Deciphering the anammox microbial community succession with humic acid exposure to optimize large anammox granules for robust nitrogen removal.

Chemosphere Pub Date : 2024-09-01 Epub Date: 2024-07-20 DOI:10.1016/j.chemosphere.2024.142905
Changqing Liu, Jianghua Yu, Xinxin Zhu, Haoqian Shi, Xin Wang, Dongxiao Sun, Zhiqiang Dong, Yijing Zhu
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Abstract

The robustness of the anaerobic ammonia oxidation (anammox) process in treating wastewater with high concentrations of humic acids (HAs), including landfill leachate and sludge anaerobic digestion liquid, has been paid great attention. This study revealed that the anammox sludge granule size of 1.0-2.0 mm could be robust under the HA exposure with high concentrations. The total nitrogen removal efficiency (NRE) was 96.2% at the HA concentration of 20-100 mg/L, while the NRE was 88.5% at the HA concentration of 500 mg/L, with reduced by 7.7%. The increased extracellular polymeric substances (EPS) content which was stimulated by the HA exposure favored the formation of large granules (1.0-2.0 mm) by enveloping medium and micro granules (0.2-1.0 mm). The abundance of anammox bacteria Candidatus Brocadia was found to be higher (14.2%) in large anammox granules sized 1.0-2.0 mm, suggesting a potentially high anammox activity. However, the abundance of denitrifiers Denitratisoma increased by 4.3% in ultra-large anammox granules sized >2.0 mm, which could be attributed to the high EPS content for heterotrophic denitrifiers metabolism as organic matter. The feedback mechanism of the anammox community for maintaining the ecological function under the HA exposure resulted in a closely related microbial community, with positive and negative correlations in the ecological network increased by 64.3%. This study revealed that the HA exposure of the anammox system resulted in the anammox granules of 1.0-2.0 mm size being the dominant granules with robust nitrogen removal, providing significant guidance for the optimization of anammox granules for an efficient treatment of HA-containing wastewater in anammox applications.

解密anammox微生物群落与腐殖酸接触的演替,优化大型anammox颗粒,实现强效脱氮。
厌氧氨氧化(anammox)工艺在处理高浓度腐植酸(HAs)废水(包括垃圾填埋场渗滤液和污泥厌氧消化液)时的稳健性一直备受关注。本研究发现,在高浓度腐殖酸的作用下,粒径为 1.0-2.0 毫米的厌氧污泥颗粒可以保持稳定。当 HA 浓度为 20-100 mg/L 时,总氮去除率为 96.2%;当 HA 浓度为 500 mg/L 时,总氮去除率为 88.5%,降低了 7.7%。暴露于 HA 后,细胞外聚合物质(EPS)含量增加,这有利于通过包裹介质和微颗粒(0.2-1.0 毫米)形成大颗粒(1.0-2.0 毫米)。在大小为 1.0-2.0 毫米的大型厌氧颗粒中,厌氧菌 Candidatus Brocadia 的丰度较高(14.2%),这表明厌氧菌可能具有较高的活性。然而,在尺寸大于 2.0 毫米的超大型厌氧颗粒中,反硝化细菌 Denitratisoma 的丰度增加了 4.3%,这可能是由于异养反硝化细菌作为有机物代谢的 EPS 含量较高。在 HA 暴露条件下,anammox 群落维持生态功能的反馈机制形成了一个密切相关的微生物群落,生态网络中的正负相关增加了 64.3%。这项研究表明,anammox 系统暴露于 HA 后,粒径为 1.0-2.0 毫米的anammox 颗粒成为主要颗粒,具有强大的脱氮功能,这为优化anammox 颗粒,在anammox 应用中高效处理含 HA 废水提供了重要指导。
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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