Methylmercury Screening Models for Surface Water Habitat Restoration: A Case Study in Duluth-Superior Harbor

Abstract

The placement of dredged material for creating vegetated shallow water aquatic habitat is being assessed for changes in long-term bioavailability of mercury (Hg) to wildlife and humans. The three models used in this study (HERMES, WASP, and SERAFM) were applied in different ways to explore the possible strengths of each model, rather than to make direct comparisons between models. The HERMES model, which was most explicitly changed to account for aquatic plant growth, showed the greatest increases in sediment methylmercury (MeHg). The WASP model, which was most likely simulating a situation where dredged material is placed and aquatic plants do not grow, showed the least overall changes in surface water and sediment MeHg. The SERAFM model, which had the least flushing of the surface water in the restored scenario, showed the greatest increases in surface water MeHg (despite entered reductions in sediment Hg). This study focused on the usefulness of each of the models separately for their ability to predict long-term MeHg changes in sediment, sediment porewater, surface water (including suspended particulates), and dissolved-in-surface water after the creation of shallow water habitat, relative to a no-action scenario at the site.

Document Details

Document Type

Technical Report

Publication Date

Nov 01, 2017

Accession Number

AD1042058

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