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Application of Biofilm Covered Activated Carbon Particles as a Microbial Inoculum Delivery System for Enhanced Bioaugmentation of PCBs in Contaminated Sediment

机译:生物膜覆盖活性炭颗粒作为微生物接种系统在污染沉积物中增强pCBs生物强化的应用

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The objectives in SERDP project ER-2135 addressed the SERDP Exploratory Development /201SEED/202 Statement of Need ERSEED-11-01: In situ remediation of contaminated aquatic sediments. Removal of the class of persistent organic pollutants, polychlorinated biphenyls /201PCBs/202, from contaminated aquatic sediments is a priority due to their ability to enter the food chain and their potent toxic and carcinogenic properties. Presently, the approved remediation methods mainly include dredging and capping. However, these techniques are not only expensive, but also result in increased PCB concentrations in the water phase due to resuspension of contaminated sediment particles. While in situ microbial degradation of PCBs would represent a significant improvement in remediation efforts, previous attempts have failed due to PCB stability, low bioavailability and the low abundance and activity of naturally occurring PCB-degrading microorganisms. In order to overcome these negative aspects of microbial degradation, this project evaluated an approach, where anaerobically dechlorinating biofilms were added to sediment as a delivery system either by utilizing bacteria localized and concentrated onto activated carbon surfaces in active biofilm communities or by applying enriched wastewater sludge biofilms. The enhanced effect of biofilms on bioaugmentation was examined in a subsequent mesocosm experiment, where these biofilm communities were applied to PCB contaminated sediment. The high efficiency of activated carbon to quickly adsorb and sequester PCBs from aquatic sediments has previously been demonstrated. Co-localizing PCB-degrading microbes onto the surfaces of activated carbon in the form of biofilms and utilizing it as a microbial inoculum delivery system provides a number of benefits.

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