An international team of scientists led by the U.S Geological Survey (USGS) released a comprehensive
showing widespread mercury contamination across western North American.
The report, based on decades of mercury data and research, found alarming levels of mercury and methylmercury in the forests, fishes, wildlife, plants and waterways of America’s western landscapes. The USGS study provides the first integrated analysis of where mercury occurs in western North America, how it moves through the environment, and the processes that influence its movement and transfer to aquatic and ultimately, the human food chain.
Fish are indicators of methylmercury contamination because they are an important link in the food chain for both wildlife and humans.
U.S. Forest Service
Among the many disturbing findings are shocking accumulations of mercury in densely forested areas such as those found along the Pacific mountain ranges of California and Oregon. The scientific team showed that these critical ecosystems collect dangerous mercury loads because they receive high amounts of precipitation. Rainfall washes mercury from the atmosphere onto wet forested regions where it binds to the vegetation and accumulates in the soils and surface waters. From these vectors it can bioaccumulate in fish, including salmon.
Vegetation patterns affect both soil moisture and the amount of sunlight that reaches the soil, two factors associated with mercury release from soils.
U.S. Fish and Wildlife Service
The report confirms the findings of a
study that narrowly investigated mercury levels in rainfall. That study reported that the long-term trend of decreasing mercury levels in precipitation had leveled off and that some sites in the western U.S. were experiencing increases, which the investigators concluded were due to exploding mercury emissions from Asia.
earlier study in 2002
reported that industrial emissions in Asia are a major source of mercury in rainwater falling along the California coast. The new USGS study describes the precise atmospheric transport mechanisms that carry massive mercury contamination from Asia and deposit the potent neurotoxin in the water, soils and biota across America’s West Coast. According to the papers lead author, it is not just the mercury itself, but a cocktail of atmospheric pollutants that contribute to the deposition of mercury in rainfall. Elemental mercury behaves as a gas in the atmosphere and is not washed out in rain until it has been oxidized into a charged ionic form that can be captured by water droplets.
The USGS study sheds light on earlier research with frightening human health implications. A 2008
reported children living in areas of high precipitation may be more likely to have autism. Those investigators looked at rainfall in California, Washington and Oregon. That team obtained autism prevalence rates for children born in those three states between 1987 and 1999 and calculated average annual precipitation by county from 1987 to 2001. The researchers also computed the autism rates in relation to the average annual precipitation in the counties when the children were younger than 3 years old.
Those scientists found that counties that received relatively large amounts of precipitation had a relatively high rate of autism. More specifically, counties in Oregon and Washington west of the Cascades receive four times as much precipitation as counties east of the Cascades, and had an autism rate that was twice as high. These are the same states that were identified in the USGS’s comprehensive report demonstrating the relationship between mercury deposition and precipitation.
The team also looked at each county over time, taking into account the varying annual precipitation levels. The study authors performed this analysis to rule out the effect of other factors, such as differences in the quality of the health care systems from one county to another. The relationship between precipitation and autism held.
Several earlier studies have established a potential connection between mercury from industrial air pollution and autism. In 2006 researchers in Texas
that on average, for each 1,000 pounds of environmentally released mercury, there was a 43 percent increase in the rate of special education services and a 61 percent increase in the rate of autism. An
in the state of California found an association between autism and metal concentrations (mercury, cadmium, nickel, trichloroethylene) and possibly solvents (vinyl chloride).
These studies, however, concentrated on a few individual states. The latest study included women across the whole country. According to the
first national study
to investigate the possible link, living in an area with high levels of air pollution and mercury increased a woman’s chances of having a child with autism.
“Women who were exposed to the highest levels of diesel or mercury in the air were twice as likely to have a child with autism than women who lived in the cleanest parts of the sample,” according to the study author Andrea Roberts, a research associate with the Harvard School of Public Health.
Some researchers who first reported the correlation between high precipitation and high rates of autism, hypothesized that the link might be the result of children spending more time indoors where they generated less vitamin D or had increased exposures to household toxins. These reports gave little consideration to increased mercury exposure as a potential causative factor.
Key findings from the report include:
- Methylmercury contamination in fish and birds is common in many areas throughout the West, and climate and land cover are some important factors influencing mercury contamination and availability to animals.
- Fish and birds in many areas were found to have mercury concentrations above levels that have been associated with toxic effects.
- Patterns of methylmercury exposure in fish and wildlife across the West differed from patterns of inorganic mercury on the landscape.
- Some ecosystems and species are more sensitive to mercury contamination, and local environmental conditions are important factors influencing the creation and transfer of methylmercury through the food web.
- Forest soils typically contain more inorganic mercury than soils in semi-arid environments, yet the highest levels of methylmercury in fish and wildlife occurred in semi-arid areas.
- Vegetation patterns strongly influence the amount of mercury emitted to the atmosphere from soils.
- Forested areas retain mercury from the atmosphere, whereas less vegetated areas tend to release mercury to the atmosphere.
- Land disturbances, such as urban development, agriculture, and wildfires, are important factors in releasing inorganic mercury from the landscape, potentially making it available for biological uptake
- Land and water management activities can strongly influence how methylmercury is created and transferred to fish, wildlife, and humans.