Your search keyword '"Sims RC"' showing total 2 results

1. Fate of pyrene in contaminated soil amended with alternate electron acceptors.

Author

Nieman JK, Sims RC, McLean JE, Sims JL, and Sorensen DL

Subjects

Biodegradation, Environmental, Biological Availability, Electrons, Iron Compounds chemistry, Kinetics, Manganese Compounds chemistry, Minerals, Nitrates chemistry, Oxides chemistry, Potassium Compounds chemistry, Soil Microbiology, Fluorescent Dyes metabolism, Pyrenes metabolism, Soil Pollutants metabolism

Abstract

Creosote-contaminated soil samples from the Libby Ground Water Contamination Superfund Site in Libby, MT, were amended with the potential alternate electron acceptors (AEA) nitrate (KNO3), manganese oxide (MnO2), and amorphous iron oxyhydroxide (FeOOH) and incubated at low oxygen tensions (0-6% O2). The fate of 14C-pyrene was evaluated with respect to the different soil amendments. The fate of 14C from the radiolabeled pyrene with regard to mineralization and bound residue formation within soil humic fractions was not significantly different from controls for the iron and manganese amended soils. Nitrate amendments appeared to stimulate 14C-pyrene mineralization at a level of 170 mg NO3-N kg(-1), and inhibit mineralization at 340 mg NO3-N kg(-1). The stimulatory effect did not appear to be the result of nitrate serving as an electron acceptor. Although AEA amendments did not significantly affect the rate or extent of 14C-pyrene mineralization, results of oxygen-deprived incubations (purged with N2) indicate that AEA may be utilized by the microbial community in the unsaturated contaminated soil system.

Published

2001

2. Pentachlorophenol and phenanthrene biodegradation in creosote contaminated aquifer material.

Author

Mohammed SA, Sorensen DL, Sims RC, and Sims JL

Subjects

Biodegradation, Environmental, Chromatography, High Pressure Liquid, Gas Chromatography-Mass Spectrometry, Industry, Temperature, Wood, Creosote chemistry, Pentachlorophenol chemistry, Phenanthrenes chemistry, Water Pollutants, Chemical analysis

Abstract

Contamination of the subsurface environment at the Libby Superfund Site, Montana, includes polycyclic aromatic hydrocarbons and f1p4achlorophenol due to accidental spills and improper disposal of wood preserving wastes. Biodegradation is a treatment technology gaining wide application in the treatment of hazardous waste sites. A microcosm study was conducted to evaluate the effect of temperature, sampling depth, nutrient addition, and oxygen on the biodegradation potential of phenanthrene and pentachlorophenol in aquifer samples using radiolabeled chemicals. Mineralization of phenanthrene reached 14% but was less than 1% for pentachlorophenol over the 56 day incubation period. Phenanthrene mineralization in microcosms at 10 degrees C was not significantly different from those at 20 degrees C. This may have been due to microbial community acclimation to lower temperatures at the site. Average volatilization was less than 2% for both phenanthrene and pentachlorophenol. After 56 days, most of the radiolabeled chemical was either solvent extractable or soil bound.

Published

1998