By Krystnell A. Storr
For me, fire comes from the end of a match or the flick of a lighter—a controllable little ball of fury the size of a fingertip. For others, it is the transformation of the towering pine trees that surround homes and roadways into a horde of fiery giants. Its march, dangerous and unruly, has made one thing very clear: the rise of wildfire activity in the U.S. is an important scientific and environmental issue—one that that is being amplified by the effects of climate change.
To determine an amount of wildfire activity in a given year, scientists measure the area burned. The National Interagency Fire Center (NIFC) reports that in 2012 alone, 67,774 wildland fires burned through more than nine million acres of U.S. land, three times more than the five-year averages from a few decades ago.
Wildfires are unpredictable and containing them can be challenging and dangerous. According to the NIFC, last year the total direct costs of fire suppression exceeded 1.9 billion dollars nationwide. But that’s not all: wildfires are a major source of airborne pollutants such as fine particulate matter that can lead to serious health issues.
In a study funded by EPA, scientists are modeling projections of wildfire activity fifty years from now. The study takes into account the possible effects of global warming—changing vegetation and less precipitation—in areas already prone to wildfire activity, to determine how future fires may affect air quality.
Using past data, the team built models that link wildfire activity to meteorological conditions. The scientists estimate that by the year 2050, wildfire activity is expected to double in the Southwest, Pacific Northwest, Rocky Mountains Forest, and the Eastern Rockies/Great Plains regions.
The team showed that we may experience shorter springs and warmer summers that in turn would mean prolonged periods of wildfire activity. According to the study, the combination of a longer fire season and an increase in the acreage burned could have impacts far beyond the immediate fire zone, negatively affecting visibility in national parks and wilderness areas and worsening the air quality.
Results of the study have been published online in the scientific journal Atmospheric Environment.
Although a number of wildfire smoke forecasting methods are available, there is no systematic program aimed to lessen the public health burden in nearby communities. In another study, EPA scientists are evaluating the possibility of using smoke forecasts to help societies cope with and recover from wildfires. Understanding how climate change impacts the frequency and severity of wildfires, and in turn our environment and health, is one of the Agency’s priorities and an issue we should all be concerned about.
About the Author: Krystnell A. Storr is a student services contractor working on the Science Communications Team in EPA’s Office of Research and Development.