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- Title
Self-Aggregation and Denitrifying Strains Accelerate Granulation and Enhance Denitrification.
- Authors
Zhang, Shujia; Wang, Chunyan; Xie, Yijia; Chen, Rongfan; Huang, Mengyuan; Hu, Xiaoling; Wang, Bin; Guo, Wenbin; Huang, Haiyun; Wang, Rongrong; Zhou, Dao; Wang, Hongyu
- Abstract
A long start-up period is one of the main factors limiting the practical application of aerobic granular sludge (AGS). Bioaugmentation could be a good strategy to accelerate aerobic granulation. In this research, four denitrifying strains were isolated from mature AGS. Mycobacterium senegalense X3-1 exhibited the strongest self-aggregation ability and good denitrification ability. Ensifer adhaerens X1 showed the strongest denitrification ability but poor self-aggregation ability. Additionally, strain X3-1 demonstrated the highest extracellular polymeric substances (EPS) contents accompanied by relatively high N-acyl-homoserine lactones (AHLs) concentrations, which could illustrate its predominant aggregation ability—AHLs produced by bacteria regulate EPS secretion to accelerate cell aggregation. Strain X3-1 and X1 were chosen as inoculated bacterium to verify the effects of bioaugmentation on AGS granulation and denitrification. Granulation was achieved in the sequential batch reactors (SBRs) added strain X3-1 10 days earlier than the control group. The particle morphology and TIN removal rate of X3-1 were both superior to the latter. The introduction of strains reduced the richness and diversity of the microbial community, but the key functional bacteria, Candidatus_Competibacter, proliferates in the SBR inoculated with X3-1. Conclusively, it is suggested Mycobacterium senegalense X3-1 could be a prospective strain for enhancing AGS formation and denitrification.
- Subjects
ACYL-homoserine lactones; DENITRIFICATION; CELL aggregation; MICROBIAL diversity; BATCH reactors; BIOREMEDIATION; GRANULATION
- Publication
Water (20734441), 2022, Vol 14, Issue 9, p1482
- ISSN
2073-4441
- Publication type
Article
- DOI
10.3390/w14091482