Use of the PCR-DGGE Technique to Determine theMicrobial Community in Anaerobic Activated Sludges from Biogas Plants
The PCR-DGGE technique was used to determine the microbial community in the activated sludge samples obtained from three different biogas plants using livestock including cows, chickens, and pigs as the substrates. Fourteen dominant bands of bacteria and eight bands of the archaea were observed. Mos...
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Science Faculty of Chiang Mai University
2019
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th-cmuir.6653943832-660252019-08-21T09:18:19Z Use of the PCR-DGGE Technique to Determine theMicrobial Community in Anaerobic Activated Sludges from Biogas Plants Ladapa Kumdhitiahutsawakul Dolruedee Jirachaisakdeacha Patiroop Pholchan Wasu Pathom-aree Sakunnee Bovonsombut anaerobic activated sludge biogas plant PCR-DGGE microbial community The PCR-DGGE technique was used to determine the microbial community in the activated sludge samples obtained from three different biogas plants using livestock including cows, chickens, and pigs as the substrates. Fourteen dominant bands of bacteria and eight bands of the archaea were observed. Most of the dominant bacterial groups were related to the uncultured bacteria collected from an anaerobic digester. The bacterial phyla in the activated sludge were Proteobacteria, Acidobacteria, Synergistetes and Bacteroidetes. Additionally, it was shown that three bands associated with the uncultured Acidobacteria clone, uncultured Aminanaerobia clone, and Geobacter sp. Methanogenic bacteria identified were found mainly in the orders (and genera) Methanobacteriales (Methanobacterium, Methanobrevibacter), Methanomicrobiales (Methanolinea) and Methanosarcinales (Methanoseata). The archaeal community showed that Methanoseata sp. dominated in the activated sludge sample from the biogas plant supplied with chicken and cow manure as the substrate, while Methanobacterium sp. and Methanobrevibacter sp. dominated in the activated sludge sample from pig manure. These results supported the approach of using PCR-based DGGE method to analyze the microbial community in the activated sludges. An understanding of these microorganisms will lead to management and improvement in biogas plant efficiencies. 2019-08-21T09:18:19Z 2019-08-21T09:18:19Z 2019 Chiang Mai Journal of Science 46, 3 (May 2019), 444 - 455 0125-2526 http://it.science.cmu.ac.th/ejournal/dl.php?journal_id=10135 http://cmuir.cmu.ac.th/jspui/handle/6653943832/66025 Eng Science Faculty of Chiang Mai University |
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anaerobic activated sludge biogas plant PCR-DGGE microbial community |
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anaerobic activated sludge biogas plant PCR-DGGE microbial community Ladapa Kumdhitiahutsawakul Dolruedee Jirachaisakdeacha Patiroop Pholchan Wasu Pathom-aree Sakunnee Bovonsombut Use of the PCR-DGGE Technique to Determine theMicrobial Community in Anaerobic Activated Sludges from Biogas Plants |
| description |
The PCR-DGGE technique was used to determine the microbial community in the activated sludge samples obtained from three different biogas plants using livestock including cows, chickens, and pigs as the substrates. Fourteen dominant bands of bacteria and eight bands of the archaea were observed. Most of the dominant bacterial groups were related to the uncultured bacteria collected from an anaerobic digester. The bacterial phyla in the activated sludge were Proteobacteria, Acidobacteria, Synergistetes and Bacteroidetes. Additionally, it was shown that three bands associated with the uncultured Acidobacteria clone, uncultured Aminanaerobia clone, and Geobacter sp. Methanogenic bacteria identified were found mainly in the orders (and genera) Methanobacteriales (Methanobacterium, Methanobrevibacter), Methanomicrobiales (Methanolinea) and Methanosarcinales (Methanoseata). The archaeal community showed that Methanoseata sp. dominated in the activated sludge sample from the biogas plant supplied with chicken and cow manure as the substrate, while Methanobacterium sp. and Methanobrevibacter sp. dominated in the activated sludge sample from pig manure. These results supported the approach of using PCR-based DGGE method to analyze the microbial community in the activated sludges. An understanding of these microorganisms will lead to management and improvement in biogas plant efficiencies. |
| author |
Ladapa Kumdhitiahutsawakul Dolruedee Jirachaisakdeacha Patiroop Pholchan Wasu Pathom-aree Sakunnee Bovonsombut |
| author_facet |
Ladapa Kumdhitiahutsawakul Dolruedee Jirachaisakdeacha Patiroop Pholchan Wasu Pathom-aree Sakunnee Bovonsombut |
| author_sort |
Ladapa Kumdhitiahutsawakul |
| title |
Use of the PCR-DGGE Technique to Determine theMicrobial Community in Anaerobic Activated Sludges from Biogas Plants |
| title_short |
Use of the PCR-DGGE Technique to Determine theMicrobial Community in Anaerobic Activated Sludges from Biogas Plants |
| title_full |
Use of the PCR-DGGE Technique to Determine theMicrobial Community in Anaerobic Activated Sludges from Biogas Plants |
| title_fullStr |
Use of the PCR-DGGE Technique to Determine theMicrobial Community in Anaerobic Activated Sludges from Biogas Plants |
| title_full_unstemmed |
Use of the PCR-DGGE Technique to Determine theMicrobial Community in Anaerobic Activated Sludges from Biogas Plants |
| title_sort |
use of the pcr-dgge technique to determine themicrobial community in anaerobic activated sludges from biogas plants |
| publisher |
Science Faculty of Chiang Mai University |
| publishDate |
2019 |
| url |
http://it.science.cmu.ac.th/ejournal/dl.php?journal_id=10135 http://cmuir.cmu.ac.th/jspui/handle/6653943832/66025 |
| _version_ |
1681426378237411328 |