Change of sludge consortium in response to sequential adaptation to benzene, toluene, and o-xylene

Authors
Park, Jae YeonSang, Byoung-In
Issue Date
2007-11
Publisher
KOREAN SOC MICROBIOLOGY & BIOTECHNOLOGY
Citation
JOURNAL OF MICROBIOLOGY AND BIOTECHNOLOGY, v.17, no.11, pp.1772 - 1781
Abstract
Activated sludge was sequentially adapted to benzene, toluene, and o-xylene (BTX) to study the effects on the change of microbial community. Sludge adapted to BTX separately degraded each by various rates in the following order; toluene>o-xylene>benzene. Degradation rates were increased after exposure to repeated spikes of substrates. Eleven different kinds of sludge were prepared by the combination of BTX sequential adaptations. Clustering analyses (Jaccard, Dice, Pearson, and cosine product coefficient and dimensional analysis of MDS and PCA for DGGE patterns) revealed that acclimated sludge had different features from nonacclimated sludge and could be grouped together according to their prior treatment. Benzene- and xylene-adapted sludge communities showed similar profiles. The sludge profile was affected from the point of the final adaptation substrate regardless of the adaptation sequence followed. In the sludge adapted to 50 ppm toluene, Nitrosomonas sp. and bacterium were dominant, but these bands were not dominant in benzene and benzene after toluene adaptations. Instead, Flexibacter sp. was dominant in these cultures. Dechloromonas sp. was dominant in the culture adapted to 50 ppm benzene. Thauera sp. was the main band in the sludge adapted to 50 ppm xylene, but became vaguer as the xylene concentration was increased. Rather, Flexibacter sp. dominated in the sludge adapted to 100 ppm xylene, although not in the culture adapted to 250 ppm xylene. Two bacterial species dominated in the sludge adapted to 250 ppm xylene, and they also existed in the sludge adapted to 250 ppm xylene after toluene and benzene.
Keywords
GRADIENT GEL-ELECTROPHORESIS; SUBSTRATE INTERACTIONS; COMMUNITY STRUCTURE; BACTERIAL COMMUNITIES; MICROBIAL COMMUNITIES; CONTAMINATED AQUIFER; STRAIN T1; BIODEGRADATION; BTEX; DEGRADATION; GRADIENT GEL-ELECTROPHORESIS; SUBSTRATE INTERACTIONS; COMMUNITY STRUCTURE; BACTERIAL COMMUNITIES; MICROBIAL COMMUNITIES; CONTAMINATED AQUIFER; STRAIN T1; BIODEGRADATION; BTEX; DEGRADATION; sequential adaptation; BTX; sludge consortium; DGGE; clustering analysis; dimensional analysis
ISSN
1017-7825
URI
https://pubs.kist.re.kr/handle/201004/134023
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KIST Article > 2007
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