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University of California-Riverside

Superfund Research Program

Exploring the Importance of Aging in Contaminant Bioavailability and Remediation

Project Leaders: Jay Gan, Daniel Schlenk
Grant Number: R01ES024313
Funding Period: 2014-2020
View this project in the NIH Research Portfolio Online Reporting Tools (RePORT)

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Human exposure to many environmental contaminants such as DDT and metabolites, polychlorinated biphenyls (PCBs), polycyclic aromatic hydrocarbons (PAHs), and dioxins occurs primarily through food chain transfer and biomagnification. Due to their affinity for natural organic matter, these contaminants are distributed predominantly in the soil or sediment compartment. The initial trophic transfer involves uptake by sediment or soil-dwelling organisms, which dictates the ultimate human health risk of a contaminated site. An often-neglected fact is that contamination at most Superfund sites is a result of historical events, and that contaminants at these sites have resided in the same media for many years or decades, a biogeochemical process loosely termed aging. Aging generally leads to lower contaminant bioavailability, i.e., a reduced potential for entering the food chain. However, at present, there lacks a good understanding of aging effects and its value is not used or exploited in current risk assessment and remediation practices.

In this project, the researchers are first developing a method to measure aging effects of DDTs and PCBs in field-aged sediments by quantifying their relative bioavailability. They are using concurrent bioaccumulation tests to validate the method. They are then applying the method to sediment samples collected as a function of depth (reflecting deposition at different historical times) and spatial location (reflecting different sediment properties) at the Palos Verdes (PV) Shelf Superfund siteoff the Los Angeles coast. The PV Shelf sediments contain high levels (up to 200 mg/kg) of DDTs (especially p,p'-DDE) and PCBs deposited from as far back as 60 years ago. Correlation analysis reveals the relationship between age and bioavailability, and elucidates the influence of sediment properties.

The aging-induced bioavailability changes are being incorporated into trophic food chain models to improve the estimation of hazards to ecological receptors and humans. Black carbon sorbents (e.g., activated carbon, charcoal, biochar) are increasingly used in remediation, as they immediately immobilize HOCs in soil or sediment. The researchers further carry out long-term laboratory incubation experiments to understand the effect of such amendment on contaminant aging or permanent sequestration. Through this project, the researchers are obtaining a holistic understanding of aging effects and its role in regulating contaminant bioavailability, and capturing opportunities for their application to achieve improved risk assessment and mitigation.

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