Toxicokinetic of benzo[a]pyrene and fipronil in female green frogs ( Pelophylax kl. esculentus)

A general consensus that an increased log K ow led to an increase in xenobiotic uptake and bioaccumulation is accepted. In this study we compared the toxicokinetics of two chemically different xenobiotics, i.e. benzo[a]pyrene and fipronil in female green frogs. Surprisingly, the uptake rates and the bioconcentration factors (BCF) of the two contaminants were not predicted by their log K ow. The uptake rates obtained were of the same order of magnitude for the two contaminants and the BCFs measured for fipronil were about 3-fold higher than those obtained for benzo[a]pyrene. Fipronil appeared to be more recalcitrant than benzo[a]pyrene to detoxification processes leading to the accumulation of sulfone-fipronil especially in the ovaries. This phenomenon may explain reproductive influence of this contaminant described in other studies. Detoxification processes, including metabolism and the excretion of pollutants, are of importance when considering their persistence in aquatic organisms and trying to quantify their risks. [Display omitted] ► The uptake of benzo[a]pyrene is 1.5–3 times higher than for fipronil. ► Fipronil was more recalcitrant than benzo[a]pyrene to detoxification processes. ► This lead to increased-bioaccumulation factors except in excretion organs. ► Amphibians can be used as biomonitors for persistent pollutants. Fipronil is more recalcitrant than benzo[a]pyrene to detoxification processes in frog.