Tetracycline-Induced Release and Oxidation of As(III) Coupled with Concomitant Ferrihydrite Transformation

铁酸盐 化学 亚砷酸盐 无氧运动 砷酸盐 鳞片岩 氧气 四环素 吸附 氧化还原 无机化学 溶解 氧化态 环境化学 核化学 金属 生物化学 有机化学 针铁矿 抗生素 生理学 生物
作者
Yurong Deng,Bijie Zhang,Chengshuai Liu,Fangbai Li,Liping Fang,Zhi Dang,Chen Yang,Yu Xiong,Chunfeng He
出处
期刊:Environmental Science & Technology [American Chemical Society]
卷期号:56 (13): 9453-9462 被引量:25
标识
DOI:10.1021/acs.est.2c02227
摘要

Cocontamination with tetracycline (TC) and arsenic (As) is very common in paddy fields. However, the process and underlying mechanism of arsenite (As(III)) transformation on iron mineral surfaces in the presence of antibiotic contaminants remain unclear. In this study, the release and oxidation of As(III) on ferrihydrite (Fh) surfaces and Fh transformation in the presence of TC under both aerobic and anaerobic conditions were investigated. Our results indicated that the TC-induced reductive dissolution of Fh (Fe(II) release) and TC competitive adsorption significantly promote the release of As, especially under anaerobic conditions. The release of As was increased with increasing TC concentration, whereas it decreased with increasing pH. Interestingly, under both aerobic and anaerobic conditions, the addition of TC enhanced the oxidation of As(III) by Fh and induced the partial transformation of Fh to lepidocrocite. Under aerobic conditions, the adsorbed Fe(II) activated the production of reactive oxygen species (·OH and 1O2) from dissolved O2, with Fe(IV) being responsible for As(III) oxidation. Under anaerobic conditions, the abundant oxygen vacancies of Fh affected the oxidation of As(III) during Fh recrystallization. Thus, this study provided new insights into the role of TC on the migration and transformation of As coupled with Fe in soils.
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