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Oregon State University

Superfund Research Program

Identification of Remediation Technologies and Conditions that Minimize Formation of Hazardous PAH Breakdown Products at Superfund Sites

Project Leader: Lewis Semprini
Co-Investigators: Staci L. Simonich, Ha-Yeon (Paul) Cheong
Grant Number: P42ES016465
Funding Period: 2009-2025
View this project in the NIH Research Portfolio Online Reporting Tools (RePORT)

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Project Summary (2020-2025)

Although remediation and detection research projects funded by the NIEHS Superfund Research Program have saved >$100 million, recent studies by the OSU SRP laboratory and others have shown that the toxicity of PAH-contaminated soils and sediments increases after biotic and abiotic remediation and that PAH primary transformation products can account for only 23-28 percent of the increased toxicity. Polar secondary PAH transformation products (e.g., epoxides, carbonyls, and ring-cleavage products) likely account for the majority of the toxicity increase after remediation. The overarching goal of this project is to learn to identify remediation technologies that minimize formation of hazardous PAH breakdown products. The first specific aim is to predict, via computational modeling, the secondary transformation products of PAHs that will form during biotic (microbial) and abiotic (with heat or in situ chemical oxidation) remediation. The second specific aim is to measure the secondary PAH transformation products that form during laboratory-scale biotic and abiotic remediation experiments. This data will be fed back into Aim 1 to refine the computational model. The third specific aim is to measure the secondary transformation products of PAHs in real-world Superfund soils and sediments before and after remediation, as well as after natural attenuation. The fourth specific aim is a) to identify remediation technologies, or combinations of remediation technologies, that minimize the formation of toxic primary and secondary transformation products of PAHs and b) to understand how the optimal remediation strategy depends on the remediation conditions and on the properties of the soils and sediments. The research team also plans to test any new remediation technologies that stakeholders, or other SRP Centers, wish to evaluate. Passive sampling devices will be applied to assess the bioavailability of PAHs and their transformation products. Soil column leaching techniques will also be applied to assess their tendency to leach from to soil to groundwater. These four Specific Aims, taken together, will help to answer the questions of stakeholders regarding which PAH-transformation products at Superfund sites are hazardous, which transformation products have the potential to result in human exposure, and which exposures have the potential to compromise human health. Based on these findings, the SRP will advise the managers of specific Superfund sites regarding which remediation strategies (or combinations of strategies) minimize the threat to society.

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