Bacterial community dynamics during biostimulation and bioaugmentation experiments aiming at chlorobenzene degradation in groundwater

A set of microcosm experiments was performed to assess different bioremediation strategies, i.e., biostimulation and bioaugmentation, for groundwater contaminated with chlorobenzenes. The biodegradative potential was stimulated either by the supply of electron acceptors (air, (NO₃ ⁻), to increase th...

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Bibliographic Details
Published in:Microbial ecology 2003-08, Vol.46 (2), p.161-176
Main Authors: Wenderoth, D. F, Rosenbrock, P, Abraham, W. -R, Pieper, D. H, Höfle, M. G
Format: Article
Language:English
Subjects:
1,4-dichlorobenzene
air
Airtightness
Anaerobic conditions
Anaerobic microorganisms
Animal, plant and microbial ecology
Aquifers
Bacteria
Bacteria, Aerobic - physiology
Bacteria, Anaerobic - physiology
bacterial communities
bioaugmentation
Biodegradation
Biodegradation of pollutants
Biodegradation, Environmental
Biological and medical sciences
Bioremediation
Biotechnology
bottles
Chlorobenzene
Chlorobenzenes - metabolism
Chlorophenols
Community composition
Community structure
Conformation
Contamination
DCB (herbicide)
denitrification
Depletion
Dichlorobenzene
DNA, Bacterial - analysis
Dynamics
Electrons
Environment and pollution
Experiments
Fluorescence
Fluorescence in situ hybridization
Fundamental and applied biological sciences. Psychology
Groundwater
groundwater contamination
Groundwater pollution
Hybridization
In Situ Hybridization, Fluorescence
In situ temperature
Indigenous peoples
Industrial applications and implications. Economical aspects
Inoculum
Microbial ecology
Microbiology
Microbiota
Microcosms
Microorganisms
nitrates
Oligonucleotides
Oxygen
Physicochemical processes
physicochemical properties
Polymorphism
Population Dynamics
Pseudomonas aeruginosa
Pseudomonas putida
ribosomal DNA
RNA, Ribosomal, 16S
rRNA 16S
single-stranded conformational polymorphism
Soil
Soil Microbiology
Soil Pollutants - metabolism
Statistical analysis
Statistical methods
Strains
Strains (organisms)
temperature
Various environments (extraatmospheric space, air, water)
Water Pollutants, Chemical - metabolism
Water Supply
Xenobiotics
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Summary:A set of microcosm experiments was performed to assess different bioremediation strategies, i.e., biostimulation and bioaugmentation, for groundwater contaminated with chlorobenzenes. The biodegradative potential was stimulated either by the supply of electron acceptors (air, (NO₃ ⁻), to increase the activity of the indigenous bacterial community, or by the addition of aerobic chlorobenzene-degrading bacteria (Pseudomonas putida GJ31, Pseudomonas aeruginosa RHOl, Pseudomonas putida F1ΔCC). Experiments were performed with natural groundwater of the aquifer of Bitterfeld, which had been contaminated with 1,2-dichlorobenzene (1,2-DCB), 1,4-dichlorobenzene (1,4-DCB), and chlorobenzene (CB). The microcosms consisted of airtight glass bottles with 800 mL of natural groundwater and were incubated under in situ temperature (13°C). Behavior of the introduced strains within the indigenous bacterial community was monitored by fluorescent in situ hybridization (FISH) with species-specific oligonucleotides. Dynamics of the indigenous community and the introduced strains within the microcosms were followed by single-strand conformation polymorphism (SSCP) analysis of 16S rDNA amplicons obtained from total DNA of the microbial community. An indigenous biodegradation potential under aerobic as well as anaerobic denitrifying conditions was observed accompanied by fast and specific changes in the natural bacterial community composition. Augmentation with P. aeruginosa RHO1 did not enhance bio-degradation. In contrast, both P. putida GJ31 as well as P. putida F1ΔCC were capable of growing in groundwater, even in the presence of the natural microbial community, and thereby stimulating chlorobenzene depletion. P. putida GJ31 disappeared when the xenobiotics were depleted and P. putida F1ΔCC persisted even in the absence of CB. Detailed statistical analyses revealed that community dynamics of the groundwater microbiota were highly reproducible but specific to the introduced strain, its inoculum size, and the imposed physicochemical conditions. These findings could contribute to the design of better in situ bioremediation strategies for contaminated groundwater.
ISSN:0095-3628
1432-184X
DOI:10.1007/s00248-003-2005-8