Download This PaperA Comprehensive Analysis of Storage Impact on Toxicity Assessment of Ozonated Effluents
37 Pages Posted: 3 Oct 2024
Abstract
Neglecting the time intervals between sampling and biological testing can lead to misinterpretation of the hazards associated with advanced oxidation processes when assessed through bioassays. This study investigates changes in the non-specific toxicity of ozonated aromatic compounds and analyzes the primary factors influencing these changes during sample storage. The findings reveal a significant decrease in biotoxicity, ranging from 41% to 83%, within the first four days of storage. A lumped acute toxicity attenuation model was developed to describe the reduction process, showing that temperature markedly affects both the attenuation rate constant and amplitude, while natural light exposure does not. Using fluorescence spectroscopy and mass spectrometry, primary toxic byproducts, particularly p-benzoquinones, were identified and found to be substantially eliminated during storage, accompanied by a notable linear increase in fluorescence intensity. These results highlight the importance of standardized sample storage in accurately assessing the biotoxicity of effluents from advanced oxidation treatments, providing critical guidance for bioassay evaluations.
Keywords: Bioassays, Ozonation, Sample storage, Biotoxicity, p-Benzoquinone byproducts
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