Physiological responses to acute silver exposure in the freshwater crayfish (Cambarus diogenes diogenes)—a model invertebrate?

Abstract

Adult crayfish (Cambarus diogenes diogenes) exposed to 8.41 ± 0.17 μg silver/L (19.4% as Ag⁺) in moderately hard freshwater under flow‐through conditions for 96 h exhibited ionoregulatory disturbance, elevated metabolic ammonia (T^amm) production and substantial silver accumulation in the gills, hemolymph, and hepatopancreas. The ionoregulatory disturbance included both a generally reduced unidirectional Na⁺ influx and an increased unidirectional Na⁺ efflux, leading to a substantial net loss of Na⁺ from the silver‐exposed crayfish. The Na⁺ uptake in silver‐exposed crayfish differed overall from controls, while the increased Na⁺ efflux recovered to control values 48 h into the 96 h of exposure. The general inhibition of Na⁺ uptake could be explained by a reduced sodium/potassium‐adenosine triphosphatase (Na/K‐ATPase) activity in terminally obtained gill samples from the silverexposed crayfish. The silver‐induced effect on Na⁺ uptake and loss translated to reduced hemolymph Na⁺ concentrations but not significantly reduced hemolymph Cl⁻ concentrations. Hemolymph T^amm and T^amm efflux both increased in silver‐exposed crayfish, indicating an increased metabolic T^amm production. The present study demonstrates that the toxic mechanism of waterborne silver exposure in freshwater crayfish resembles that of freshwater teleost fish. The crayfish might therefore be a useful model system for extending current environmental regulatory strategies, currently based on teleost fish, to invertebrates.