Microbial community structure of activated sludge in treatment plants with different wastewater compositions
Activated sludge (AS) plays a crucial role in the treatment of domestic and industrial wastewater. AS is a biocenosis of microorganisms capable of degrading various pollutants, including organic compounds, toxicants and xenobiotics. We performed 16S rRNA gene sequencing of AS and incoming sewage in...
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doaj-a2dfabebb684427da40a9891594174062020-11-24T23:21:33ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2016-02-01710.3389/fmicb.2016.00090174198Microbial community structure of activated sludge in treatment plants with different wastewater compositionsNataliya M. Shchegolkova0George S. Krasnov1George S. Krasnov2Anastasia A. Belova3Anastasia A. Belova4Alexey A. Dmitriev5Sergey eKharitonov6Kseniya M. Klimina7Nataliya V. Melnikova8Anna V. Kudryavtseva9Water Problems Institute, Russian Academy of SciencesEngelhardt Institute of Molecular Biology, Russian Academy of SciencesWater Problems Institute, Russian Academy of SciencesEngelhardt Institute of Molecular Biology, Russian Academy of SciencesWater Problems Institute, Russian Academy of SciencesEngelhardt Institute of Molecular Biology, Russian Academy of SciencesEngelhardt Institute of Molecular Biology, Russian Academy of SciencesVavilov Institute of General Genetics, Russian Academy of SciencesEngelhardt Institute of Molecular Biology, Russian Academy of SciencesEngelhardt Institute of Molecular Biology, Russian Academy of SciencesActivated sludge (AS) plays a crucial role in the treatment of domestic and industrial wastewater. AS is a biocenosis of microorganisms capable of degrading various pollutants, including organic compounds, toxicants and xenobiotics. We performed 16S rRNA gene sequencing of AS and incoming sewage in three wastewater treatment plants (WWTPs) responsible for processing sewage with different origins: municipal wastewater, slaughterhouse wastewater, and refinery sewage. In contrast to incoming wastewater, the taxonomic structure of AS biocenosis was found to become stable in time, and each WWTP demonstrated a unique taxonomic pattern. Most pathogenic microorganisms (Streptococcus, Trichococcus, etc.) and inductors of AS bulking and flocculation (Comamonadaceae, Flavobacteriaceae, etc.), which are abundantly represented in incoming sewage, were significantly decreased in AS of all WWTPs, except for the slaughterhouse wastewater, which was rich in organic matter. Here we present a novel approach enabling the prediction of the metabolic potential of bacterial communities based on their taxonomic structures and MetaCyc database data. We developed a software application, XeDetect, to implement this approach. Using XeDetect, we found that the metabolic potential of the three bacterial communities clearly reflected the substrate composition. We revealed that the microorganisms responsible for AS flocculation and bulking (abundant in AS of slaughterhouse wastewater) played a leading role in the degradation of substrates such as fatty acids, amino acids, and other bioorganic compounds. Moreover, we discovered that the chemical, rather than the bacterial composition of the incoming wastewater was the main factor in AS structure formation. XeDetect (freely available: https://sourceforge.net/projects/xedetect) represents a novel powerful tool for the analysis of the metabolic capacity of bacterial communities. The tool will help to optimize bioreactor performance and avoid some most common technical problems.http://journal.frontiersin.org/Journal/10.3389/fmicb.2016.00090/full16S rRNABacterial communitiesMetabolic pathwaysactivated sludgeMetaCyc |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Nataliya M. Shchegolkova George S. Krasnov George S. Krasnov Anastasia A. Belova Anastasia A. Belova Alexey A. Dmitriev Sergey eKharitonov Kseniya M. Klimina Nataliya V. Melnikova Anna V. Kudryavtseva |
spellingShingle |
Nataliya M. Shchegolkova George S. Krasnov George S. Krasnov Anastasia A. Belova Anastasia A. Belova Alexey A. Dmitriev Sergey eKharitonov Kseniya M. Klimina Nataliya V. Melnikova Anna V. Kudryavtseva Microbial community structure of activated sludge in treatment plants with different wastewater compositions Frontiers in Microbiology 16S rRNA Bacterial communities Metabolic pathways activated sludge MetaCyc |
author_facet |
Nataliya M. Shchegolkova George S. Krasnov George S. Krasnov Anastasia A. Belova Anastasia A. Belova Alexey A. Dmitriev Sergey eKharitonov Kseniya M. Klimina Nataliya V. Melnikova Anna V. Kudryavtseva |
author_sort |
Nataliya M. Shchegolkova |
title |
Microbial community structure of activated sludge in treatment plants with different wastewater compositions |
title_short |
Microbial community structure of activated sludge in treatment plants with different wastewater compositions |
title_full |
Microbial community structure of activated sludge in treatment plants with different wastewater compositions |
title_fullStr |
Microbial community structure of activated sludge in treatment plants with different wastewater compositions |
title_full_unstemmed |
Microbial community structure of activated sludge in treatment plants with different wastewater compositions |
title_sort |
microbial community structure of activated sludge in treatment plants with different wastewater compositions |
publisher |
Frontiers Media S.A. |
series |
Frontiers in Microbiology |
issn |
1664-302X |
publishDate |
2016-02-01 |
description |
Activated sludge (AS) plays a crucial role in the treatment of domestic and industrial wastewater. AS is a biocenosis of microorganisms capable of degrading various pollutants, including organic compounds, toxicants and xenobiotics. We performed 16S rRNA gene sequencing of AS and incoming sewage in three wastewater treatment plants (WWTPs) responsible for processing sewage with different origins: municipal wastewater, slaughterhouse wastewater, and refinery sewage. In contrast to incoming wastewater, the taxonomic structure of AS biocenosis was found to become stable in time, and each WWTP demonstrated a unique taxonomic pattern. Most pathogenic microorganisms (Streptococcus, Trichococcus, etc.) and inductors of AS bulking and flocculation (Comamonadaceae, Flavobacteriaceae, etc.), which are abundantly represented in incoming sewage, were significantly decreased in AS of all WWTPs, except for the slaughterhouse wastewater, which was rich in organic matter. Here we present a novel approach enabling the prediction of the metabolic potential of bacterial communities based on their taxonomic structures and MetaCyc database data. We developed a software application, XeDetect, to implement this approach. Using XeDetect, we found that the metabolic potential of the three bacterial communities clearly reflected the substrate composition. We revealed that the microorganisms responsible for AS flocculation and bulking (abundant in AS of slaughterhouse wastewater) played a leading role in the degradation of substrates such as fatty acids, amino acids, and other bioorganic compounds. Moreover, we discovered that the chemical, rather than the bacterial composition of the incoming wastewater was the main factor in AS structure formation. XeDetect (freely available: https://sourceforge.net/projects/xedetect) represents a novel powerful tool for the analysis of the metabolic capacity of bacterial communities. The tool will help to optimize bioreactor performance and avoid some most common technical problems. |
topic |
16S rRNA Bacterial communities Metabolic pathways activated sludge MetaCyc |
url |
http://journal.frontiersin.org/Journal/10.3389/fmicb.2016.00090/full |
work_keys_str_mv |
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