Poulsen, S.B.1; Svendsen, Jon Christian1; Aarestrup, Kim1; Malte, H.3
1 National Institute of Aquatic Resources, Technical University of Denmark2 Section for Freshwater Fisheries Ecology, National Institute of Aquatic Resources, Technical University of Denmark3 Aarhus University
Using rainbow trout Oncorhynchus mykiss, the present study demonstrated that: (1) calcium (Ca) increased the range of copper (Cu) concentrations that O. mykiss avoided; (2) Ca conserved the maintenance of pre-exposure swimming activity during inescapable acute (10 min) Cu exposure. Data showed that when presented with a choice of Cu-contaminated water (ranging from 0 to 454 µg Cu l(-1) ) and uncontaminated water in a choice tank, O. mykiss acclimated and tested at low Ca concentration (3 mg Ca l(-1) ) avoided the 10 µg Cu l(-1) only. By contrast, O. mykiss acclimated and tested at high Ca concentration (158 mg Ca l(-1) ) avoided all the Cu concentrations ≥37 µg l(-1) . The Cu avoidance was connected with increased spontaneous swimming speed in the Cu-contaminated water. When subjected to inescapable Cu exposure (35 µg Cu l(-1) ), O. mykiss acclimated and tested at low Ca concentration reduced their spontaneous swimming speed, whereas no response was observed in O. mykiss acclimated and tested at high Ca concentration. Collectively, the data support the conclusion that in O. mykiss the behavioural responses to acute Cu exposure are Ca-dependent.
Journal of Fish Biology, 2014, Vol 84, Issue 5, p. 1326-1339
Animals; Avoidance Learning; Calcium; Copper; Environmental Exposure; Oncorhynchus mykiss; Swimming; Water; Water Pollutants, Chemical