Models of Cadmium Accumulation and Toxicity to Hyalella azteca during 7-and 28-Day Exposures

The inhibition of Cd accumulation by Ca in the amphipod Hyalella azteca in short-term (7-d) exposures appears to follow anti-competitive, rather than competitive, inhibition. Increasing Ca reduces Cd accumulation more at high than at low Cd concentrations. Cadmium accumulation and toxicity in chronic exposures can be predicted using the 7-d model to which the effects of acclimation, Cd inhibition of acclimation, and growth dilution are added. The resultant model is complex and species-specific, making it unwieldy for direct application in water quality guideline or criteria development. However, it does demonstrate that a mechanistic explanation of the relationship between short- and long-term accumulation and toxicity is possible, as well as suggest why the acute-to-chronic ratio changes with water chemistry. It is not, therefore, appropriate to estimate chronic Cd toxicity to H. azteca from acute toxicity assuming a constant acute-to-chronic ratio. The standard Biotic Ligand Model (BLM) can also be fit to the chronic bioaccumulation and toxicity data. This may be a more practical approach to guideline or criteria development, provided it is understood that this is an empirical fit of the model and that the underlying mechanisms are far more complex than those invoked in the standard BLM.