Dirk Springael scite author profile

Two different procedures were compared to isolate polycyclic aromatic hydrocarbon (PAH)-utilizing bacteria from PAH-contaminated soil and sludge samples, i.e., (i) shaken enrichment cultures in liquid mineral medium in which PAHs were supplied as crystals and (ii) a new method in which PAH degraders were enriched on and recovered from hydrophobic membranes containing sorbed PAHs. Both techniques were successful, but selected from the same source different bacterial strains able to grow on PAHs as the sole source of carbon and energy. The liquid enrichment mainly selected for Sphingomonas spp., whereas the membrane method exclusively led to the selection of Mycobacterium spp. Furthermore, in separate membrane enrichment set-ups with different membrane types, three repetitive extragenic palindromic PCR-related Mycobacterium strains were recovered. The new Mycobacterium isolates were strongly hydrophobic and displayed the capacity to adhere strongly to different surfaces. One strain, Mycobacterium sp. LB501T, displayed an unusual combination of high adhesion efficiency and an extremely high negative charge. This strain may represent a new bacterial species as suggested by 16S rRNA gene sequence analysis. These results indicate that the provision of hydrophobic sorbents containing sorbed PAHs in the enrichment procedure discriminated in favor of certain bacterial characteristics. The new isolation method is appropriate to select for adherent PAH-degrading bacteria, which might be useful to biodegrade sorbed PAHs in soils and sludge.

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The role of mobile genetic elements in bacterial adaptation to xenobiotic organic compounds

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Springael

2003

Current Opinion in Biotechnology

301

208

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DsrB gene-based DGGE for community and diversity surveys of sulfate-reducing bacteria

Geets

Borremans

Diels

et al. 2006

Journal of Microbiological Methods

287

173

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Is biological treatment a viable alternative for micropollutant removal in drinking water treatment processes?

et al. 2013

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Biodegradation: Updating the Concepts of Control for Microbial Cleanup in Contaminated Aquifers

Meckenstock

Elsner

Griebler

et al. 2015

Environ. Sci. Technol.

238

168

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Biodegradation is one of the most favored and sustainable means of removing organic pollutants from contaminated aquifers but the major steering factors are still surprisingly poorly understood. Growing evidence questions some of the established concepts for control of biodegradation. Here, we critically discuss classical concepts such as the thermodynamic redox zonation, or the use of steady state transport scenarios for assessing biodegradation rates. Furthermore, we discuss if the absence of specific degrader populations can explain poor biodegradation. We propose updated perspectives on the controls of biodegradation in contaminant plumes. These include the plume fringe concept, transport limitations, and transient conditions as currently underestimated processes affecting biodegradation.

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Dirk Springael

Isolation of Adherent Polycyclic Aromatic Hydrocarbon (PAH)-Degrading Bacteria Using PAH-Sorbing Carriers

The role of mobile genetic elements in bacterial adaptation to xenobiotic organic compounds

DsrB gene-based DGGE for community and diversity surveys of sulfate-reducing bacteria

Is biological treatment a viable alternative for micropollutant removal in drinking water treatment processes?

Biodegradation: Updating the Concepts of Control for Microbial Cleanup in Contaminated Aquifers

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