Wednesday, July 1, 2009
In the warming West, climate most significant factor in fanning wildfires’ flames
US Forest Service, Pacific Northwest Research Station: The recent increase in area burned by wildfires in the Western United States is a product not of higher temperatures or longer fire seasons alone, but a complex relationship between climate and fuels that varies among different ecosystems, according to a study conducted by U.S. Forest Service and university scientists. The study is the most detailed examination of wildfire in the United States to date and appears in the current issue of the journal Ecological Applications.
“We found that what matters most in accounting for large wildfires in the Western United States is how climate influences the build up—or production—and drying of fuels,” said Jeremy Littell, a research scientist with the University of Washington’s Climate Impacts Group and lead investigator of the study. “Climate affects fuels in different ecosystems differently, meaning that future wildfire size and, likely, severity depends on interactions between climate and fuel availability and production.”
To explore climate-fire relationships, the scientists used fire data from 1916 to 2003 for 19 ecosystem types in 11 Western States to construct models of total wildfire area burned. They then compared these fire models with monthly state divisional climate data.
The study confirmed what scientists have long observed: that low precipitation and high temperatures dry out fuels and result in significant fire years, a pattern that dominates the northern and mountainous portions of the West. But it also provided new insight on the relationship between climate and fire, such as Western shrublands’ and grasslands’ requirement for high precipitation one year followed by dry conditions the next to produce fuels sufficient to result in large wildfires.
The study revealed that climate influences the likelihood of large fires by controlling the drying of existing fuels in forests and the production of fuels in more arid ecosystems. The influence of climate leading up to a fire season depends on whether the ecosystem is more forested or more like a woodland or shrubland….
“We found that what matters most in accounting for large wildfires in the Western United States is how climate influences the build up—or production—and drying of fuels,” said Jeremy Littell, a research scientist with the University of Washington’s Climate Impacts Group and lead investigator of the study. “Climate affects fuels in different ecosystems differently, meaning that future wildfire size and, likely, severity depends on interactions between climate and fuel availability and production.”
To explore climate-fire relationships, the scientists used fire data from 1916 to 2003 for 19 ecosystem types in 11 Western States to construct models of total wildfire area burned. They then compared these fire models with monthly state divisional climate data.
The study confirmed what scientists have long observed: that low precipitation and high temperatures dry out fuels and result in significant fire years, a pattern that dominates the northern and mountainous portions of the West. But it also provided new insight on the relationship between climate and fire, such as Western shrublands’ and grasslands’ requirement for high precipitation one year followed by dry conditions the next to produce fuels sufficient to result in large wildfires.
The study revealed that climate influences the likelihood of large fires by controlling the drying of existing fuels in forests and the production of fuels in more arid ecosystems. The influence of climate leading up to a fire season depends on whether the ecosystem is more forested or more like a woodland or shrubland….
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