Selenite toxicity and mercury-selenium interactions in juvenile fish.

Abstract

Acute lethal toxicities of selenium and the effects of selenium on mercury accumulation were determined in freshwater fish species. Selenite concentrations required to produce 50% mortality were approximately 11 mg Se/L in northern pike (Esox lucius), 29 mg Se/L in white sucker (Catostomus commersoni), and 5 mg Se/L in yellow perch (Perca flavescens) after 75, 96, and 240 hr of exposure, respectively. Two approaches were used to determine effects of water-borne selenium on mercury concentrations in northern pike. In the first, a trend of reduced mercury contamination at a low selenium concentration (1 ug Se/L) with maintenance at control mercury contamination levels at a higher selenium concentration (100μg Se/L) was apparent. In the second, a similar response of decreased CH3 203Hg accumulation in muscle-skin at lower selenium concentrations (1 and 10μg Se/L), but maintenance at control accumulation levels at a higher selenium concentration (100μg Se/L) was observed. Results and knowledge requirements are discussed with emphasis on relevance to increasing deposition rates of these chemical elements to freshwater ecosystems and using selenium to treat mercury-contaminated aquatic systems.