Measuring soil protist respiration and ingestion rates using stable isotopes

Protists have a direct effect on soil nutrient cycling due to their abundance, diversity and assimilation rates of bacterial biomass. Here for the first time stable isotopes have been utilised to quantify respiration and ingestion rates of soil protists. We show that microcosms can generate values for these variables within the instrument detection range. Through consumption of enriched bacteria, indigenous agricultural grassland soil protists obtained an enrichment of 6.8 atom% (+/- 1.67) for C-13 and 16.4 atom% (+/- 4.34) for N-15. Bacteria were consumed at a rate of 41 (+/- 0.04) bacteria h(-1) protist(-1) during the initial 24 h period of incubation. Protist respiration monitored over time equated to an increase of 0.15 atom% excess (+/- 0.036) in (CO2)-C-13 respired per minute and an accumulation of 0.7 fg (+/- 0.36) CO2-C protist(-1) min(-1). These results provide numbers quantifying the assimilation efficiencies of soil protists, their effect on labile biomass turnover and the flow of C and N through the soil food web. (C) 2012 Elsevier Ltd. All rights reserved.