Abstract: The present invention relates to a method for remediating fuel oxygenate-contaminated soil, sediment or groundwater comprising combining at least one natural microorganism source with at least one methoxylated phenolic compound under anaerobic conditions. The invention also relates to a method for increasing the rate of remediation of fuel oxygenate-contaminated soil.

Abstract: Polyaromatic hydrocarbons are found in contaminated soils and groundwater and are a large class of compounds for which treatment by bioremediation is sought. Accordingly, indigenous organisms that can degrade polyaromatic hydrocarbon are needed. Presented are strains of the Paenibacillus genus that degrade low molecule weight polyaromatic, and, in the presence of phenanthrene, high molecular weight polyaromatic hydrocarbons. These bacteria strains are unique among PAH-degrading bacterial strains because they form endospores and therefore can survive adverse environmental conditions. Among the strains presented are several from “P. naphthalenovorans”, a newly described species. Also presented are compositions for bioremediation comprising the bacterial strains of the invention, and a method for isolating the strains and a method for using the strains for bioremediation.

Abstract: Polyaromatic hydrocarbons are found in contaminated soils and groundwater and are a large class of compounds for which treatment by bioremediation is sought. Accordingly, indigenous organisms that can degrade polyaromatic hydrocarbon are needed. Presented are strains of the Paenibacillus genus that degrade low molecule weight polyaromatic, and, in the presence of phenanthrene, high molecular weight polyaromatic hydrocarbons. These bacteria strains are unique among PAH-degrading bacterial strains because they form endospores and therefore can survive adverse environmental conditions. Among the strains presented are several from “P. naphthalenovorans”, a newly described species. Also presented are compositions for bioremediation comprising the bacterial strains of the invention, and a method for isolating the strains and a method for using the strains for bioremediation.

Abstract: Polyaromatic hydrocarbons are found in contaminated soils and groundwater and are a large class of compounds for which treatment by bioremediation is sought. Accordingly, indigenous organisms that can degrade polyaromatic hydrocarbon are needed. Presented are strains of the Paenibacillus genus that degrade low molecule weight polyaromatic, and, in the presence of phenanthrene, high molecular weight polyaromatic hydrocarbons. These bacteria strains are unique among PAH-degrading bacterial strains because they form endospores and therefore can survive adverse environmental conditions. Among the strains presented are several from “P. naphthalenovorans”, a newly described species and also P. validus. Also presented are compositions for bioremediation comprising the bacterial strains of the invention and a method for isolating the strains and a method for using the strains for bioremediation.