The use of ¹⁴C-labeled bacteria as a tracer of ingestion and metabolism of bacterial biomass by microbial grazers

A method for radiolabeling marine bacteria with d-[U-¹⁴C] glucose and a radiotracer method for measuring ingestion and metabolism of bacterial biomass by ciliated protozoa and other microzooplankton are presented. Problems associated with using live bacterial tracers, i.e., label retention, label recycling, tracer cell size and morphology, and intracellular distribution of label are evaluated. Bacterioplankton assemblages collected from field samples incorporated and retained label as efficiently as coastal isolates which were selected for glucose incorporation. Under grazing experimental conditions, labeled bacteria retained a high proportion of the label (hourly net loss = 1.2%). Bacterial recycling of released dissolved organic ¹⁴C (DO¹⁴C) was 0-2.2% of total ¹⁴C per h. Addition of labeled assemblages to nearshore water samples did not detectably alter mean cell size or size frequency distribution of the attendant bacterioplankton assemblages. In grazing experiments with cultured ciliates (Euplotes sp. and Uronema sp.), radioassay parameters varied as direct functions of predator and prey concentrations. Microautoradiographic analysis corroborated that ¹⁴C incorporation measured in the radioassay by filtration techniques primarily represented ingested bacterial biomass and that problems associated with attached and adsorbed labeled bacteria were minimized. Grazing experiments conducted with bacteria labeled with [U-¹⁴C]glucose yielded ingestion rates comparable to bacteria labeled with [U-¹⁴C]thymidine and additionally provided respiration and exudation rates.