Abstract
Bioaccumulation and metabolism ofp,p′-DDT was studied in the marine carnivorous fishLates calcarifer, Asian seabass, in a controlled aquaculture experiment. Over a 42-d period, seabass were fed pellets dosed withp,p′-DDT at environmentally realistic levels. Virtually allp,p′-DDT in pellets bioaccumulated in the fish with an uptake efficiency of 98%. The levels ofp,p′-DDT and the metabolitesp,p′-DDD andp,p′-DDE were analyzed in muscle, liver, visceral fat, brain, and remaining tissues. Partitioning of p,p′-DDT and its metabolites among the control, low-dose, and high-dose exposed seabass were 14.8% in muscle, 3.5% in liver, 37.1% in visceral fat, 0.11% in brain, and 45.5% in remaining tissues, where partitioning between tissues was a function of tissue lipid content.p,p′-DDT bioaccumulation increased linearly with exposure in visceral fat and muscle tissue. The metabolism ofp,p′-DDT, which occurs mainly in the liver, resulted in the degradation of 2.5% ofp,p′-DDT intop,p′-DDD,. These new findings show that bioaccumulation processes at environmentally realistic ingestion exposure levels (ng/g) differ from previous DDT ingestion studies conducted at unrealistically high DDT levels (μg/g), highlighting the need to revise models on the transfer of persistent organic pollutants in the marine environment and aquaculture systems.
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