Research Article
Bacterial dynamics in steady-state biofilters: beyond functional stability
Léa Cabrol,
Luc Malhautier,
Franck Poly,
Anne-Sophie Lepeuple,
Jean-Louis Fanlo,
Léa Cabrol
Veolia Environnement Recherche et Innovation, Maisons Laffitte, France
Laboratoire Génie de l'Environnement Industriel, Ecole des Mines d'Alès, Alès, France
Search for more papers by this authorCorresponding Author
Luc Malhautier
Laboratoire Génie de l'Environnement Industriel, Ecole des Mines d'Alès, Alès, France
Correspondence: Luc Malhautier, Laboratoire Génie de l'Environnement Industriel, Ecole des Mines d'Alès, 6 avenue de Clavières, 30319 Alès Cedex, France. Tel.: +33 0 4 66782778; fax: +33 0 4 66782701; e-mail: [email protected]Search for more papers by this authorFranck Poly
Laboratoire Ecologie Microbienne, Université Lyon 1, UMR-CNRS 5557, USC INRA 1193, Bâtiment Gregor Mendel, Villeurbanne, France
Search for more papers by this authorAnne-Sophie Lepeuple
Veolia Environnement Recherche et Innovation, Maisons Laffitte, France
Search for more papers by this authorJean-Louis Fanlo
Laboratoire Génie de l'Environnement Industriel, Ecole des Mines d'Alès, Alès, France
Search for more papers by this authorLéa Cabrol,
Luc Malhautier,
Franck Poly,
Anne-Sophie Lepeuple,
Jean-Louis Fanlo,
Léa Cabrol
Veolia Environnement Recherche et Innovation, Maisons Laffitte, France
Laboratoire Génie de l'Environnement Industriel, Ecole des Mines d'Alès, Alès, France
Search for more papers by this authorCorresponding Author
Luc Malhautier
Laboratoire Génie de l'Environnement Industriel, Ecole des Mines d'Alès, Alès, France
Correspondence: Luc Malhautier, Laboratoire Génie de l'Environnement Industriel, Ecole des Mines d'Alès, 6 avenue de Clavières, 30319 Alès Cedex, France. Tel.: +33 0 4 66782778; fax: +33 0 4 66782701; e-mail: [email protected]Search for more papers by this authorFranck Poly
Laboratoire Ecologie Microbienne, Université Lyon 1, UMR-CNRS 5557, USC INRA 1193, Bâtiment Gregor Mendel, Villeurbanne, France
Search for more papers by this authorAnne-Sophie Lepeuple
Veolia Environnement Recherche et Innovation, Maisons Laffitte, France
Search for more papers by this authorJean-Louis Fanlo
Laboratoire Génie de l'Environnement Industriel, Ecole des Mines d'Alès, Alès, France
Search for more papers by this authorAbstract
The spatial and temporal dynamics of microbial community structure and function were surveyed in duplicated woodchip-biofilters operated under constant conditions for 231 days. The contaminated gaseous stream for treatment was representative of composting emissions, included ammonia, dimethyl disulfide and a mixture of five oxygenated volatile organic compounds. The community structure and diversity were investigated by denaturing gradient gel electrophoresis on 16S rRNA gene fragments. During the first 42 days, microbial acclimatization revealed the influence of operating conditions and contaminant loading on the biofiltration community structure and diversity, as well as the limited impact of inoculum compared to the greater persistence of the endogenous woodchip community. During long-term operation, a high and stable removal efficiency was maintained despite a highly dynamic microbial community, suggesting the probable functional redundancy of the community. Most of the contaminant removal occurred in the first compartment, near the gas inlet, where the microbial diversity was the highest. The stratification of the microbial structures along the filter bed was statistically correlated to the longitudinal distribution of environmental conditions (selective pressure imposed by contaminant concentrations) and function (contaminant elimination capacity), highlighting the central role of the bacterial community. The reproducibility of microbial succession in replicates suggests that the community changes were presumably driven by a deterministic process.
Supporting Information
| Filename | Description |
|---|---|
| fem1213-sup-0001-FigureS1.docWord document, 58 KB | Fig. S1. Evolution of microbial community structure with time, in the first compartment (15 cm from gas inlet) of biofilters BF1 (♦) and BF2 (♢). |
| fem1213-sup-0002-FigureS2.docWord document, 2.2 MB | Fig. S2. Evolution of microbial community structure with time, in the first compartment (15 cm from gas inlet) of biofilters BF1 and BF2, visualized by UPGMA clustering based on Bray–Curtis similarities. |
| fem1213-sup-0003-FigureS3.docWord document, 98.5 KB | Fig. S3. Spatial and temporal patterns of microbial succession in BF1 (left) and BF2 (right), based on DGGE analysis, visualized by nMDS ordination of DGGE patterns at 15 cm (♦), 45 cm (○), 75 cm (+) and 135 cm () from the gas inlet. |
| fem1213-sup-0004-FigureS4.docWord document, 190 KB | Fig. S4. Representation of the microbial community evenness thanks to the Lorenz–Pareto curves, during acclimatization (a) and in BF1 at the inlet stage according to time (b). |
Please note: The publisher is not responsible for the content or functionality of any supporting information supplied by the authors. Any queries (other than missing content) should be directed to the corresponding author for the article.
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