Leveraging anaerobic biodegradation of tetracycline in anaerobic digestion systems with different operational modes

Yuyin Wang, Guangxue Wu
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Abstract

Antibiotics such as tetracycline in wastewater may cause the operation failure of anaerobic digestion systems. Two operational modes, continuous-flow reactors (CFRs) and sequencing batch reactors (SBRs), were operated with or without the addition of tetracycline to examine the influence of tetracycline on system performance, tetracycline removal, metabolic activity, and microbial communities. Tetracycline inhibited the removal of chemical oxygen demand (COD) by 23.9% in CFRs and 20.5% in SBRs, and led to the accumulation of volatile fatty acids (VFAs). Also, the maximum methane production rate was inhibited by 24.5% in CFRs and 48.8% in SBRs due to the existence of tetracycline, while the maximum methane production was reduced by 32.8% in CFRs and 13.8% in SBRs. CFRs exhibited a better recovery capacity during COD shock loading and demonstrated superior propionate degradation and methane production capabilities. CFRs achieved better tetracycline removal capacity compared to SBRs. Biodegradation was found to be the dominant tetracycline removal pathway, accounting for 88.9% (CFRs) and 82.0% (SBRs). Long-term exposure to tetracycline decreased archaea abundances and inhibited the enrichment of hydrolytic-acidogenic bacteria (Mesotoga and Syner-01). Meanwhile, CFRs provided a more conducive environment for the enrichment of these microorganisms. The presence of Geobacter in conjunction with the detected ethanol in a typical reaction cycle in CFRs suggested the potential presence of direct interspecies electron transfer, elucidating the enhanced pollutant removal of CFRs. Additionally, Trichococcus, a genus associated with tetracycline removal, was found to be highly enriched with the long-term dosage of tetracycline.
利用四环素在不同操作模式厌氧消化系统中的厌氧生物降解
废水中的四环素等抗生素可能导致厌氧消化系统运行失败。采用连续流反应器(CFRs)和顺序批式反应器(SBRs)两种操作模式,分别添加或不添加四环素,考察四环素对系统性能、四环素去除率、代谢活性和微生物群落的影响。四环素对CFRs和sbr的化学需氧量(COD)去除的抑制作用分别为23.9%和20.5%,并导致挥发性脂肪酸(VFAs)的积累。此外,由于四环素的存在,CFRs和sbr的最大产甲烷率分别下降了24.5%和48.8%,CFRs和sbr的最大产甲烷率分别下降了32.8%和13.8%。CFRs在COD冲击负荷下表现出较好的恢复能力,并表现出较好的丙酸降解和产甲烷能力。与sbr相比,CFRs具有更好的四环素去除能力。生物降解是主要的四环素去除途径,分别占88.9% (CFRs)和82.0% (sbr)。长期暴露于四环素可降低古细菌丰度,抑制水解产酸菌(Mesotoga和Syner-01)的富集。同时,CFRs为这些微生物的富集提供了更有利的环境。在CFRs的典型反应周期中,Geobacter与检测到的乙醇的存在表明可能存在直接的种间电子转移,阐明了CFRs对污染物的增强去除。此外,与四环素去除相关的毛球菌属随着四环素的长期剂量而高度富集。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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