Application of the Sediment Quality Triad approach to non-pH-stressed Sudbu
ry area lakes clearly demonstrated increased metal (Cd, Co, Cu, and Ni) con
tamination, decreased abundances of some benthic invertebrates (amphipods,
pisidiid clams, and tanytarsiid midges), and severe sediment toxicity to am
phipods and mayflies. However, the bioavailability of metals and the cause
of biological effects cannot be identified from these data. Bioaccumulation
measurements, however, clearly demonstrated increased Cd, Co, and Ni bioav
ailability to Hyalella. Copper concentrations in Hyalella were not elevated
, in spite of much higher sediment Cu concentrations. Nickel was the only m
etal accumulated in sufficient amounts to cause toxicity. Toxicity in Hyale
lla caged above the sediments was equivalent to that of animals exposed dir
ectly in sediment, demonstrating that effects were due to dissolved metal a
nd not metals in the solid phase. Copper concentrations in overlying water
were much lower than Ni concentrations and insufficient to account for toxi
city. Including bioaccumulation data with traditional measurements of sedim
ent chemistry, benthic community composition, and sediment toxicity allows
quantification of metal bioavailability and identification of the cause of
toxicity. This approach results in a much more complete assessment of the b
iological impacts of metals in sediments.