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The Spokesman-Review Newspaper
Spokane, Washington  Est. May 19, 1883

Wildfires on rise worldwide

Charles J. Hanley Associated Press

Scientists worldwide are watching temperatures rise, the land turn dry and vast forests go up in flames.

In the Siberian taiga and Canadian Rockies, in Southern California and Australia, researchers find growing evidence tying an upsurge in wildfires to climate change, an impact long predicted by global-warming forecasters.

A team at California’s Scripps Institution, in a headline-making report this month, found that warmer temperatures, causing earlier snow runoff and consequently drier summer conditions, were the key factor in an explosion of big wildfires in the U.S. West over three decades, including fires now rampaging east of Los Angeles.

Researchers previously reached similar conclusions in Canada, where fire is destroying an average of 6.4 million acres a year, compared with 2.5 million in the early 1970s. And an upcoming U.S.-Russian-Canadian scientific paper points to links between warming and wildfires in Siberia, where 2006 already qualifies as an extreme fire season, the sixth in the past eight years. Far to the south in drought-stricken Australia, meanwhile, 2005 was the hottest year on record, and the dangerous bushfire season is growing longer.

“Temperature increases are intimately linked with increases in areas burned in Canada, and I would expect the same worldwide,” said Mike Flannigan, a veteran Canadian Forest Service researcher.

Nadezda M. Tchebakova, a climatologist at Russia’s Sukachev Institute of Forestry, said southern Siberia’s average winter temperatures in the 1980-2000 period were 2 to 4 degrees Celsius (3.6 to 7.2 degrees Fahrenheit) warmer than the pre-1960 norm.

“Snowmelt starts much earlier in the spring,” she said by telephone from the Siberian city of Krasnoyarsk. “Precipitation is decreasing. This combination of elevated temperatures and decreased precipitation should provide conditions for greater fire occurrence.”

The Sukachev institute’s satellite data show that more than 29 million acres – an area the size of Pennsylvania – have burned in Russia already this year. Orbiting cameras see a red-and-green checkerboard in Siberia, of “hotspots” among endless evergreens.

The Intergovernmental Panel on Climate Change, an authoritative U.N.-sponsored network of scientists, has long predicted that summer drying and droughts would worsen forest fires, which in many regions are primarily set by humans.

Global temperatures rose an average 1 degree Fahrenheit in the 20th century, and warming will continue as long as manmade “greenhouse gases,” mostly carbon dioxide from fossil-fuel burning, accumulate in the atmosphere, the panel says.

“The change is much more rapid than initially forecast 10 or 15 years ago,” Brian Stocks, a retired Canadian Forest Service scientist, said of the fires. “It seems people are finally beginning to take a look at it.”

The Scripps study, in the journal Science, was unique in collating detailed data from 34 years of U.S. western wildfires with temperature, snowmelt and streamflow records.

Wildfire frequency varies widely from year to year, but the California researchers found a clear trend: The average number of large fires almost quadrupled between the first and second halves of that period.

Such detailed data don’t exist on a global scale. Doing a similar study in Russia would be difficult because Soviet-era records are unreliable. And specialists caution that wildfires remain complex phenomena. In many regions, slash-and-burn farmers, arsonists and others start most fires, and fire professionals say modifying human behavior is key.

But although humans are the prime cause, “coupled with climate change, things are becoming worse,” said Johann Goldammer, director of the Global Fire Monitoring Center at Germany’s Freiburg University.

Goldammer pointed out that boreal forests may be crucially linked to the fate of the global environment because the forests and their peat soils hold about one-third of Earth’s stored carbon.

Forest and peat fires release carbon dioxide into the atmosphere, adding to climate warming, which in turn will intensify forest fires, further worsening warming in a planetary feedback loop.