Abstract
Rainbow trout Oncorhynchus mykiss were exposed to 0, 100, 300 and 800 μgl −1 ambient Cu in brackish water (BW) for 4 days at 13 °C and subsequently transferred to either clean BW, clean fresh water (FW) or clean seawater (SW) at 16 °C. After incubation with 32P-phosphate and 14C-acetate added as precursors to the water the fish showed a degradation, depending on previous [CU], of 32P- and 14C-labelled gill membrane phospholipids if they had been transferred to SW or remained in BW. Corresponding experiments where the fish were exposed to Cu in BW for 12 days showed a similar subsequent degradation in SW and BW of both gill and esophagus membrane phospholipids, however to a much lesser degree in gill tissue than after 4 days. Plasma Na + was similarly reduced by up to 8%, depending on previous ambient Cu, but in this case only after transfer to FW and only after 4 days of exposure. Both the effect on membrane lipid metabolism and plasma Na + thus showed acclimation to ambient Cu but there was apparently no direct correlation between the two different types of observed changes in membrane function.
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