Kinetic analysis of zinc accumulation in the gills of juvenile rainbow trout: Effects of zinc acclimation and implications for biotic ligand modeling

Juvenile rainbow trout were acclimated to hard water (Ca2+ = 1.0 mM, Mg2+ = 0.2mM; hardness = 120 mg CaCO3/L) and hard water plus 250 mu g/L Zn (3.8 m u M). After 30 d of exposure, there was no difference in the total Zn level s of the gills of Zn-exposed and control fish (similar to 70 mu g Zn/g gill ). Exposure of both groups to a range of Zn concentrations (0-2,900 mu g/L Zn) for up to 7 d also had no effect on the measured total Zn levels in the gills. However, using radiolabeled Zn-65, measurement of new Zn appearance in the gills was possible. Trout were exposed to a range of Zn concentrati ons (with Zn-65) and the gills were sampled at times ranging from 0.5 to 72 h. The fast turnover pool of Zn in the gills increased with increasing acu te Zn exposure concentration, while the maximum size of the fast pool was a bout ninefold larger in Zn-acclimated fish (4.14 mu g Zn/g gill) versus con trol fish (0.45 mu g Zn/g gill). At all sampling times, gill Zn-65 accumula tion exhibited saturation kinetics, allowing calculation of binding capacit y (B-max) and affinity (K-d). In both control and Zn-acclimated trout, K-d decreased rapidly (affinity increased) from 0.5 to 3 h and then remained co nstant up to 72 h. B-max increased rapidly from 0.5 to 3 h in both groups, then the rate of increase began to subside but was still increasing from 24 to 72 h. At all times, the K-d of Zn-acclimated fish was higher (i.e., low er affinity) and B-max was greater than controls. The stabilized K(d)s (>3 h) were approximately 280 mu g/L total Zn (log K = 5.6 as Zn2+) and 575 mu g/L total Zn (log K = 5.3 as Zn2+) in control and Zn-acclimated fish, respe ctively. The B-max of control fish at 0.5 h was 0.37 mu g Zn/g gill and inc reased to 8.63 mu g Zn/g gill by 72 h. The B-max of Zn-acclimated fish incr eased from 0.70 to 11.61 mu g Zn/g gill over the same time period. Preexpos ure to 250 mu g/L Zn appeared to have little effect on acute zinc toxicity, though the 96-h LC50s for both groups were relatively high (similar to 3,0 00 mu g/L Zn) in comparison to previous measurements. The relationship betw een gill binding constants for different metals and relative toxicity is cr itically assessed with respect to biotic ligand modeling.