Microbial population dynamics of granular aerobic sequencing batch reactors during start-up and steady state periods
Microbial population dynamics of granular aerobic sequencing batch reactors during start-up and steady state periods
This study investigates microbial population dynamics in granular sequencing batch reactors (GSBR). The experimental results of DGGE fingerprint of sludge demonstrated that the microbial community structure of sludge shifted significantly during granulation period and nutrient removal improvement period. After reactor performance and physical characteristics of sludge reached steady state, microbial population of sludge became relatively stable. The high similarity of microbial community structure between co-existed flocculated sludge and granular sludge in GSBR at different operation phases indicated that similar microbial consortium could exist in compact aggregated form or in amorphous flocculated form. Therefore, strong selection pressure was still required to wash out flocs to maintain the stability of reactor operation. In addition, it was found that substrate type had considerable impact on microbial species selection and enrichment in granular sludge. The clone library of granular sludge showed that microbial species in divisions of a-Proteobacteria, b-Proteobacteria, g-Proteobacteria and Bacteroidetes existed within acetate-fed granule communities and Thauera spp. from b-Proteobacteria accounted for 49% of the total clones in the whole clone library. It is thus speculated that Thauera spp. are important for the formation of acetate-fed granules under the conditions used in this study, maintaining the integrity of granules or substrate degradation
1281-1287
Liu, Y. Q.
75adc6f8-aa83-484e-9e87-6c8442e344fa
Kong, Y. H.
2f7fb168-637a-4ad9-b253-1364da9e47ae
Zhang, R.
0db08a43-0be0-46fc-bb29-e28a9d0e3243
Zhang, X.
2a998468-40dc-4bff-b640-5c7bf74b416b
Wong, F. S.
29afbee3-5522-441e-8a16-14816093ebe5
Tay, J. H.
fa6f96c6-84ac-4e77-b946-d33f1ea651fa
Zhu, J. R.
970ea566-ef38-426e-826d-eaad6ed1dd86
Jiang, W. J.
862192bc-4506-444c-afb5-158c89d8c296
Liu, W. T.
d617d7a0-cdaf-48dc-9598-84252b73bc6a
2010
Liu, Y. Q.
75adc6f8-aa83-484e-9e87-6c8442e344fa
Kong, Y. H.
2f7fb168-637a-4ad9-b253-1364da9e47ae
Zhang, R.
0db08a43-0be0-46fc-bb29-e28a9d0e3243
Zhang, X.
2a998468-40dc-4bff-b640-5c7bf74b416b
Wong, F. S.
29afbee3-5522-441e-8a16-14816093ebe5
Tay, J. H.
fa6f96c6-84ac-4e77-b946-d33f1ea651fa
Zhu, J. R.
970ea566-ef38-426e-826d-eaad6ed1dd86
Jiang, W. J.
862192bc-4506-444c-afb5-158c89d8c296
Liu, W. T.
d617d7a0-cdaf-48dc-9598-84252b73bc6a
Liu, Y. Q., Kong, Y. H., Zhang, R., Zhang, X., Wong, F. S., Tay, J. H., Zhu, J. R., Jiang, W. J. and Liu, W. T.
(2010)
Microbial population dynamics of granular aerobic sequencing batch reactors during start-up and steady state periods.
Water Science & Technology, 62 (6), .
(doi:10.2166/wst.2010.408).
Abstract
This study investigates microbial population dynamics in granular sequencing batch reactors (GSBR). The experimental results of DGGE fingerprint of sludge demonstrated that the microbial community structure of sludge shifted significantly during granulation period and nutrient removal improvement period. After reactor performance and physical characteristics of sludge reached steady state, microbial population of sludge became relatively stable. The high similarity of microbial community structure between co-existed flocculated sludge and granular sludge in GSBR at different operation phases indicated that similar microbial consortium could exist in compact aggregated form or in amorphous flocculated form. Therefore, strong selection pressure was still required to wash out flocs to maintain the stability of reactor operation. In addition, it was found that substrate type had considerable impact on microbial species selection and enrichment in granular sludge. The clone library of granular sludge showed that microbial species in divisions of a-Proteobacteria, b-Proteobacteria, g-Proteobacteria and Bacteroidetes existed within acetate-fed granule communities and Thauera spp. from b-Proteobacteria accounted for 49% of the total clones in the whole clone library. It is thus speculated that Thauera spp. are important for the formation of acetate-fed granules under the conditions used in this study, maintaining the integrity of granules or substrate degradation
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Published date: 2010
Organisations:
Civil Maritime & Env. Eng & Sci Unit
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Local EPrints ID: 351883
URI: http://eprints.soton.ac.uk/id/eprint/351883
ISSN: 0273-1223
PURE UUID: fb891e99-1e82-49af-a1ec-b96a71b61455
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Date deposited: 25 Apr 2013 14:33
Last modified: 15 Mar 2024 03:47
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Author:
Y. H. Kong
Author:
R. Zhang
Author:
X. Zhang
Author:
F. S. Wong
Author:
J. H. Tay
Author:
J. R. Zhu
Author:
W. J. Jiang
Author:
W. T. Liu
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