Wildfires in 2025 were the costliest on record, even though the global area burned was 16% below the long-term average, a new review says.
The review found that 335 million hectares burned worldwide in 2025, while fire-related carbon emissions fell to 11 billion tonnes of CO2.
Researchers said the figures point to a global shift, with fewer savannah fires but more destructive wildfires in temperate and high-latitude regions.
Fires in Canada, the United States, Europe and South Korea caused more than 300,000 evacuations and more than 90 deaths, according to the review.
Scientists said climate-driven drought, heatwaves and growing development at the wildland-urban boundary are increasing the risks from extreme fires.
Wildfires in 2025 were the costliest on record, even though the total area burned globally was among the lowest recorded since 2002, according to a new review of global wildfire activity.
Insured wildfire losses accounted for 38 per cent of all insured natural hazard losses globally in 2025, making the year one of the most destructive for fire-related disasters, the researchers said.
An international team of scientists led by researchers at the University of East Anglia summarised the wildfire events of 2025 in a review article published in the journal Nature Reviews Earth & Environment.
The assessment found that 335 million hectares burned worldwide in 2025, 16 per cent below the long-term average. Total fire-related carbon emissions fell to 11 billion tonnes of carbon dioxide (CO2), the third-lowest level since 2002, according to the review.
But the researchers said the figures masked an important global shift: savannah fires declined, while extreme and destructive wildfires increasingly emerged in temperate and high-latitude regions.
Population growth along the wildland-urban boundary also increased exposure, while firefighting resources came under pressure as multiple regions faced simultaneous emergencies, the authors said.
Devastating wildfires in Canada, the United States, Europe and South Korea led to more than 300,000 evacuations and more than 90 deaths, according to the review.
Although global fire emissions declined, Canada’s boreal forests recorded extreme fire activity for the third consecutive year, the researchers said.
Between 2023 and 2025, Canadian wildfires released more CO2 than during the entire preceding 15-year period, driven by persistent burning in carbon-rich forest ecosystems, according to a statement from the University of East Anglia. In 2025, unusually high emissions were centred on Saskatchewan, Manitoba and Ontario, the statement said.
The researchers said these ecosystems were historically known for infrequent fires but are now recording unprecedented fire activity. That has raised concerns about ecosystem degradation, weak forest recovery and long-term carbon loss, the scientists said.
“Deadly human-caused wildfires in California, Europe, and South Korea in the same year as the extensive consumption of carbon stocks in Canada from lightning-caused fires highlights how rapidly climate change is producing conditions for extreme wildfires to thrive across a range of biomes and seasons,” said Crystal Kolden of University of California, Merced.
Kolden warned that multiple devastating fires occurring at the same time could make it harder for countries to share firefighting resources and put more civilians at risk. “Unfortunately, future fire projections show these types of outbreaks will only increase,” she said.
In January 2025, the Palisades and Eaton fires became the most destructive wildfire event in US history, the scientists said. Fuelled by critically dry vegetation and extreme winds, the fires killed 31 people, destroyed nearly 12,000 homes and forced more than 150,000 evacuations, according to the review. They also produced hazardous air pollution affecting 10 million residents, the scientists said.
The Los Angeles fires alone were the fifth-costliest natural disaster in history in terms of insured losses, causing $40 billion in insured losses and $140 billion in total losses, the University of East Anglia said.
The researchers said the 2025 fire season showed how fuel-rich forests can burn with unprecedented intensity when climate-driven drought and heatwaves amplify fire weather.
Severe drought and repeated heat extremes drove major wildfire outbreaks across the Mediterranean, causing 28 confirmed deaths and more than 120,000 evacuations, the analysis said.
Six European nations made simultaneous emergency resource requests, the authors noted. Spain recorded its largest burned area since 2002, with wildfires burning 350,000 hectares, according to the review. In Portugal, thousands of firefighters were stretched battling large, fast-moving fires, including the largest wildfire in the country’s history, the authors said.
Prolonged heatwaves enabled destructive fires across Greece, Türkiye and Cyprus, displacing tens of thousands of people, the review said. France experienced its largest fire since 1949, while the UK recorded its highest burned area on record, including its first documented “megafire” in Scotland, which exceeded 10,000 hectares, the university statement said.
“Studies clearly show that the hot-dry-windy weather conditions which drove devastating wildfires across Southern Europe have been made much more likely due to human-caused climate change,” said Theodore Keeping of World Weather Attribution at Imperial College London.
“Whilst identifying trends in wildfires on the continent are complicated by shifts in land-use, it’s clear that fast-spreading, intense wildfire events are becoming more likely as weather extremes increase,” he added.
South Korea experienced its deadliest and largest wildfire outbreak, with 32 deaths, more than 37,000 displaced residents and more than 100,000 hectares burned, the authors said. Extreme winds and unusually high temperatures helped fires spread rapidly through mountainous wildland-urban boundary areas, causing significant loss of life and infrastructure damage, the review found.
The 2025 fire season shows that a “quiet” fire year globally can still be devastating, said Matthew Jones, of the Tyndall Centre for Climate Change Research at the University of East Anglia.
“We are seeing a growing disconnect between total area burned and real-world impacts, with risk increasingly determined by fire location, intensity and exposure,” he said. “The wildfires of 2025 demonstrate that without decisive action, societies will continue to face escalating human, economic and environmental risks in an era of more extreme fires.”
The authors said their findings reinforce the need for rapid reductions in fossil fuel emissions to limit further warming. They also called for stronger adaptation measures, including proactive vegetation management.