Superfund Research Program
Development of in-situ Mercury Remediation Approaches Based on Methylmercury Bioavailability
Project Leader: Upal Ghosh
Grant Number: R01ES024284
Funding Period: 2014-2021
The goal of this study is to advance the development of in situ remediation tools for mercury (Hg). There are few available remediation options for Hg contaminated sediments and soils, short of capping and dredging. In situ remediation has not been widely used for mercury, but offers significant advantages in cost and in preservation of ecosystem services especially for large areas with low/moderate levels of contamination.
Two recent major advances improve the chances for development of effective in situ remediation options for Hg. First, recent lab and field trials show that in situ activated carbon amendments, applied as a thin layer to undisturbed sediments or soils, can significantly reduce methylmercury (MeHg) exposure from contaminated sites. Second, the identification of the gene pair responsible for microbial Hg methylation earlier this year (hgcAB) will allow the distribution and activity of Hg- methylating microorganisms in the environment to be established for the first time. Organisms that contain these genes appear to be relatively rare, and their distribution in nature remains unknown. This has the potential to significantly improve models of MeHg production. This research study takes advantage of both of these developments, and several other novel tools, to develop a better understanding of the controls on MeHg production and bioavailability, to develop in situ remediation approaches, and to identify biogeochemical characteristics that may make sites appropriate for these technologies.
Using this new information, the goal of the research team is to develop an empirical model of the factors influencing Hg and MeHg bioavailability in contaminated areas to identify characteristics that make Hg- contaminated sites suitable for in situ sorbent remediation and design sorbent amendment/thin capping strategies that reduce MeHg bioavailability.
The main study site is a salt marsh in Berry’s Creek, NJ, where they began a field trial of in situ sorbent remediation using activated carbon. Additional field trials in the Berry’s Creek marsh are being done to evaluate the relative efficacy of a wider range of black carbons. This intensive work in Berry’s Creek is supplemented with laboratory microcosm studies using sediments and soils from other Hg-contaminated sites. This approach will be used to evaluate the efficacy of a variety of black carbons across a wider range of biogeochemical and site conditions.