Concentrations of Cadmium, Mercury and Selenium in Blood, Liver and Kidney of Common Eider Ducks from the Canadian Arctic |
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Authors: | M Wayland A J Garcia-Fernandez E Neugebauer H G Gilchrist |
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Institution: | (1) Prairie and Northern Wildlife Research Centre, Environment Canada, Saskatoon, Saskatchewan, Canada;(2) Department of Veterinary Toxicology, Faculty of Veterinary Medicine, University of Murcia, Espinardo Campus, Murcia, Spain;(3) National Wildlife Research Centre, Canadian Wildlife Service, Hull, Quebec, Canada;(4) Canadian Wildlife Service, Environment Canada, Suite 301, 5204, Yellowknife, Northwest Territories, Canada |
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Abstract: | We determined concentrations of selected trace elements inlivers, kidneys and blood samples from common eiders (Somateria mollissima borealis) from the eastern Canadianarctic during 1997 and 1998. Concentrations of totalmercury and organic mercury were generally low in the liversof these birds (less than 6 and 4 g g–1 dry wt,respectively). Selenium ranged between 11–47 g g–1 inlivers. Renal cadmium concentrations were among the highestever published for this species (range: 47–281 g g–1). The regressions of log-transformed concentrations ofthese trace elements in blood samples on those in liver orkidney were significant (all P-values < 0.05) andpositive. However, except for organic mercury (RM
2 = 0.83), the co-efficients of determination were low tomoderate (range of R
2: 0.26–0.52), suggesting poorto moderate predictive capability. Furthermore, therelationships between total mercury in blood and liverchanged between 1997 and 1998, suggesting that it would notbe possible to predict consistently, concentrations ofmercury in blood from those in liver based on samples takenin one year. Blood samples can be used to determineconcentrations of these trace elements in common eiders (andprobably other sea duck species as well). The use of bloodsamples is especially warranted when it is undesirable tokill the animal such as when working with rare or endangeredsea duck species or when the objective is to relate traceelement exposure to annual survival rates. However, thepredictive equations developed here should not be used topredict expected concentrations in one type of tissue fromthose in the other. |
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Keywords: | arctic blood cadmium common eider kidney liver mercury metals sea ducks selenium |
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