The Minnesota Pollution Control Agency, Minnesota Department of Natural Resources, the Science Museum of Minnesota, and others have been studying the problem of mercury in Minnesota's lakes. By taking core samples of lake sediments and analyzing them for mercury, MPCA and Science Museum scientists can estimate where the mercury came from and begin tracking trends in mercury contamination.
A recent study indicates that less mercury is getting into Minnesota lake sediments than in the past, while studies in Alaska show that mercury from global sources is continuing to rise. If this increase in global mercury continues without corresponding local and regional decreases, mercury contamination in Minnesota fish will also rise.
Wetlands are a major site where inorganic mercury deposited from the atmosphere is converted to methylmercury, the bioaccumulative form of mercury that leads to fish consumption advisories. An MPCA study conducted with a U.S. Environmental Protection Agency grant addressed the question, "How do constructed stormwater wetlands compare to natural wetlands in the production of methylmercury, given the important differences in hydrologic and pollutant loads?" The study collected water chemistry data from 10 urban stormwater wetlands, nine of which are designed to treat stormwater before entering a lake. The study results showed a strong relationship between phosphorus concentrations and methylmercury concentrations in stormwater wetlands. It also found that stormwater wetlands are very similar to natural wetlands in methylmercury levels.
- Effectiveness of Stormwater Ponds/Constructed Wetlands in the Collection of Total Mercury and Production of Methylmercury
- Socioeconomic Consequences of Mercury Use and Pollution
- Economic Benefits of Reducing Mercury Deposition in Minnesota
- Substance Flow Analysis of Mercury in Products
- Sources of Mercury Pollution and the Methylmercury Contamination of Fish in Minnesota