Effects of dietborne copper and silver on reproduction by Ceriodaphnia dubia

Recent studies have indicated the potential for dietborne metals as an important exposure pathway for metal toxicity in freshwater organisms. We conducted a study in which freshwater cladocerans ( Ceriodaphnia dubia ) were fed green algae (either Pseudokirchneriella subcapitata or Chlorella vulgaris ) that were grown in Ag‐ or Cu‐contaminated media. In one series of toxicity tests patterned after the U.S. Environmental Protection Agency's three‐brood C. dubia chronic toxicity test, we exposed C. dubia to waterborne Ag or Cu while feeding them normal amounts of uncontaminated yeast–Cerophyll ® –trout chow (YCT) slurry and either algae grown in standard media or algae grown in standard media supplemented with Ag or Cu (added as AgNO 3 or CuSO 4 ·5H 2 O). These parallel tests demonstrated that dietborne metal did not contribute to survival or reproduction effects beyond the effects caused by waterborne metal alone. We also conducted dietborne‐only toxicity tests patterned after two other recently published experimental designs in which 1) C. dubia were fed only metal‐contaminated algae for 4 h, transferred to fresh water, and fed uncontaminated algae and YCT slurry for the duration of the three‐brood test or 2) C. dubia were fed standard amounts of metal‐contaminated algae and uncontaminated YCT slurry for the entire three‐brood test. In contrast to previous studies, we did not find consistent dietborne metal toxicity or standard concentration–response relationships in those two experiments. Instead, among‐experiment variation in intracellular partitioning of metals in the algae fed to the C. dubia , among‐laboratory differences in experimental procedures, selective feeding by C. dubia to avoid metal‐contaminated algae, an interaction between reproductive status of the C. dubia and dietborne metal concentration, or a combination of these might help explain the apparently inconsistent results.