Relationship among the acute toxicity, critical body residue, and bioconcentration of ortho-dinitrobenzene in zebrafish (Danio rerio) based on toxicokinetics
2020
Jiang, Haibo | Zheng, Shanshan | Yan, Lichen | Wang, Yue | Yang, Bingjun | Wen, Yang | Zhao, Yuanhui
The internal critical concentration represented by the critical body residue (CBR) is an ideal indicator for reflecting the toxicity of a chemical. Although some authors have realized that the CBR₅₀ can be calculated from the LC₅₀ via the bioconcentration factor (BCF), the effects of exposure time and exposure concentration on the relationship between the LC₅₀ and CBR₅₀ have not been investigated to date. In this paper, the LC₅₀ and CBR₅₀ of ortho-dinitrobenzene in zebrafish were experimentally determined and their relationship was investigated. The results showed that ortho-dinitrobenzene exhibited excess toxicity and cannot completely be identified as a reactive compound based on toxic ratio. Comparison of the measured CBR₅₀ and the CBR₅₀ calculated from the LC₅₀ via the BCF showed that there was a 0.46 log unit difference. Investigation of the relationship between the concentration in fish calculated by the toxicokinetic model and exposure time showed that the bio-uptake of fish was fast and reached a steady state in the toxicity test, indicating that the difference in CBR₅₀ values could not be attributed to the different exposure times used in toxicity and BCF assays. On the other hand, investigation of the measured bioconcentration ratio (BCR) showed that the BCR (or BCFₐₚₚ) decreased with increasing exposure concentration. Compared with the CBR₅₀ calculated from the LC₅₀ via the BCF, the CBR₅₀ calculated from the LC₅₀ via the BCFₐₚₚ is close to the measured CBR₅₀, suggesting that the difference in CBR₅₀ values is attributed to the different exposure concentrations used in the BCF and toxicity assays.
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