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Alaska’s biggest tundra fire sparks climate warning

A charred region of the Arctic is pumping large amounts of CO2 into the atmosphere, finds an ecological assessment

Lightning sets the tundra of the North Slope of Alaska ablaze
Lightning sets the tundra of the North Slope of Alaska ablaze
(Image: Bureau of Land Management)
Alaskan tundra fires rage
Alaskan tundra fires rage
(Image: MODIS Rapid Response Team / Goddard Space Flight Center / NASA)

The fire that raged north of Alaska鈥檚 Brooks mountain range in 2007 left a 1000-square-kilometre scorched patch of earth 鈥 an area larger than the sum of all known fires on Alaska鈥檚 North Slope since 1950.

Now scientists studying the ecological impact of the fire report that the blaze dumped 1.3 million tonnes of carbon dioxide into the atmosphere 鈥 about the amount that puts out in a year. What鈥檚 more, at next week鈥檚 meeting of the , New Mexico, two teams will warn that as climate change takes hold tundra fires across the Arctic will become more frequent.

Tundra fires only take off once certain thresholds are reached, says of the Marine Biological Laboratory, Woods Hole, Massachusetts. 鈥淏ut projected changes in climate over the next century 鈥 increased aridity, thunderstorms, and warming in the Arctic 鈥 will increase the likelihood that these thresholds will be crossed and thus result in more larger and frequent fires.鈥

Scarred surface

Rocha鈥檚 team placed carbon dioxide and radiation sensors across the fire-scar and found that in the year after the fire, the most severely burned tundra emitted twice as much carbon as undamaged tundra normally stores away.

Pristine tundra takes up about 30 to 70 grams of carbon per square metre during the summer months, whereas the severely burned site lost about 40 to 120 grams per square metre. The team also found that the most severely burned terrain absorbed 71 per cent more solar radiation than normal, warming faster as a result and losing a layer of permafrost 5 to 10 centimetres deep.

鈥淭hat may not seem like a lot,鈥 says Rocha, 鈥渂ut over the entire fire scar you鈥檙e talking about 5 to 10 cm of water over a 1000 sq km area.鈥 Plus there鈥檚 the double whammy of positive feedback: as tundra burns and emits carbon, it melts the permafrost 鈥 and that releases more carbon into the atmosphere. 鈥淎long with the melting ice in the permafrost, you鈥檙e also exposing more old carbon that was stored in that freezer [as organic material] and is being allowed to decompose and reintroduce itself to the atmosphere.鈥

Another team, led by of the University of Florida, carbon-dated soil at the most severely burned sites. They found that organic matter accumulated over 50 years had been lost.

Long-term impact

Wetland ecologist of the University of Vermont, Burlington, not at the ESA meeting, says that the fire blackened the surface and increased the amount of water in the soil. 鈥淏oth factors should promote soil warming, permafrost thaw, and possible thermokarst formation,鈥 he says.

are areas of collapsed terrain where structurally important permafrost has thawed 鈥 a process that can damage the foundations of homes, roads, and pipelines. Permafrost melt will also increase the amount of greenhouse gases such as methane entering the atmosphere.

There are great similarities between plants and soils across the Arctic, adds Bowden, and lessons learned in Alaska are relevant to similar terrains in Canada and Russia.

Topics: Climate change