溶解有机质影响砷的迁移和铁(III)（水合）氧化物的形成：对含水层人工补给的影响。

Dissolved Organic Matter Affects Arsenic Mobility and Iron(III) (hydr)oxide Formation: Implications for Managed Aquifer Recharge.

机构信息

Department of Energy, Environmental and Chemical Engineering , Washington University , St. Louis , Missouri 63130 , United States.

Department of Geological Engineering , Missouri University of Science and Technology , Rolla , Missouri 65409 , United States.

出版信息

Environ Sci Technol. 2019 Dec 17;53(24):14357-14367. doi: 10.1021/acs.est.9b04873. Epub 2019 Nov 27.

DOI:10.1021/acs.est.9b04873

PMID:31640342

Abstract

During managed aquifer recharge (MAR), injected water significantly alters water chemistry in an aquifer, affecting arsenic mobility. To elucidate the effects of dissolved organic matter (DOM) on arsenic mobilization during MAR, this bench-scale study examined arsenic mobilization from arsenopyrite (FeAsS, an arsenic-containing sulfide) in the presence of Suwannee River natural organic matter, humic acid, and fulvic acid (SRNOM, SRHA, and SRFA), alginate (Alg), polyaspartate (PA), and glutamate (Glu). Suwannee River DOM (SRDOM) decreased arsenic mobility in the short term (<6 h) via inhibiting arsenopyrite oxidative dissolution, but increased arsenic mobility over a longer experimental time (∼7 days) via inhibiting secondary iron(III) (hydr)oxide precipitation and decreasing arsenic adsorption onto iron(III) (hydr)oxide. In situ grazing incidence small-angle X-ray scattering measurements indicated that SRDOM decreased iron(III) (hydr)oxide nucleus sizes and growth rates. A combined analysis of SRDOM and other proteinaceous or labile DOM (Alg, PA, and Glu) revealed that DOM with higher molecular weights would cause more increased arsenic mobility. These new observations advance our understanding of the impacts of DOM in injected water on arsenic mobility and secondary precipitate formation during MAR, and in other systems where interactions between DOM, arsenic, and iron(III) (hydr)oxides take place.

摘要

在含水层人工补给（MAR）期间，注入的水会显著改变含水层中的水化学性质，从而影响砷的迁移性。为了阐明溶解有机质（DOM）在 MAR 期间对砷迁移的影响，本实验室规模研究考察了在苏万尼河天然有机质、腐殖酸和富里酸（SRNOM、SRHA 和 SRFA）、藻酸盐（Alg）、聚天冬氨酸（PA）和谷氨酸（Glu）存在的情况下，从毒砂（FeAsS，一种含砷的硫化物）中砷的迁移。苏万尼河 DOM（SRDOM）通过抑制毒砂的氧化溶解在短期内（<6 小时）降低了砷的迁移性，但在较长的实验时间（约 7 天）内通过抑制次生铁（III）（水合）氧化物沉淀和降低砷在铁（III）（水合）氧化物上的吸附来增加砷的迁移性。原位掠入射小角 X 射线散射测量表明，SRDOM 降低了铁（III）（水合）氧化物核的大小和生长速率。对 SRDOM 和其他蛋白质或不稳定 DOM（Alg、PA 和 Glu）的综合分析表明，分子量较高的 DOM 会导致砷的迁移性增加更多。这些新的观察结果增进了我们对 DOM 在注入水中对 MAR 期间砷迁移和次生沉淀形成的影响以及 DOM、砷和铁（III）（水合）氧化物之间相互作用的其他系统中的影响的理解。

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溶解有机质影响砷的迁移和铁(III)（水合）氧化物的形成：对含水层人工补给的影响。

Dissolved Organic Matter Affects Arsenic Mobility and Iron(III) (hydr)oxide Formation: Implications for Managed Aquifer Recharge.

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