Copper, cadmium, and zinc concentrations in juvenile chinook salmon and selected fish-forage organisms (aquatic insects) in the upper Sacramento River, California

This study assessed the downstream extent and severity of copper (Cu), cadm ium (Cd), and zinc (Zn) contamination from acid mine drainage on juvenile c hinook salmon (Oncorhynchus tshawytscha) and aquatic insects over a roughly 270-km reach of the Sacramento River below Keswick Reservoir. During April -May 1998, salmon were collected from four sites in the river and from a fi sh hatchery that receives water from Battle Creek. Salmon from river sites were examined for gut contents to document their consumption of various inv ertebrate taxa, whereas salmon from river sites and the hatchery were used for metal determinations. Midge (Chironomidae) and caddisfly (Trichoptera) larvae and mayfly (Ephemeroptera) nymphs were collected for metal determina tions during April-June from river sites and from Battle and Butte creeks. The fish hatchery and Battle and Butte creeks served as reference sites bec ause they had no history of receiving mine drainage. Salmon consumed mostly midge larvae and pupae (44.0%, damp-dry biomass), caddisfly larvae (18.9%) , Cladocera (5.8%), and mayfly nymphs (5.7%). These results demonstrated th at insects selected for metal determinations were important as fish forage. Dry-weight concentrations of Cu, Cd, and Zn were generally far higher in s almon and insects from the river than from reference sites. Within the rive r, high metal concentrations persisted as far downstream as South Meridian (the lowermost sampling site). Maximum concentrations of Cd (30.7 mug g(-1) ) and Zn (1230 mug g(-1)), but not Cu (87.4 mug g(-1)), in insects exceeded amounts that other investigators reported as toxic when fed for prolonged periods to juvenile salmonids.