PCB and PAH Speciation among Particle Types in Contaminated Harbor Sediments and Effects on PAH Bioavailability

Autor:	Upal Ghosh, John R. Zimmerman, Richard G. Luthy
Rok vydání:	2003
Předmět:	Pollution Geologic Sediments media_common.quotation_subject New York Mineralogy Particle (ecology) Silt complex mixtures California Bioreactors Wisconsin Environmental Chemistry Particle Size Polycyclic Aromatic Hydrocarbons Charcoal media_common Persistent organic pollutant food and beverages Sediment General Chemistry Contamination Polychlorinated Biphenyls Aerobiosis Biodegradation Environmental Environmental chemistry visual_art Particle-size distribution visual_art.visual_art_medium Environmental science Environmental Pollutants Adsorption
Zdroj:	Environmental Science & Technology. 37:2209-2217
ISSN:	1520-5851 0013-936X
DOI:	10.1021/es020833k
Popis:	This research provides particle-scale understanding of PCB and PAH distribution in sediments obtained from three urban locations in the United States: Hunters Point, CA; Milwaukee Harbor, WI; and Harbor Point, NY. The sediments comprised mineral grains (primarily sand, silt, and clays) and carbonaceous particles (primarily coal, coke, charcoal, pitch, cenospheres, and wood). The carbonaceous sediment fractions were separated from the mineral fractions based on their lower density and were identified by petrographic analysis. In all three sediments, carbonaceous particles contributed 5-7% of the total mass and 60-90% of the PCBs and PAHs. The production of carbonaceous particles is not known to be associated with PCB contamination, and it is very unlikely that these particles can be the source of PCBs in the environment Thus, it appears that carbonaceous particles preferentially accumulate PCBs acting as sorbents in the aqueous environment if PCBs are released directly to the sediment or if deposited as airborne soot particles. Aerobic bioslurry treatment resulted in negligible PAH loss from the carbonaceous coal-derived material in Milwaukee Harbor sediment but resulted in 80% of the PAHs being removed from carbonaceous particles in Harbor Point sediment. Microscale PAH extraction and analysis revealed that PAHs in Harbor Point sediment were associated mainly with coal tar pitch residue. PAHs present in semisolid coal tar pitch are more bioavailable than PAHs sorbed on carbonaceous particles such as coal, coke, charcoal, and cenosphere. Results of this study illustrate the importance of understanding particle-scale association of hydrophobic organic contaminants for explaining bioavailability differences among sediments.
Databáze:	OpenAIRE
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