One-year-old whitefish, Coregonus lavaretus, were exposed to three types of iron-rich water, two dilutions for each, in a subchronic (30-day) experiment. In natural iron-rich humic water, both the bioaccumulation and physiological effects of iron exposure were negligible. In humic-free water with high amount of additional inorganic iron (nominally 8 mg Fe/L), Fe accumulated in gills, liver, and gut. This accumulation was accompanied by decreased glycogen phosphorylase activities and microsomal EROD activity in the liver as well as decreased plasma sodium and potassium concentrations. The third group of whitefish were exposed by adding inorganic iron (nominally 2 and 8 mg Fe/L) to natural iron-rich humic water. Fish exposed to the higher concentration of waterborne iron exhibited a physiological stress response as indicated by increased blood lactate and plasma cortisol concentrations. Additionally, plasma 17beta-estradiol concentration was increased in fish kept in both water conditions with high amounts of additional iron. The observed dissimilarities in bioaccumulation and in physiological responses were not connected with the measured amounts of total or dissolved iron in water, but to the amount of additional iron in tanks and to the different water conditions with or without organic matter. The dissimilarity of physiological responses, which was also shown by statistical classification through multivariate discriminant analysis, points to the necessity of variable and complementary physiological endpoints in describing the effects of similar kind of exposures.http://link.springer-ny. com/link/service/journals/00244/bibs/37n2p196.html
Exposure of fish to water of impaired quality has been shown to disrupt the function of the hypothalamo-pituitary-interrenal (HPI) axis and alter the interpretation of data from field studies due to the varying effects of handling and delayed sampling on exposed and reference animals. In the present study, juvenile whitefish, Coregonus lavaretus, were exposed for 6 weeks to diluted (4-8%) untreated and biologically treated bleached kraft mill effluent (BKME) and their response to acute handling was investigated. Liver microsomal EROD activity and glycogen phosphorylase (GPase) activity, in addition to gill Na+-K+-ATPase activity, and blood hemoglobin and hematocrit levels were increased in whitefish exposed for 6 weeks to untreated BKME, whereas those exposed to treated BKME exhibited increased blood hemoglobin and red blood cell K+ concentrations. Both handling procedures, exposure to a shallow water (10 cm, 5 min) and to an air challenge (10 s air/10 s water/30 s air/10 s water/10 s air), resulted in acute physiological stress, as recorded after 5-, 60-, and 120-min recovery periods. Following air exposure, the levels of plasma cortisol, blood glucose, hemoglobin, and hematocrit as well as the liver GPase activity were increased, and liver glycogen concentration decreased in control fish. These responses were attenuated in fish exposed to untreated or treated BKME. Plasma estradiol and testosterone levels were not affected by the BKME exposures or by the air challenge. Handling also resulted in attenuated EROD induction in fish exposed to untreated BKME. According to the present findings, the sensitivity of some widely used cellular and physiological variables may be improved by time-dependent standardization when interpreting data obtained following delayed sampling.
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