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Fires in Alaska and Canada caused sharp increase in Houston's ozone level
September 25, 2006WASHINGTON - Forest fires that ravaged parts of eastern Alaska and western Canada in 2004 exacerbated the already-high levels of ozone pollution in Houston, Texas, some 5,000 kilometers [3,000 miles] away. The Houston area average eight-hour ozone concentrations on 19 and 20 July 2004 were the highest of any July day in the last five years. Scientists have now tracked their source to smoke from major fires along the Alaska-Yukon border that reached their greatest intensity a week earlier, 12 to 14 July.
A team of 15 scientists headed by Gary Morris of Valparaiso University in Indiana analyzed data from a variety of sources, including weather balloons launched from the campus of Rice University in Houston, NASA satellite instruments, aircraft, and computer models. Their findings will be published on 26 September in the Journal of Geophysical Research (Atmospheres).
Houston frequently fails to meet federal standards for ground-level ozone. Besides posing a health risk for people with respiratory problems, ground-level ozone has also been linked to increased rates of asthma among children, and it can destroy plants and reduce crop yields.
In the new study, Morris and colleagues tracked an air mass from the region of Alaskan-Canadian forest fires as it traveled across Canada, through the mid-western United States and down the Mississippi valley into the Houston area. "We found that with the arrival of the pollutants associated with these forest fires, ozone levels increased between 50-100 percent in the first five kilometers [three miles] over Houston," Morris said.
Morris, Scott Hersey from Rice, Anne Thompson from Pennsylvania State University, and the other researchers employed imagery from NASA's Moderate Resolution Imaging Spectroradiometer on the Terra satellite, aerosol (fine particle) data from the Total Ozone Mapping Spectrometer satellite, and carbon monoxide data from the Atmospheric Infrared Sounder on the Aqua spacecraft. The weather balloons in the study were launched as part of the Tropospheric Ozone Pollution Project, to measure ozone levels from the ground up to more than 30,000 meters [100,000 feet]. Fortuitously, the project coincided with the arrival of pollution from the northern fires.
Normal summer meteorological conditions, smoke from the distant forest fires, and the typical urban pollution generated in the Houston area combined to greatly increase local ozone concentrations during this two-day event in July 2004. The scientists believe that such pollution episodes will continue. Understanding the transport and transformation of gases and aerosols over long distances is needed for improved air quality forecasting, they say.
"This event highlights the critical role imported sources can have on local air quality," said Morris. "Environmental managers at the state level need to take into consideration the impact of such sources as they develop their comprehensive plans to come into compliance with federal regulations. Continuous operation of a network that provides data on ozone concentrations above the surface would be helpful in accurately identifying the sources of pollutants and improving air quality forecasts."
American Geophysical Union
In the new study, Morris and colleagues tracked an air mass from the region of Alaskan-Canadian forest fires as it traveled across Canada, through the mid-western United States and down the Mississippi valley into the Houston area. "We found that with the arrival of the pollutants associated with these forest fires, ozone levels increased between 50-100 percent in the first five kilometers [three miles] over Houston," Morris said.
Morris, Scott Hersey from Rice, Anne Thompson from Pennsylvania State University, and the other researchers employed imagery from NASA's Moderate Resolution Imaging Spectroradiometer on the Terra satellite, aerosol (fine particle) data from the Total Ozone Mapping Spectrometer satellite, and carbon monoxide data from the Atmospheric Infrared Sounder on the Aqua spacecraft. The weather balloons in the study were launched as part of the Tropospheric Ozone Pollution Project, to measure ozone levels from the ground up to more than 30,000 meters [100,000 feet]. Fortuitously, the project coincided with the arrival of pollution from the northern fires.
Normal summer meteorological conditions, smoke from the distant forest fires, and the typical urban pollution generated in the Houston area combined to greatly increase local ozone concentrations during this two-day event in July 2004. The scientists believe that such pollution episodes will continue. Understanding the transport and transformation of gases and aerosols over long distances is needed for improved air quality forecasting, they say.
"This event highlights the critical role imported sources can have on local air quality," said Morris. "Environmental managers at the state level need to take into consideration the impact of such sources as they develop their comprehensive plans to come into compliance with federal regulations. Continuous operation of a network that provides data on ozone concentrations above the surface would be helpful in accurately identifying the sources of pollutants and improving air quality forecasts."
American Geophysical Union
Ozone shuts down early immune response in lungs and body
As policy makers debate what levels of ozone in the air are safe for humans to breathe, studies in mice are revealing that the inhaled pollutant impairs the body's first line of defense, making it more susceptible to subsequent foreign invaders, such as bacteria.
Vehicle emissions monitoring validates inspection program and offers policy insights
A long-term Georgia Institute of Technology study continues to validate the effectiveness of Georgia's vehicle emissions inspection program in 13 metro Atlanta counties that are part of a federal ozone level non-attainment area.
UCI scientists first to predict air quality impact of small-scale power sources
As California searches for more sources of power, researchers at UC Irvine have created the first scientific method for predicting the impact of small-scale generators on air quality - a tool that could help the state develop environmentally sound policies to regulate and promote their use.
UCI scientists find chlorine may contribute to ozone formation
Standard methods of predicting air pollution don't take atmospheric chlorine into account, but the chemical could be responsible for 10 percent or more of daily ozone production in local air, research at UC Irvine has found.
Indoor air purifiers that produce even small amounts of ozone may be risky for health
In a small, poorly ventilated room, an indoor air purifier that produces even a few milligrams of ozone per hour can create an ozone level that exceeds public health standards.
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