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Yang, Yuchun; Herbold, Craig W.; Jung, Man-Young; Qin, Wei; Cai, Mingwei; Du, Huan; Lin, Jih-Gaw; Li, Xiaoyan; Li, Meng; Gu, Ji-Dong
Water research (Oxford), 03/2021, Letnik: 191Journal Article
•Three distinct AOA were enriched in a full-scale WWTP with detectable activities.•AOA outcompeted Comammox and AOB and dominated the AOM community.•Low aeration, long retention time, high NH4+ and Cu2+ are favorable for the growth of AOA.•The dominant AOA is likely resulted from competition advantage by highly expressing Amt1.•Niche adaptation of the AOA enhancesdominance by the unique biochemical functionalities. Recent studies indicate that ammonia-oxidizing archaea (AOA) may play an important role in nitrogen removal by wastewater treatment plants (WWTPs). However, our knowledge of the mechanisms employed by AOA for growth and survival in full-scale WWTPs is still limited. Here, metagenomic and metatranscriptomic analyses combined with a laboratory cultivation experiment revealed that three active AOAs (WS9, WS192, and WS208) belonging to family Nitrososphaeraceae were active in the deep oxidation ditch (DOD) of a full-scale WWTP treating landfill leachate, which is configured with three continuous aerobic-anoxic (OA) modules with low-intensity aeration (≤ 1.5 mg/L). AOA coexisted with AOB and complete ammonia oxidizers (Comammox), while the ammonia-oxidizing microbial (AOM) community was unexpectedly dominated by the novel AOA strain WS9. The low aeration, long retention time, and relatively high inputs of ammonium and copper might be responsible for the survival of AOA over AOB and Comammox, while the dominance of WS9, specifically may be enhanced by substrate preference and uniquely encoded retention strategies. The urease-negative WS9 is specifically adapted for ammonia acquisition as evidenced by the high expression of an ammonium transporter, whereas two metabolically versatile urease-positive AOA strains (WS192 and WS208) can likely supplement ammonia needs with urea. This study provides important information for the survival and application of the eutrophic Nitrososphaeraceae AOA and advances our understanding of archaea-dominated ammonia oxidation in a full-scale wastewater treatment system. Display omitted
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in: SICRIS
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