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Perchlorate Remediation Using a Novel Autotrophic Perchlorate -Reducing Microbial Community

Perchlorate Remediation Using a Novel Autotrophic Perchlorate -Reducing Microbial Community.

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Perchlorate Remediation Using a Novel Autotrophic Perchlorate -Reducing Microbial Community

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  1. Perchlorate Remediation Using a Novel Autotrophic Perchlorate-Reducing Microbial Community Synopsis: Perchlorate is a common groundwater contaminant that interferes with thyroid function. Drs. Ergas and Nüsslein are investigating a novel autotrophic microbial consortium that can use elemental sulfur as an electron donor and perchlorate as an electron acceptor. In bench-scale studies ClO4-concentrations (60-120 mg/L), typical of contaminated groundwater sites, were reduced to < 4 mg/L at an EBCT of 7.5 hours. The microbial community was found to change with ClO4- availability from a majority of Beta-Proteobacteria near the influent end of the reactor to primarily sulfur-oxidizing bacteria near the effluent end of the reactor. Current research focuses on pilot-scale studies at the Massachusetts Military Reservation on Cape Cod PIs: Sarina J. Ergas and Klaus Nüsslein Sponsor: National Science Foundation Students: Ashish Sahu, Teresa Conneely, Amber Boles and Robert McKeever Teresa with pilot reactor. Perchlorate removal in a bench-scale bioreactor. FISH images of ClO4- reducing bacteria.

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