TY - JOUR

T1 - Potential for performance enhancement of biological wastewater treatment by bacterial community shift and adaptation of ammonia-oxidizing bacteria: a case study on the nitritation of pig slurry

AU - Reiter, Johannes

AU - Beier, Maike

AU - Köster, Stephan

N1 - Publisher Copyright: © 2026 The Authors.

PY - 2026/1/15

Y1 - 2026/1/15

N2 - The bacterial groups responsible for nitrogen elimination in biological wastewater treatment are diverse and ubiquitous. This diversity impliesthe possibility for the enhancement of biotechnological processes by natural selection (adaptation and community shift) in the activatedsludge under conditions usually considered unfavourable. The 1-year operation of a partial nitritation reactor– seeded with sludge from amunicipal single-stage deammoni cation reactor and fed with liquid pig slurry (high NH4-N and salinity)– revealed a combined functionaland structural change in the activated sludge and the ammonia-oxidizing bacteria (AOB) community to cope with the process’s conditions.The relative abundance of AOB within the living microbial biomass increased from 22 to 35%. Initially, the AOB community consisted of Nitro-somonas europaea/eutropha and Nitrosomonas communis. Following adaptation, members of the Nitrosomonas marina lineage andNitrosococcus mobilis were also identi ed within the sludge. AOB maximum activity (expressed as autotrophic speci c oxygen uptakerate, SOUR) increased from 66.3 to 139.2 mgO2/gVSS/h, while the FA concentration associated with half-maximum SOUR (IC50) rose from21.7 to 25.4 mg/L NH3 and 62.0 to 73.7 mg/L NH3. Natural selection acting on the microorganisms in the nitritation reactor helped to forma highly specialized and productive activated sludge.

AB - The bacterial groups responsible for nitrogen elimination in biological wastewater treatment are diverse and ubiquitous. This diversity impliesthe possibility for the enhancement of biotechnological processes by natural selection (adaptation and community shift) in the activatedsludge under conditions usually considered unfavourable. The 1-year operation of a partial nitritation reactor– seeded with sludge from amunicipal single-stage deammoni cation reactor and fed with liquid pig slurry (high NH4-N and salinity)– revealed a combined functionaland structural change in the activated sludge and the ammonia-oxidizing bacteria (AOB) community to cope with the process’s conditions.The relative abundance of AOB within the living microbial biomass increased from 22 to 35%. Initially, the AOB community consisted of Nitro-somonas europaea/eutropha and Nitrosomonas communis. Following adaptation, members of the Nitrosomonas marina lineage andNitrosococcus mobilis were also identi ed within the sludge. AOB maximum activity (expressed as autotrophic speci c oxygen uptakerate, SOUR) increased from 66.3 to 139.2 mgO2/gVSS/h, while the FA concentration associated with half-maximum SOUR (IC50) rose from21.7 to 25.4 mg/L NH3 and 62.0 to 73.7 mg/L NH3. Natural selection acting on the microorganisms in the nitritation reactor helped to forma highly specialized and productive activated sludge.

KW - ammonia-oxidizing bacteria

KW - bacterial community

KW - free ammonia adaptation

KW - high-rate nitritation

KW - nitrogen elimination

KW - pig slurry

UR - http://www.scopus.com/inward/record.url?scp=105029323143&partnerID=8YFLogxK

U2 - 10.2166/wst.2026.200

DO - 10.2166/wst.2026.200

M3 - Article

VL - 93

SP - 185

EP - 201

JO - Water Science & Technology

JF - Water Science & Technology

IS - 2

ER -