Releases of ingested phytoplankton carbon by Daphnia magna

1. The carbon budgets and assimilation efficiencies (AEs) of adults and juveniles of Daphnia magna were quantified using ¹⁴C as a tracer. Animals were fed pure Chlamydomonas reinhardtii or Scenedesmus obliquus at different food concentrations. Carbon AEs (46–70%) were comparable at food concentrations of 0.03–0.30 mg C L^?1 for both algal species, but decreased to 34–49% when the food concentration further increased by 10‐fold. The carbon AEs were significantly and negatively correlated with the food level. 2. During the postdigestive period, partitioning of ingested carbon into different compartments including excretion, respiration and egestion was not influenced by the food species and life stage. There was a negative correlation between respiration (as % of total loss) and food concentration and a positive correlation between egestion (as % of total loss) and food concentration. Dissolved organic carbon (DOC) and CO₂ accounted for 55–72% and 9–37%, respectively, of the total carbon loss from juveniles fed both algal diets. For adults, DOC and CO₂ contributed to 44–64% and 20–47% of the total carbon loss, respectively. Particulate organic carbon (POC) was a minor pathway for the overall carbon loss. 3. The turnover and release budget of structural carbon (as moults and neonate reproduction) were further evaluated in long‐term experiments at different algal concentrations. Food concentration did not affect the carbon efflux or the carbon allocation into different physiological compartments except for respiration. Juveniles had twofold lower carbon turnover rate (0.12–0.16 day^?1) than those of the adults (0.32–0.35 day^?1). In adults, comparable carbon was allocated into DOC (35–42%) and reproduction (27–35%), which were the dominant routes for carbon loss. For the juveniles, DOC accounted for 42–64% of the total carbon loss. 4. About 21–38% of the total DOC released by adults and juveniles was associated with the high molecular weight organic carbon fraction (>5 kDa). Our results show that carbon was mainly lost by D. magna in the form of DOC during assimilation process as well as from the structural materials. Reproduction or maternal transfer was another major drain of body carbon for adult D. magna.