Abiotic transformation of chlorinated organics at the active surface of iron-bearing minerals in soils and sediments

IF 4.4 2区 工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY
XuXin Li, Chen Yan, YuXi Zeng, WenBin Li, TianWei Peng, Biao Song, ChengYun Zhou
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Abstract

Chlorinated organic compounds are emerging pollutants of widespread concern because of their toxicity, bioaccumulation, persistence, and lack of adequate regulatory measures. Their abiotic transformation, facilitated by iron-bearing minerals, is critical to their natural dissipation in soils and sediments. However, further exploration is needed to understand their underlying mechanisms and potential engineering applications under different redox conditions. This paper reviews the abiotic transformation behaviors and mechanisms of chlorinated organics at the active surface of iron-bearing minerals under anoxic and oxic conditions and summarizes the strategies for enhancing the abiotic transformation efficiency of chlorinated organics. The abiotic transformation rate under oxic conditions can be a few orders of magnitude higher than that under anoxic conditions. Under anoxic conditions, chlorinated organics undergo reductive dechlorination through reductive elimination, hydrogenolysis, dehydrohalogenation, and nucleophilic substitution. A close relationship between the abiotic transformation of chlorinated organics and the production of hydroxyl radicals by iron-bearing minerals under oxic conditions was discovered. Synthetic active iron-bearing minerals, carbonaceous materials, and biological synergy can facilitate abiotic dechlorination under anoxic conditions. Meanwhile, the regulation of redox conditions, the introduction of ligands, and the utilization of coexisting anions are proposed to enhance oxidative degradation. This study is expected to improve the comprehension of the abiotic degradation of chlorinated organics mediated by iron-bearing minerals and provide the theoretical foundation for developing new approaches aimed at addressing chlorinated organic pollution.

土壤和沉积物中含铁矿物活性表面氯化有机物的非生物转化
氯化有机化合物因其毒性、生物累积性、持久性和缺乏适当的监管措施而成为广受关注的新兴污染物。在含铁矿物质的促进下,它们的非生物转化对其在土壤和沉积物中的自然消散至关重要。然而,要了解它们在不同氧化还原条件下的基本机制和潜在工程应用,还需要进一步的探索。本文综述了缺氧和缺氧条件下氯化有机物在含铁矿物活性表面的非生物转化行为和机制,并总结了提高氯化有机物非生物转化效率的策略。缺氧条件下的非生物转化率可能比缺氧条件下高几个数量级。在缺氧条件下,氯化有机物会通过还原消除、氢解、脱氢卤化和亲核取代等方式进行还原脱氯。研究发现,氯化有机物的非生物转化与含铁矿物在缺氧条件下产生羟基自由基之间存在密切关系。合成活性含铁矿物、碳质材料和生物协同作用可促进缺氧条件下的非生物脱氯。同时,还提出了调节氧化还原条件、引入配体和利用共存阴离子来增强氧化降解的方法。这项研究有望加深对含铁矿物介导的氯化有机物非生物降解的理解,并为开发旨在解决氯化有机物污染的新方法提供理论基础。
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来源期刊
Science China Technological Sciences
Science China Technological Sciences ENGINEERING, MULTIDISCIPLINARY-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
8.40
自引率
10.90%
发文量
4380
审稿时长
3.3 months
期刊介绍: Science China Technological Sciences, an academic journal cosponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China, and published by Science China Press, is committed to publishing high-quality, original results in both basic and applied research. Science China Technological Sciences is published in both print and electronic forms. It is indexed by Science Citation Index. Categories of articles: Reviews summarize representative results and achievements in a particular topic or an area, comment on the current state of research, and advise on the research directions. The author’s own opinion and related discussion is requested. Research papers report on important original results in all areas of technological sciences. Brief reports present short reports in a timely manner of the latest important results.
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