CONICET | Buscador de Institutos y Recursos Humanos

Short-time-scale (days) lotic investigations during low-discharge conditions are appropriate for elucidating trophic relationships within plankton. The objectives of this study were to determine the successional changes in the zooplankton biomass, the relationship of that biomass to physical parameters and palatable phytoplankton species, and to evaluate the observational time scale. Plankton samples were taken thrice weekly at two sampling stations in the Salado River lower sector (Buenos Aires province, Argentina). Since almost one-third of the country?s agricultural and cattle productions come from the Salado-River basin with their resulting impacts (nutrients, suspended material) in the basin, limnological research has been conducted there during recent decades. To estimate grazing, we employed three models and also the relationship between the zoo- and nanoplankton biomasses. The seasonal temperature and conductivity changes indicated three clearly different periods and were the main parameters driving the seasonal succession of the zooplankton. During the first period, the total zooplankton biomass was less than in the other two, with the tintinnids predominating. Later, the rotifers became prevalent with a predomination by Brachionus plicatilis and Keratella tropica. The grazing pressure of the r-strategy dominated zooplankters was highly variable. Zooplankter-species replacement by those of different grazing efficiencies promoted changes in the phytoplankton structure and nanoplankton biomass. A top-down effect on the total phytoplankton biomass by the zooplankton was not detected, though an abundance diminution for certain palatable algae was observed. The biomass of the nanoplankton species was significantly related to the total zooplankton biomass, with the highest rotifer values being associated with an exponential decrease in the nanoplankton biomass.