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

厌氧氨氧化菌 盐度 亚硝酸盐 化学 氮气 废水 念珠菌 环境化学 污水处理 序批式反应器 食品科学 反硝化 环境工程 生物 生物化学 硝酸盐 生态学 环境科学 基因 基因组 有机化学 反硝化细菌
作者
Li Zhang,K.F. Liu,Diannan Huang,Yunan Gao,Jiaxin Li
出处
期刊:Environmental Technology [Taylor & Francis]
卷期号:: 1-14
标识
DOI:10.1080/09593330.2024.2428440
摘要

: 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.
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