4.8 Article

Quantitative chemical risk assessment for mixtures: Application to alkylphenol mixtures and phthalate mixtures in tap and bottled water

期刊

ENVIRONMENT INTERNATIONAL
卷 165, 期 -, 页码 -

出版社

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.envint.2022.107294

关键词

Contaminants of Emerging Concern; Human health risk assessment; Mixture toxicity; Drinking water quality; Water consumption; Stochastic modelling

资金

  1. Fondazione CARIPLO through the ASAP! [2019-4008]
  2. Acqua Sostenibile Al POLIMI project

向作者/读者索取更多资源

This article proposes a new method for quantitative chemical risk assessment of CEC mixtures (QCRA(MIX)). Through a case study, the potential of this method is illustrated. The method considers uncertainties in both exposure and hazard assessment to calculate a probabilistic mixture Benchmark Quotient (BQ(MIX)). The results show that the health risks posed by alkylphenols and phthalates in both tap water and bottled water are significant based on overall water consumption.
The occurrence and hazard risks of mixtures of Contaminants of Emerging Concern (CECs) in drinking water (DW) lead to serious consideration regarding the possible impacts on public health. Consequently, there is ongoing research, development and empowerment of risk assessment procedures to get more toxicological insight. For instance, alkylphenols and phthalates have been frequently reported to be present both in bottled and tap water, affecting different human endpoints. Currently, deterministic chemical risk assessment (CRA) is used to evaluate the compounds' mixture health risk. However, CRA deals just qualitatively with sources of uncertainty, which may lead to erroneous assessment of risks. Here, a new procedure for quantitative chemical risk assessment of CEC mixtures (QCRA(MIX)) is proposed. Its potential is illustrated by a case study where the risks related to the presence of mixtures of alkylphenols or phthalates in tap versus bottled DW are compared. Uncertainties in both exposure and hazard assessment steps of the procedure are included to calculate a probabilistic mixture Benchmark Quotient (BQ(MIX)). The QCRA(MIX) procedure highlighted the non-negligible health risks posed by those compounds in both DW sources based on overall water consumption. In fact, DW consumers' behaviour in 13 different countries, in terms of total DW consumption and fraction of bottled and tap water consumed, were considered to evaluate the influence on health risk. For alkylphenols, the total water consumption was found to be the most relevant factor in increasing the health risk, while for phthalates the risk was found to be mainly influenced by the percentage of bottled water consumed. Hence, the proposed QCRA(MIX)procedure can be a valuable tool for prioritization of CECs to be included in DW regulations which aim to minimize the overall risk, accounting for actual DW consumption.

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