Single and mixture toxicity of benzophenone-3 and its metabolites on Daphnia magna.

Chemosphere Pub Date : 2024-10-01 Epub Date: 2024-10-15 DOI:10.1016/j.chemosphere.2024.143536
Yun-Ru Ju, Chang-Rui Su, Chih-Feng Chen, Cheng-Fu Shih, Li-Siang Gu
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Abstract

Benzophenone-3 (BP-3) is one of the organic ultraviolet (UV) filters widely used in personal care products, resulting in its ubiquitous occurrence in aquatic systems. This study discovered the potential risks of benzophenone-3 and its metabolites (BP-1 and BP-8) in aquatic environments. This study investigated the toxicity of three single BPs and their mixtures' effects on the survival of Daphnia magna. All three BP types were found to have toxic effects on D. magna, with median effective concentration (EC50) values of 22.55 mg/L for BP-1, 1.89 mg/L for BP-3, and 2.36 mg/L for BP-8, after 48 h of exposure. When the three BPs were binary and ternary mixtures, the EC50 values fell within 2.74-32.26 mg/L. Binary and tertiary mixtures of the three BPs indicated no strong synergistic or antagonistic effects. The mixture toxicity predictions using the classical mixture concept of concentration addition and measured toxicity data showed good predictability. The ecological risks of BPs were assessed using the maximum measured environmental concentrations of BPs collected from a river in Taiwan, divided by their respective predicted no-effect concentration (PNEC) values derived from the assessment factor (AF) method. The result showed a low ecological risk for the sum of three BPs. However, BP-3 had the highest potential risk, while BP-1 was the lowest among the three BPs. Therefore, BP-3 should pay attention to long-term environmental monitoring and management. This study provides valuable information for establishing scientifically-based water quality criteria for BPs and evaluating and managing the potential risk of BPs in the aquatic environment.

二苯甲酮-3 及其代谢物对大型蚤的单一毒性和混合毒性。
二苯甲酮-3(BP-3)是广泛用于个人护理产品的有机紫外线(UV)过滤剂之一,因此在水生系统中无处不在。本研究发现了二苯甲酮-3 及其代谢物(BP-1 和 BP-8)在水生环境中的潜在风险。本研究调查了三种单一 BP 及其混合物对大型蚤存活的毒性影响。结果发现,三种 BP 均对大型蚤有毒性作用,暴露 48 小时后,BP-1 的中位有效浓度(EC50)值为 22.55 mg/L,BP-3 为 1.89 mg/L,BP-8 为 2.36 mg/L。当三种生物碱为二元和三元混合物时,EC50 值在 2.74-32.26 毫克/升之间。三种生物碱的二元和三元混合物没有显示出强烈的协同或拮抗作用。利用经典混合物浓度添加概念和实测毒性数据进行的混合物毒性预测显示出良好的可预测性。评估 BPs 的生态风险时,使用了从台湾一条河流中采集到的 BPs 最大环境测量浓度,除以根据评估因子 (AF) 方法得出的各自预测无效应浓度 (PNEC) 值。结果显示,三种 BPs 的总和具有较低的生态风险。不过,BP-3 的潜在风险最高,而 BP-1 在三种 BP 中最低。因此,应重视对 BP-3 的长期环境监测和管理。本研究为建立以科学为依据的 BPs 水质标准、评估和管理 BPs 在水生环境中的潜在风险提供了有价值的信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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