MODELING SILVER-BINDING TO GILLS OF RAINBOW-TROUT (ONCORHYNCHUS-MYKISS)

Rainbow trout (Oncorhynchus mykiss, 1-3 g) were exposed to similar to 0.1 mu M silver (Ag) (similar to 11 mu g . L(-1) Ag) for 2 to 3 h in s ynthetic soft water (Ca, Na similar to 300 mu M, PH 6.5-7.5) to which was added Ca, Na, H+, dissolved organic carbon (DOC), Cl, or thiosulfa te (S2O3). Gills were extracted and gill Ag concentrations were measur ed using graphite-furnace atomic absorption spectrophotometry. The con centrations of cations (Ca, Na, H+) and complexing agents (DOC, Cl, S2 O3) needed to keep Ag off the gills were used to calculate conditional equilibrium binding constants (K) at the gills. Log K for Ag-gill bin ding was 10.0, with approximately 1.3 nmol Ag binding sites per fish. All experimentally determined log K values were entered into an aquati c chemistry equilibrium model, MINEQL(+), to predict Ag binding at tro ut gills. For a series of natural waters, model-predicted gill Ag conc entrations, correlated well with observed gill Ag concentrations, with one exception, very hard city of Waterloo tapwater. This exception ma y indicate a kinetic constraint on the thermodynamic basis of the mode l.