Treatment performance and microbial community structure in an aerobic granular sludge sequencing batch reactor amended with diclofenac, erythromycin, and gemfibrozil

Kylie B. Bodle, Rebecca C. Mueller, Madeline R. Pernat, Catherine M. Kirkland
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Abstract

This study characterizes the effects of three commonly detected pharmaceuticals—diclofenac, erythromycin, and gemfibrozil—on aerobic granular sludge. Approximately 150 µg/L of each pharmaceutical was fed in the influent to a sequencing batch reactor for 80 days, and the performance of the test reactor was compared with that of a control reactor. Wastewater treatment efficacy in the test reactor dropped by approximately 30-40%, and ammonia oxidation was particularly inhibited. The relative abundance of active Rhodocyclaceae, Nitrosomonadaceae , and Nitrospiraceae families declined throughout exposure, likely explaining reductions in wastewater treatment performance. Pharmaceuticals were temporarily removed in the first 12 days of the test via both sorption and degradation; both removal processes declined sharply thereafter. This study demonstrates that aerobic granular sludge may successfully remove pharmaceuticals in the short term, but long-term tests are necessary to confirm if pharmaceutical removal is sustainable.
双氯芬酸、红霉素和吉非罗齐在好氧颗粒污泥序批式反应器中的处理性能和微生物群落结构
本研究描述了三种常用的药物——双氯芬酸、红霉素和吉非罗齐尔对好氧颗粒污泥的影响。将每种药物的约150µg/L加入进水中,在测序间歇反应器中运行80天,并将试验反应器的性能与对照反应器的性能进行比较。试验反应器的废水处理效果下降约30-40%,氨氧化受到明显抑制。活性红环科、亚硝基索莫纳科和硝化螺科的相对丰度在暴露过程中下降,可能解释了废水处理性能的降低。药物在试验的前12天通过吸附和降解被暂时去除;此后,这两种移除过程都急剧下降。本研究表明,好氧颗粒污泥可能在短期内成功去除药物,但需要长期试验来确认药物去除是否可持续。
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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