Warmer temperature increases toxicokinetic elimination of PCBs and PBDEs in Northern leopard frog larvae (Lithobates pipiens)

•PCB & PBDE elimination by tadpoles increased with increasing rearing temperature.•Steady-state concentrations did not change with increasing rearing temperature.•Apparent activation energy for PCB elimination may be similar to that for uptake.•Bioaccumulation of many toxicants may change very l...

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Published in:Aquatic toxicology 2021-05, Vol.234, p.105806-105806, Article 105806
Main Authors: Brown, Cherry T, Yahn, Jeremiah M, Karasov, William H
Format: Article
Language:English
Subjects:
Animals
Bioaccumulation
Climate warming
Halogenated Diphenyl Ethers - chemistry
Halogenated Diphenyl Ethers - metabolism
Halogenated Diphenyl Ethers - toxicity
Larva - chemistry
Larva - drug effects
Larva - metabolism
Metabolic ecology
Polybrominated diphenyl ethers
Polychlorinated biphenyls
Polychlorinated Biphenyls - chemistry
Polychlorinated Biphenyls - metabolism
Polychlorinated Biphenyls - toxicity
Rana pipiens - growth & development
Rana pipiens - metabolism
Temperature
Toxicokinetics
Water Pollutants, Chemical - metabolism
Water Pollutants, Chemical - toxicity
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Summary:•PCB & PBDE elimination by tadpoles increased with increasing rearing temperature.•Steady-state concentrations did not change with increasing rearing temperature.•Apparent activation energy for PCB elimination may be similar to that for uptake.•Bioaccumulation of many toxicants may change very little at warmer temperatures. We studied the temperature dependence of accumulation and elimination of two polychlorinated biphenyls (PCBs; PCB-70 and PCB-126) and a commercial mixture of congeners of polybrominated diphenyl ethers (PBDEs; DE-71™)) in Northern leopard frog (Lithobates pipiens) tadpoles. We reared tadpoles at 18, 23, or 27 °C for 5.3 or up to 13.6 weeks (longer at cooler temperature where development is slower) on diets containing the toxicants, each at several different toxicant concentrations, and compared tissue concentrations as a function of food concentration and rearing temperature. Following > 1 month of accumulation, tissue concentrations of all three toxicants in exposed tadpoles were linearly related to dietary concentrations as expected for first order kinetics, with no significant effect of rearing temperature.We also raised free-swimming L. pipiens tadpoles for 14 days on foods containing either toxicant at 18 or 27 °C during an accumulation phase, and then during depuration (declining toxicant) phase of 14 days we provided food without toxicants and measured the decline of toxicants in tadpole tissue. All the congeners were eliminated faster at warmer rearing temperature, as expected. Using Arrhenius’ equation, we calculated that the apparent activation energy for elimination of both PCB congeners by tadpoles was 1.21 eV (95% confidence interval 0.6–1.8 eV). We discuss how this value was within the range of estimates for metabolic reactions generally (range 0.2 – 1.2 eV), which might include metabolic pathways for biotransformation and elimination of PCBs. Furthermore, we discuss how the lack of an effect of rearing temperature on tadpole near-steady-state tissue residue levels suggests that faster elimination at the warmer temperature was balanced by faster uptake, which is plausible considering the similar temperature sensitivities (i.e., activation energies) of all these processes. Although interactions between toxicants and temperature can be complex and likely toxicant-dependent, it is plausible that patterns observed in tadpoles might apply to other aquatic organisms. Published data on depuration in 11 fish species eliminating 8
ISSN:0166-445X
1879-1514
DOI:10.1016/j.aquatox.2021.105806