用于解决饮用水消毒副产物混合物毒性问题的基于组分和全混合物技术。

Component-based and whole-mixture techniques for addressing the toxicity of drinking-water disinfection by-product mixtures.

作者信息

Simmons Jane Ellen, Teuschler Linda K, Gennings Chris, Speth Thomas F, Richardson Susan D, Miltner Richard J, Narotsky Michael G, Schenck Kathleen D, Hunter E Sidney, Hertzberg Richard C, Rice Glenn

机构信息

National Health and Environmental Effects Research Laboratory, Office of Research and Development, U.S. Environmental Protection Agency, Research Triangle Park, North Carolina 27711, USA.

出版信息

J Toxicol Environ Health A. 2004;67(8-10):741-54. doi: 10.1080/15287390490428215.

DOI:10.1080/15287390490428215

PMID:15192866

Abstract

Chemical disinfection of water is of direct public health benefit as it results in decreased water-borne illness. The chemicals used to disinfect water react with naturally occurring organic matter, bromide, and iodide in the source water, resulting in the formation of disinfection by-products (DBPs). Despite the identification of several hundred DBPs, more than 50% of the mass of total organic halide formed during chlorination remains unidentified. The toxic contribution of the DBPs that are formed and present but not yet chemically identified, the unidentified fraction, has been largely unexplored. A better understanding of the potential for adverse human health consequences associated with exposure to the DBPs present in drinking water will be gained by integration of knowledge on the toxicity of individual DBPs; simple, defined DBP mixtures; complex, environmentally realistic DBP mixtures with partial chemical characterization; and the unidentified fraction.

摘要

水的化学消毒对公众健康有直接益处，因为它能减少水传播疾病。用于消毒水的化学物质与源水中天然存在的有机物、溴化物和碘化物发生反应，导致形成消毒副产物（DBPs）。尽管已鉴定出数百种DBPs，但氯化过程中形成的总有机卤化物质量的50%以上仍未得到鉴定。已形成且存在但尚未进行化学鉴定的DBPs（未鉴定部分）的毒性贡献在很大程度上尚未得到探索。通过整合有关单个DBP的毒性、简单且明确的DBP混合物、具有部分化学特征的复杂且符合环境实际情况的DBP混合物以及未鉴定部分的知识，将更好地了解与接触饮用水中存在的DBP相关的对人类健康产生不良后果的可能性。

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用于解决饮用水消毒副产物混合物毒性问题的基于组分和全混合物技术。

Component-based and whole-mixture techniques for addressing the toxicity of drinking-water disinfection by-product mixtures.

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