to be associated with occurrence of algal blooms. For example, the lack of a dinoflagellate bloom in December 1996 or January 1997 appears to be associated with a wetter than normal spring. Based upon the observed data, published reports and basic principles of algal ecology a set of predicted responses to variation in the major environmental variables (rainfall and river flow) are tabulated. The tabulated predictions are proposed as a useful tool for resource managers. Copyright © 2001 John Wiley & Sons, Ltd.