Composition and Distribution of Extracellular Polymeric Substances in Aerobic Flocs and Granular Sludge

Extracellular polymeric substances (EPS) were quantified in flocculent and aerobic granular sludge developed in two sequencing batch reactors with the same shear force but different settling times. Several EPS extraction methods were compared to investigate how different methods affect EPS chemical...

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Bibliographic Details
Published in:Applied and Environmental Microbiology 2005-02, Vol.71 (2), p.1051-1057
Main Authors: McSwain, B. S, Irvine, R. L, Hausner, M, Wilderer, P. A
Format: Article
Language:English
Subjects:
Aerobiosis
Biological and medical sciences
Biological treatment of waters
Biopolymers - chemistry
Bioreactors
Biotechnology
Environment and pollution
Environmental Microbiology
Flocculation
Fundamental and applied biological sciences. Psychology
Industrial applications and implications. Economical aspects
Microbiology
Polymers
Polysaccharides - analysis
Proteins - analysis
Sewage - chemistry
Sludge
Waste Disposal, Fluid - methods
Water treatment
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Summary:Extracellular polymeric substances (EPS) were quantified in flocculent and aerobic granular sludge developed in two sequencing batch reactors with the same shear force but different settling times. Several EPS extraction methods were compared to investigate how different methods affect EPS chemical characterization, and fluorescent stains were used to visualize EPS in intact samples and 20-[micro]m cryosections. Reactor 1 (operated with a 10-min settle) enriched predominantly flocculent sludge with a sludge volume index (SVI) of 120 ± 12 ml g⁻¹, and reactor 2 (2-min settle time) formed compact aerobic granules with an SVI of 50 ± 2 ml g⁻¹. EPS extraction by using a cation-exchange resin showed that proteins were more dominant than polysaccharides in all samples, and the protein content was 50% more in granular EPS than flocculent EPS. NaOH and heat extraction produced a higher protein and polysaccharide content from cell lysis. In situ EPS staining of granules showed that cells and polysaccharides were localized to the outer edge of granules, whereas the center was comprised mostly of proteins. These observations confirm the chemical extraction data and indicate that granule formation and stability are dependent on a noncellular, protein core. The comparison of EPS methods explains how significant cell lysis and contamination by dead biomass leads to different and opposing conclusions.
ISSN:0099-2240
1098-5336
DOI:10.1128/AEM.71.2.1051-1057.2005