“We found that fish and human hair from around the world regularly exceeded health advisory levels,” said Joe DiGangi, senior science and technical advisor with IPEN. “The results demonstrate the need for a mercury treaty that mandates true reductions of mercury emissions – not just to air, but to land and water as well. Mercury is a large and serious global threat to human health that requires a robust and ambitious global response.”
A new scientific report, Global Mercury Hotspots, finds that humans and marine ecosystems around the world are contaminated with mercury and that mercury levels in humans and fish regularly exceed health advisory guidelines.
“The evidence just keeps piling up. We need to take action at every level – state, federal, and international – to eliminate sources of mercury exposure. Exposure to mercury building up in the environment hurts Maine’s fishing and recreation economies, and costs us millions in health care and special education. Children in Maine suffer from neuro-behavioral conditions that we know are due in part to exposure to mercury and other toxic metals and chemicals,” said Abby King of the Natural Resources Council of Maine.
Maine has strong laws that help eliminate the root sources of mercury in products sold in the state, as well as handling them safely when they are thrown away. But King says there is more to be done.
“We need to make sure that mercury-containing products don’t end up in landfills and incinerators, and that Mainers aren’t left footing the bill for the safe recycling of thermostats, compact-fluorescent bulbs, and other toxic products. We need to continue to strengthen product stewardship programs for these toxic and costly every-day items,” stated King.
The report, Global Mercury Hotspots, “brings together new data on mercury concentrations in fish and human hair samples and identifies, for the first time, a set of global biological hotspots where elevated levels of mercury are sufficient to pose serious threats to both ecosystems and human health,” said David C. Evers, Ph.D., BRI’s executive director and chief scientist. The report was a joint collaboration between IPEN, a global network of public interest organizations, and the scientific research team of BRI.
The report, a collaboration between IPEN and Biodiversity Research Institute (BRI), highlights the urgent need for an overall reduction in mercury emissions when government delegates convene next week in Geneva in their final negotiating session to establish an international mercury treaty – the first global treaty on the environment in more than a decade by the United Nations Environment Program.
Key findings from the report:
- Mercury contamination is ubiquitous in marine and freshwater systems around the world.
- Biological mercury hotspots are globally common and are related to a variety of human activities, such as chlor-alkali facilities, contaminated sites, coal-fired power plants, artisanal small-scale gold mining, mixed-used chemical industry sites and other sources.
- Fish samples from around the world regularly demonstrate mercury concentrations exceeding U.S. Environmental Protection Agency (EPA) human health advisory guidelines. In the study, from 43 up to 100 percent of fish samples from 9 countries exceeded safe consumption of one fish meal of 170 grams (6 ounces) per month. Mercury concentrations in fish from sites in Japan and Uruguay were so high that no consumption is recommended.
- More than 82 percent of human hair samples from eight countries exceeded U.S EPA reference dose levels of 1.0 ppm. In Thailand, 20 out of 20 individuals living near an industrial site had unsafe levels; 19 out of 20 Indonesians at a gold mining site exceeded EPA recommended levels; and 18 out of 20 individuals in Tokyo, Japan had similarly high levels.
Public interest groups such as IPEN are concerned that current proposed treaty measures are not sufficient to prevent continued health impacts from mercury or reduce global levels of mercury in fish. Concluding negotiations on the mercury treaty will take place on January 13 to 18, 2013 in Geneva, Switzerland.
There are also growing objections to naming the treaty, the Minamata Convention, as proposed by a former Japanese prime minister, and holding the treaty signing ceremony in Minamata, Japan, a site where mercury contamination has devastated the community’s human and animal population for decades. As currently proposed, the treaty does not contain any obligations to identify or clean up contaminated sites, does not require polluters to pay for health damages or environmental clean up, or provide for protection from similar disasters occurring anywhere in the world. Varying objections to the name have been raised by some government delegates, organizations representing victims of the tragedy, and the Minamata City Council.
Human activities such as burning coal, mining and refining metal ores, and the manufacture of cement release mercury into the environment. Large intentional uses of mercury today include small-scale gold mining and vinyl chloride monomer production. Coal combustion is also a significant contributor to atmospheric mercury emissions and subsequent global deposition. Much of the mercury produced and used eventually volatizes into the atmosphere and travels around the globe, eventually falling back to the earth or ocean.
When mercury falls into the ocean and waterways, microorganisms transform it into an especially toxic form of mercury, methylmercury, which then becomes part of the food chain. Methylmercury is readily absorbed by the body and people are exposed primarily through the consumption of fish. Many national and international health organizations recognize mercury in fish as a threat to human health, livelihoods, and the environment.
The dangers of mercury poisoning have been known for centuries. Exposure to high levels of mercury can permanently damage the brain and kidneys. Harmful effects are also passed from a mother to her developing fetus and can result in brain damage, mental retardation, blindness, seizures and an inability to speak.