Litcius/Paper detail

Synergy between Comammox and Anammox Bacteria in Wastewater Ammonia Removal

Shaoyi Xu, Wenbo Chai, Rui Xiao, Baozhan Wang, Huijie Lü

2023ACS ES&T Engineering23 citationsDOI

Abstract

Complete ammonia oxidizing bacteria (CAOB) coexist with canonical nitrifiers, anammox bacteria (AnAOB), and heterotrophs in mainstream wastewater nitrogen removal systems. The cooperation and competition among these populations are dependent on various environmental factors, such as ammonia and dissolved oxygen (DO). In the study, a moving bed biofilm reactor (MBBR) was operated at low DO (0.1–0.3 mg/L) and varied influent NH 4 + (phases I–III: 7, 14, and 33 mg N/L) to obtain an autotrophic nitrogen removal community. CAOB was the dominant ammonia oxidizer throughout under the dual effects of low DO and low residual ammonium. In phase I, the residual NH 4 + was <0.2 mg N/L, and CAOB tended toward complete ammonia oxidization for gaining more energy rather than secreting nitrite for AnAOB utilization. With the increase in influent NH 4 +, AnAOB started to grow and shifted from Ca. Kuenenia (phase II) to Ca. Brocadia dominance (phase III), where residual NH 4 + was 0.2–7.6 mg N/L. 15 N tracing indicated that nitrite reduction in the MBBR could be mainly attributable to anammox rather than endogenous denitrification. AnAOB also possessed more abundant and diverse nitrite transporter genes (e.g., focA, nirC ) than did NOB- Nitrospira for potential efficient nitrite utilization. The CAOB-AnAOB synergy enabled up to ∼35% total nitrogen removal in the MBBR. Microrespirometry tests further revealed that the synergy occurred at DO in the range of 0.01–0.9 mg/L (optimum: 0.3 mg/L). NH 4 + and DO concentrations that allow effective CAOB-AnAOB synergy can be applied in improving anammox-based mainstream wastewater nitrogen removal toward low aeration and a carbon footprint.

Topics & Concepts

AnammoxNitrificationEnvironmental chemistryAmmonia monooxygenaseDenitrificationAutotrophMoving bed biofilm reactorNitrosomonasChemistryNitrospiraSewage treatmentWastewaterPulp and paper industryDenitrifying bacteriaBacteriaEnvironmental scienceBiologyEnvironmental engineeringNitrogenBiofilmOrganic chemistryEngineeringGeneticsWastewater Treatment and Nitrogen RemovalAmmonia Synthesis and Nitrogen ReductionWater Treatment and Disinfection