Antiviral transformation products (TPs) generated during
wastewater
treatment are an environmental concern, as their discharge, in considerable
amounts, into natural waters during a pandemic can pose possible risks
to the aquatic environment. Identification of the hazardous TPs generated
from antivirals during wastewater treatment is important. Herein,
chloroquine phosphate (CQP), which was widely used during the coronavirus
disease-19 (COVID-19) pandemic, was selected for research. We investigated
the TPs generated from CQP during water chlorination. Zebrafish (Danio rerio) embryos were used to assess the developmental
toxicity of CQP after water chlorination, and hazardous TPs were estimated
using effect-directed analysis (EDA). Principal component analysis
revealed that the developmental toxicity induced by chlorinated samples
could be relevant to the formation of some halogenated TPs. Fractionation
of the hazardous chlorinated sample, along with the bioassay and chemical
analysis, identified halogenated TP387 as the main hazardous TP contributing
to the developmental toxicity induced by chlorinated samples. TP387
could also be formed in real wastewater during chlorination in environmentally
relevant conditions. This study provides a scientific basis for the
further assessment of environmental risks of CQP after water chlorination
and describes a method for identifying unknown hazardous TPs generated
from pharmaceuticals during wastewater treatment.
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