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- Title
Flesh residue concentrations of organochlorine pesticides in farmed and wild salmon from British Columbia, Canada.
- Authors
Kelly, Barry C.; Ikonomou, Michael G.; Higgs, David A.; Oakes, Janice; Dubetz, Cory
- Abstract
The present study reports measured levels of organochlorine pesticides (OCPs) in commercial salmon feed ( n = 8) and farmed Atlantic, coho, and chinook salmon ( n = 110), as well as wild coho, chinook, chum, sockeye, and pink salmon ( n = 91). Flesh residue concentrations (ng/g wet weight) of dichlorodiphenyltrichloroethanes (DDTs), hexachlorocyclohexanes (HCHs), chlordanes, chlorobenzenes (CBz) and cyclodiene pesticides (e.g., dieldrin, mirex) were 2 to 11 times higher ( p < 0.05) in farmed salmon compared with wild salmon. Concentrations were positively correlated with flesh lipid levels. Farmed Atlantic salmon (12-15% lipid) typically exhibited the greatest OCP burdens compared with other salmon species. However, when expressed on a lipid weight basis, concentrations of OCPs (ng/g lipid weight) in wild salmon, in many cases, exceeded those levels in farmed salmon. Observed interspecies and site-specific variations of OCP concentrations in farmed and wild salmon may be attributed to divergent life history, prey/feed characteristics and composition, bioenergetics, or ambient environmental concentrations. Calculated biomagnification factors (BMF= CF/ CD, lipid wt) of OCPs in farmed salmon typically ranged between two and five. Biomagnification of chemicals such as DDTs, chlordanes, and mirex was anticipated, because those compounds tend to exhibit high dietary uptake and slow depuration rates in fish because of relatively high octanol-water partition coefficients ( KOWs > 105). Surprisingly, less hydrophobic pesticides such as hexachlorocyclohexanes and endosulfans ( KOWs < 105) consistently exhibited a high degree of biomagnification in farmed salmon species (BMFs > 5). This is contrary to previous laboratory and field observations demonstrating fish BMFs less than 1 for low KOW chemicals, because of efficient respiratory elimination of those compounds via gills. The results suggest that ambient seawater concentrations and bioconcentration-driven accumulation may play a key role in the bioaccumulation of these relatively more water-soluble contaminants in farmed salmon. Finally, OCP exposure through consumption of British Columbian salmon is found to be low relative to United States national average per capita total exposure levels and provisional tolerable daily intakes. Environ. Toxicol. Chem. 2011;30:2456-2464. © 2011 SETAC
- Subjects
BRITISH Columbia; SALMON; ORGANOCHLORINE compounds; PESTICIDES &; wildlife; BIOACCUMULATION; EFFECT of chemicals on fishes
- Publication
Environmental Toxicology & Chemistry, 2011, Vol 30, Issue 11, p2456
- ISSN
0730-7268
- Publication type
Article
- DOI
10.1002/etc.662