TY - JOUR
T1 - Characterizing and comparing microbial community and biofilm structure in three nitrifying moving bed biofilm reactors
AU - Zhao, Jing
AU - Ni, Gaofeng
AU - Piculell, Maria
AU - Li, Jie
AU - Hu, Zhetai
AU - Wang, Zhiyao
AU - Guo, Jianhua
AU - Yuan, Zhiguo
AU - Zheng, Min
AU - Hu, Shihu
PY - 2022/10/15
Y1 - 2022/10/15
N2 - This study investigated biofilm establishment, biofilm structure, and microbial community composition of biofilms in three laboratory-scale moving bed biofilm reactors. These reactors were filled with three types of plastic carriers with varied depths of living space for microbial growth. The reactors were operated under the same influent and operational conditions. Along with the operation, the results showed that carriers with grids of 50 μm in height delayed the biofilm development and formed the thinnest biofilm and a carpet-like structure with the lowest α-diversity. In comparison, another two carriers with grids of 200 and 400 μm in height formed thick biofilms and large colonies with more voids and channels. Quantified properties of biofilm thickness, biomass, heterogeneity, portion of the biofilm exposed to the nutrient, and maximum diffusion distance were examined, and the results demonstrated that they almost (except for heterogeneity) strongly correlated to the α-diversity of microbial community. These illustrate that depth of living space, as an important parameter for carrier, could drive the formation of biofilm structure and community composition. It improves understanding of influencing factors on biofilm establishment, structure and its microbial community, and would be helpful for the design of biofilm processes. © 2022 Elsevier Ltd. All rights reserved.
AB - This study investigated biofilm establishment, biofilm structure, and microbial community composition of biofilms in three laboratory-scale moving bed biofilm reactors. These reactors were filled with three types of plastic carriers with varied depths of living space for microbial growth. The reactors were operated under the same influent and operational conditions. Along with the operation, the results showed that carriers with grids of 50 μm in height delayed the biofilm development and formed the thinnest biofilm and a carpet-like structure with the lowest α-diversity. In comparison, another two carriers with grids of 200 and 400 μm in height formed thick biofilms and large colonies with more voids and channels. Quantified properties of biofilm thickness, biomass, heterogeneity, portion of the biofilm exposed to the nutrient, and maximum diffusion distance were examined, and the results demonstrated that they almost (except for heterogeneity) strongly correlated to the α-diversity of microbial community. These illustrate that depth of living space, as an important parameter for carrier, could drive the formation of biofilm structure and community composition. It improves understanding of influencing factors on biofilm establishment, structure and its microbial community, and would be helpful for the design of biofilm processes. © 2022 Elsevier Ltd. All rights reserved.
KW - Biofilm
KW - Biofilm morphology
KW - Biofilm structure parameters
KW - Community
KW - MBBR
KW - Media depth
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UR - https://www.scopus.com/record/pubmetrics.uri?eid=2-s2.0-85135518849&origin=recordpage
U2 - 10.1016/j.jenvman.2022.115883
DO - 10.1016/j.jenvman.2022.115883
M3 - RGC 21 - Publication in refereed journal
C2 - 35930881
SN - 0301-4797
VL - 320
JO - Journal of Environmental Management
JF - Journal of Environmental Management
M1 - 115883
ER -