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1.
Chinese Journal of Biotechnology ; (12): 1351-1359, 2022.
Article in Chinese | WPRIM (Western Pacific) | ID: wpr-927785

ABSTRACT

Anaerobic ammonia oxidation (ANAMMOX) process is an efficient and low-cost biological nitrogen removal process. However, it still faces some challenges in mainstream applications due to the limitation of substrate types and nitrate accumulation. In recent years, the combined process of anammox has been widely studied to solve the above problems. In this paper, the combined processes of anammox developed in recent years are reviewed, and discussed from the process principle, advantages and disadvantages, influencing factors, process extensibility and the key bottlenecks existing in the promotion and application, as well as the relevant work of the subject group. Finally, we take an outlook on the development of the combined anaerobic ammonia oxidation process in municipal domestic wastewater treatment.


Subject(s)
Ammonium Compounds , Anaerobiosis , Bioreactors , Denitrification , Nitrogen , Oxidation-Reduction , Sewage , Wastewater
2.
Chinese Journal of Biotechnology ; (12): 3425-3438, 2021.
Article in Chinese | WPRIM (Western Pacific) | ID: wpr-921439

ABSTRACT

The facultative anaerobic and strict anaerobic microorganisms enriched and acclimated during the anaerobic digestion process are crucial for the efficiency of the anaerobic digestion system. Most of the problems encountered during running anaerobic digestion processes could be effectively improved via stimulation of microbial metabolic activity. Benefited from the rapid development of microbiome techniques, deeper insights into the microbial diversity in anaerobic digestion systems, e.g. the microbe-microbe interactions and microbe-environment interactions, have been gained. A complex and intricate metabolic network exists in the anaerobic digestion system of solid organic wastes. However, little is known about these interactions and the underlying mechanisms. This review briefly summarized the representative interactions between microbial communities during anaerobic digestion process discovered to date. In addition, typical issues encountered during the anaerobic digestion of solid organic wastes and how microbes can tackle and alleviate these issues were discussed. Finally, future priorities on microbiome research were proposed based on present contribution of microbiome analysis in anaerobic digestion system.


Subject(s)
Anaerobiosis , Bioreactors , Methane , Microbial Interactions , Microbiota , Solid Waste
3.
FEMS Microbiol Ecol ; 90(1): 290-9, 2014 Oct.
Article in English | MEDLINE | ID: mdl-25065524

ABSTRACT

Ammonia-oxidising archaea (AOA) are increasingly recognised as the primary mediators of soil ammonia oxidation, particularly in acidic soils. To explore the niche segregation of AOA and ammonia-oxidising bacteria (AOB) and the potential effect of this segregation on nitrification rates and the nitrogen cycle in Chinese agricultural soils, AOA and AOB amoA gene databases were established, and 454 high-throughput sequencing was used to investigate the key factors leading to the niche segregation of these two types of microorganisms. qPCR results demonstrated that there were more functional genes for AOA than for AOB in most of the soils. AOA diversity was higher than AOB diversity in most of the soils with AOA operational taxonomic units (OTU) numbers ranging from 40 to 169 and AOB OTU numbers ranging from 18 to 105. pH was the most important factor influencing the community structure of AOA (P < 0.01) and AOB (P < 0.05), and acidophilic AOA (i.e. Nitrosotalea-related sequences) were dominant in soils with pH values below 6.0. In addition, AOA amoA gene copy numbers were significantly positively correlated with pH (P < 0.05), the ratio of AOA OTU numbers/AOB OTU numbers was significantly negatively correlated with pH (P < 0.05), and the percentage of sequences represented by the Nitrosotalea cluster was significantly negatively correlated with pH (P < 0.01).


Subject(s)
Ammonia/metabolism , Archaea/classification , Bacteria/classification , Soil Microbiology , Agriculture , Archaea/genetics , Archaea/isolation & purification , Archaea/metabolism , Bacteria/genetics , Bacteria/isolation & purification , Bacteria/metabolism , China , Molecular Sequence Data , Nitrification , Oxidation-Reduction , Soil/chemistry
4.
PLoS One ; 7(8): e44122, 2012.
Article in English | MEDLINE | ID: mdl-22952893

ABSTRACT

Ammonia oxidation is performed by both ammonia-oxidizing bacteria (AOB) and ammonia-oxidizing archaea (AOA). To explore the effect of ammonia concentration on the population dynamic changes of ammonia-oxidizing microorganisms, we examined changes in the abundance and community composition of AOA and AOB in different layers. Most of the archaeal amoA sequences were Nitrosotalea-related and the proportion that Nitrosotalea cluster occupied decreased in the surface layer and increased in the deep layer during the cultivation process. Nitrosopumilus-related sequences were only detected in the deep layer in the first stage and disappeared later. Both phylogenetic and quantitative analysis showed that there were increased Nitrosomonas-related sequences appeared in the surface layer where the ammonia concentration was the highest. Both AOA and AOB OTU numbers in different layers decreased under selective pressure and then recovered. The potential nitrification rates were 25.06 µg · N · L(-1) · g(-1) dry soil · h(-1) in the mid layer which was higher than the other two layers. In general, obvious population dynamic changes were found for both AOA and AOB under the selective pressure of exogenous ammonia and the changes were different in three layers of the soil column.


Subject(s)
Ammonia/pharmacology , Archaea/growth & development , Bacteria/growth & development , Biota , Oryza/microbiology , Soil Microbiology , Archaea/drug effects , Archaea/genetics , Bacteria/drug effects , Bacteria/genetics , Base Sequence , Gene Dosage/genetics , Gene Library , Genes, Archaeal/genetics , Genes, Bacterial/genetics , Genetic Variation/drug effects , Molecular Sequence Data , Nitrification/genetics , Oxidation-Reduction/drug effects , Phylogeny , Real-Time Polymerase Chain Reaction
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