Human-induced climate change promotes the conditions on which wildfires depend, increasing their likelihood.
This is according to a review of research on global climate change and wildfire risk published today.
Wildfires can't be prevented, and the risks are increasing because of climate change. This makes it urgent to consider ways of reducing the risks to people. Professor Iain Colin Prentice
In light of the Australian fires, scientists from Imperial College London, the University of East Anglia (UEA), the Met Office Hadley Centre, and the University of Exeter have conducted a Rapid Response Review of 57 peer-reviewed papers published since the Intergovernmental Panel on Climate Change (IPCC) Fifth Assessment Report in 2013.
All the studies show links between climate change and increased frequency or severity of ‘fire weather’ - periods with a high fire risk due to a combination of high temperatures, low humidity, low rainfall and often high winds.
Rising global temperatures, more frequent heatwaves and associated droughts in some regions increase the likelihood of wildfires by stimulating hot and dry conditions, promoting fire weather. Increasing incidences of fire weather can be used as an overall measure of the impact of climate change on the risk of fires occurring.
Observational data shows that fire weather seasons have lengthened across approximately 25 per cent of the Earth’s vegetated surface, resulting in about a 20 per cent increase in global mean length of the fire weather season.
Reducing the risks
Dr Matthew Jones, Senior Research Associate at UEA’s Tyndall Centre and lead author of the review, said: “Overall, the 57 papers reviewed clearly show human-induced warming has already led to a global increase in the frequency and severity of fire weather, increasing the risks of wildfire.
“This has been seen in many regions, including the western US and Canada, southern Europe, Scandinavia and Amazonia. Human-induced warming is also increasing fire risks in other regions, including Siberia and Australia.
“However, there is also evidence that humans have significant potential to control how this fire risk translates into fire activity, in particular through land management decisions and ignition sources.”
Professor Iain Colin Prentice, Chair of Biosphere and Climate Impacts and Director of the Leverhulme Centre for Wildfires, Environment and Society, Imperial College London, said: "Wildfires can't be prevented, and the risks are increasing because of climate change. This makes it urgent to consider ways of reducing the risks to people. Land planning should take the increasing risk in fire weather into account.”
Limiting global warming
The amount of area burned by wildfires globally has decreased in recent decades, largely due to clearing of fire-prone savannahs for agriculture and increased fire suppression. However, burned area has increased in closed-canopy forests, likely in response to the dual pressures of climate change and forest degradation.
Co-author Professor Richard Betts, Head of Climate Impacts Research at the Met Office Hadley Centre and University of Exeter, said: “Fire weather does occur naturally but is becoming more severe and widespread due to climate change. Limiting global warming to well below 2°C would help avoid further increases in the risk of extreme fire weather.”
The literature review was carried out using the new ScienceBrief.org online platform, set up by UEA and the Tyndall Centre for Climate Change Research. ScienceBrief is written by scientists and aims to share scientific insights with the world and keep up with science, by making sense of peer-reviewed publications in a rapid and transparent way.
‘Climate Change Increases the Risk of Wildfires’ by Matthew W. Jones, Adam Smith, Richard Betts, Josep G. Canadell, I. Colin Prentice, and Corinne Le Quéré is published in ScienceBrief.org.
Based on a press release by the Science Media Centre.
Article text (excluding photos or graphics) © Imperial College London.
Photos and graphics subject to third party copyright used with permission or © Imperial College London.
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