高铁酸盐（VI）对二级处理后出水中药用磺胺的氧化降解：动力学、副产物、降解途径及毒性评估

Oxidative degradation of sulfamethoxazole from secondary treated effluent by ferrate(VI): kinetics, by-products, degradation pathway and toxicity assessment.

作者信息

Jebalbarezi Behjat, Dehghanzadeh Reza, Sheikhi Samira, Shahmahdi Najmeh, Aslani Hassan, Maryamabadi Ammar

机构信息

Student research committee, Tabriz University of Medical Sciences, Tabriz, Iran.

Department of Environmental Health Engineering, Tabriz University of Medical Sciences, Tabriz, Iran.

出版信息

J Environ Health Sci Eng. 2022 Jan 10;20(1):205-218. doi: 10.1007/s40201-021-00769-9. eCollection 2022 Jun.

DOI:10.1007/s40201-021-00769-9

PMID:35669795

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9163226/

Abstract

UNLABELLED

Sulfamethoxazole (SMX) is a typical antibiotic in the world, which is frequently detected in the aquatic environment. The current study was aimed to investigate the SMX degradation in secondary treated wastewater using potassium Ferrate [Fe(VI)]. The effects of various experimental conditions, EDTA and phosphate as chelating agents, and toxicity assessment were also considered. Secondary treated effluent was spiked with predefined SMX concentrations, and after desired reaction time with Fe(VI), residual SMX was measured using HPLC. Results indicated that SMX degradation by Fe(VI) was favored under acidic condition, where 90% of SMX degradation was achieved after 120 min. Fe(VI) and SMX reaction obeyed first-order kinetic; meantime, the SMX degradation rate under pH 3 was 7.6 times higher than pH 7. The presence of phosphate (NaHPO) and EDTA declined SMX degradation, while Fe (III) effect was contradictory. In addition to promising demolition, 10% TOC removal was achieved. Eighteen major intermediates were identified using LC-MS/MS and the degradation pathways were suggested. Transformation products (TPs) were formed due to hydroxylation, bond cleavage, transformation after bond cleavage, and oxidation reactions. The ECOSAR analysis showed that some of the SMX oxidation products were toxic to aquatic organisms (fish, daphnia and green algae).

SUPPLEMENTARY INFORMATION

The online version contains supplementary material available at 10.1007/s40201-021-00769-9.

摘要

未标记

磺胺甲恶唑（SMX）是一种全球范围内典型的抗生素，在水环境中经常被检测到。当前的研究旨在调查使用高铁酸钾[Fe(VI)]对二级处理废水中SMX的降解情况。还考虑了各种实验条件、作为螯合剂的EDTA和磷酸盐以及毒性评估的影响。向二级处理后的流出物中加入预先设定的SMX浓度，在与Fe(VI)反应所需的时间后，使用高效液相色谱法测量残留的SMX。结果表明，Fe(VI)在酸性条件下有利于SMX的降解，在120分钟后可实现90%的SMX降解。Fe(VI)与SMX的反应符合一级动力学；同时，pH 3时的SMX降解速率比pH 7时高7.6倍。磷酸盐（NaHPO）和EDTA的存在会降低SMX的降解，而Fe(III)的影响则相反。除了有望实现分解外，还实现了10%的总有机碳去除。使用液相色谱-串联质谱法鉴定了18种主要中间体，并提出了降解途径。转化产物（TPs）是由于羟基化、键断裂、键断裂后的转化以及氧化反应而形成的。ECOSAR分析表明，一些SMX氧化产物对水生生物（鱼类、水蚤和绿藻）有毒。

补充信息

在线版本包含可在10.1007/s40201-021-00769-9获取的补充材料。

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