Physiology of acute silver toxicity in the starry flounder (Platichthys stellatus) in seawater

Physiological effects of exposure to silver (AgCl_n ⁿ⁻¹; 250 μg Ag l⁻¹ or 1000 μg Ag l⁻¹) in seawater fish were investigated using adult starry flounders. While all fish survived up to 10 days in 250 μg Ag l⁻¹, flounders started to die after day 4 in 1000 μg l⁻¹. Dose-dependent increases in plasma and hepatic silver concentrations showed that silver was available for uptake. There were minimal negative effects on hematological parameters, acid-base status, and blood gases. Plasma ammonia showed a pronounced (three- to four-fold), but transient increase in flounders exposed to either 250 μg Ag l⁻¹ or 1000 μg Ag l⁻¹. Whole body ammonia and acid equivalent efflux measurements indicated that ammonia retention was due to a combination of stimulated production and inhibited excretion. In the 1000-μg Ag l⁻¹ group there was a similar transient increase in plasma magnesium], which was restored by day 4. In contrast, plasma chloride and sodium levels increased gradually towards the point when fish began to die. At 250 μg Ag l⁻¹, the Na⁺/K⁺-ATPase activity of the intestine was unaffected but there was a two-fold increase in branchial Na⁺/K⁺-ATPase activity. The latter effect was interpreted as compensation for an elevated chloride and sodium load. The increases in plasma chloride and sodium concentrations were accompanied by a marked suppression of drinking, thereby indicating that acute silver toxicity was likely caused by a combination of elevated electrolyte concentrations and dehydration. Accepted: 9 June 1999