Toxicokinetics of polybrominated diphenyl ethers across life stages in the northern leopard frog ( Lithobates pipiens )

Polybrominated diphenyl ethers (PBDEs), a class of flame retardants, are bioaccumulative toxins that can biomagnify in food webs. However, little is known about the toxicokinetics of total and congener‐specific BDEs in lower vertebrates. The authors exposed northern leopard frog ( Lithobates ( Rana ) pipiens ) tadpoles to diets containing DE‐71 (a pentabromodiphenyl ether mixture (0 ng/g as control, 71.4 ng/g, and 634 DE‐71 ng/g wet mass)) for 50 d, followed by a period of depuration during which they were fed only undosed (control) food. After 28 d, tadpoles eliminated over 94% of the ΣPBDEs from their tissues ( t ½  = 5.9 ± 1.9 d) with no significant differences in elimination rates for the predominant congeners. Elimination of BDE‐99 was independent of dose, indicating first‐order kinetics. It did not fit a biexponential model significantly better than a monoexponential model, indicating single‐compartment elimination. To compare developmental life‐stage kinetics following larval exposure, the authors collected individuals at the beginning and end of metamorphosis and at 70 d postmetamorphosis. During metamorphosis, total‐body residues per individual did not significantly change, implying little to no elimination. After 70 d, juvenile frogs eliminated 89.7% of the ΣPBDEs from their tissues, and BDE‐47 was eliminated at a faster rate ( t ½ = 17.3 d) than BDE‐99 and BDE‐100 ( t ½  = 63.0 d and 69.3 d, respectively). Because the kinetics of PBDEs in L. pipiens differed among life stages, developmental life stage—especially for species that undergo metamorphosis—should be considered when determining the toxicity of persistent organic pollutants. Environ Toxicol Chem 2013;32:1631–1640. © 2013 SETAC