Analysis of the regulation mechanism for salt-tolerant anammox process: process performance and metabolic insights.

IF 2.2 4区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES
Li Zhang, Kaishu Liu, Diannan Huang, Yunan Gao, Jiaxin Li
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引用次数: 0

Abstract

In this study, the start-up and microbial domestication of a salt-tolerant functional anammox system was investigated by gradually increasing the salinity level in a stabilized anammox system in the laboratory. After 44 days of stable operation, the salt-tolerant system was successfully activated, at which time the salinity of the influent water was 3 g/L, and the maximum removal efficiency of ammonia nitrogen and nitrite nitrogen in the system reached 94.18% and 96.66%, respectively, and then the ammonia nitrogen and nitrite nitrogen removal efficiency were stabilized at 88.17% and 96.48% after the enrichment domestication for 89 days. The system was operated in the salinity of 10 g/L, with the concentration of each nitrogen compound measured at the same time. The ammonia nitrogen removal efficiency decreased to 59.93% at a salinity of 10 g/L, which had a significant impact on the system. High-throughput sequencing revealed that the system was enriched with a large number of Chloroflexi, the relative abundance of which increased from 19.46% to 52.33%, and the genus of AnAOB was transformed from Candidatus Brocadia to Candidatus Kuenenia, Candidatus Kuenenia, with a percentage of 4.78%. The system successfully achieved the simultaneous removal of ammonia nitrogen and nitrite nitrogen under salinity stress, which to a certain extent indicated that AnAOB could achieve the initiation and enrichment domestication under salinity conditions, and could provide a basis for the efficient and low-consumption treatment of high salinity nitrogen-containing wastewater.

耐盐anammox过程的调节机制分析:过程性能和代谢见解。
本研究通过逐步提高实验室稳定氨氧化系统的盐度水平,研究了耐盐功能氨氧化系统的启动和微生物驯化。经过 44 天的稳定运行,耐盐系统成功启动,此时进水盐度为 3 g/L,系统对氨氮和亚硝酸盐氮的最大去除率分别达到 94.18% 和 96.66%,经过 89 天的富集驯化,氨氮和亚硝酸盐氮的去除率稳定在 88.17% 和 96.48%。该系统在盐度为 10 克/升的条件下运行,同时测量各氮化合物的浓度。当盐度为 10 克/升时,氨氮去除率降至 59.93%,这对系统产生了重大影响。高通量测序发现,该系统富集了大量的 Chloroflexi,其相对丰度从 19.46% 增加到 52.33%,AnAOB 的属由 Candidatus Brocadia 转化为 Candidatus Kuenenia,Candidatus Kuenenia 的比例为 4.78%。该系统成功实现了盐度胁迫下氨氮和亚硝酸盐氮的同时去除,在一定程度上表明 AnAOB 可在盐度条件下实现萌发和富集驯化,可为高盐度含氮废水的高效低耗处理提供基础。
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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来源期刊
Environmental Technology
Environmental Technology 环境科学-环境科学
CiteScore
6.50
自引率
3.60%
发文量
0
审稿时长
4 months
期刊介绍: Environmental Technology is a leading journal for the rapid publication of science and technology papers on a wide range of topics in applied environmental studies, from environmental engineering to environmental biotechnology, the circular economy, municipal and industrial wastewater management, drinking-water treatment, air- and water-pollution control, solid-waste management, industrial hygiene and associated technologies. Environmental Technology is intended to provide rapid publication of new developments in environmental technology. The journal has an international readership with a broad scientific base. Contributions will be accepted from scientists and engineers in industry, government and universities. Accepted manuscripts are generally published within four months. Please note that Environmental Technology does not publish any review papers unless for a specified special issue which is decided by the Editor. Please do submit your review papers to our sister journal Environmental Technology Reviews at http://www.tandfonline.com/toc/tetr20/current
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