Department of Environmental Sciences, University of California, Riverside, Riverside, California 92521, United States.
San Jose Creek Water Quality Laboratory, Sanitation Districts of Los Angeles County, Whittier, California 90601, United States.
Environ Sci Technol. 2020 Sep 15;54(18):11127-11136. doi: 10.1021/acs.est.0c01080. Epub 2020 Aug 28.
Formation of halogenated disinfection byproducts (DBPs) from pharmaceutically active compounds has been observed in water supply systems following wastewater chlorination. Although research has been limited thus far, several studies have shown that halogenated DBPs may elicit increased toxicity compared to their parent compounds. For example, the lipid regulator gemfibrozil has been shown to form chlorogemfibrozil (Cl-gemfibrozil) and bromogemfibrozil (Br-gemfibrozil) following chlorination, which are more potent antiandrogens in male Japanese medaka () compared to their parent compounds. In the present study, we aimed to characterize the bioaccumulative ability of halogenated gemfibrozil DBPs in marine polychaetes chronic sediment exposures and, consequently, to assess the chronic and acute toxicity of halogenated gemfibrozil DBPs through sediment () and aqueous ( and ) toxicity evaluations. Following 28 day sediment exposures, Cl-gemfibrozil and Br-gemfibrozil bioaccumulated within , with both compounds reducing survival and growth. The biota-sediment accumulation factors determined for Cl-gemfibrozil and Br-gemfibrozil were 2.59 and 6.86, respectively. Furthermore, aqueous 96 h toxicity tests with indicated that gemfibrozil DBPs elicited increased toxicity compared to the parent compound. While gemfibrozil had an acute LC50 value of 469.85 ± 0.096 mg/L, Cl-gemfibrozil and Br-gemfibrozil had LC50 values of 12.34 ± 0.085 and 9.54 ± 0.086 mg/L, respectively. Although acute toxicity is relatively low, our results indicate that halogenated gemfibrozil DBPs are bioaccumulative and may elicit effects in apex food web organisms prone to accumulation following lifelong exposures.
含卤素消毒副产物(DBP)的形成已经在废水氯化后的供水系统中被观察到。尽管目前的研究还很有限,但已有几项研究表明,与母体化合物相比,含卤素的 DBP 可能具有更高的毒性。例如,脂调节剂吉非贝齐在氯化后会形成氯吉非贝齐(Cl-gemfibrozil)和溴吉非贝齐(Br-gemfibrozil),与母体化合物相比,它们在雄性日本鳗鲡()中是更强效的抗雄激素。在本研究中,我们旨在研究含卤素吉非贝齐 DBP 在海洋多毛类动物中的生物蓄积能力,通过慢性沉积物暴露,并通过沉积物()和水相(和)毒性评估来评估含卤素吉非贝齐 DBP 的慢性和急性毒性。在 28 天的沉积物暴露后,Cl-gemfibrozil 和 Br-gemfibrozil 在体内蓄积,这两种化合物都降低了存活率和生长率。Cl-gemfibrozil 和 Br-gemfibrozil 的生物-沉积物积累因子分别为 2.59 和 6.86。此外,用 进行的水相 96 h 毒性试验表明,与母体化合物相比,吉非贝齐 DBP 表现出更高的毒性。吉非贝齐的急性 LC50 值为 469.85±0.096 mg/L,而 Cl-gemfibrozil 和 Br-gemfibrozil 的 LC50 值分别为 12.34±0.085 和 9.54±0.086 mg/L。虽然急性毒性相对较低,但我们的结果表明,含卤素吉非贝齐 DBP 具有生物蓄积性,并且可能在终生暴露后容易蓄积的顶级食物网生物中产生影响。
