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April 28, 2025 This article has been reviewed according to Science X's editorial process and policies . Editors have highlightedthe following attributes while ensuring the content's credibility: fact-checked peer-reviewed publication trusted source proofread by Susanne Hufe, Helmholtz Association of German Research Centres Climate change is increasing the risk of wildfires in many regions of the world. This is due partly to specific weather conditions—known as fire weather—that facilitate the spread of wildfires.
Researchers from the Helmholtz Center for Environmental Research (UFZ) and Australian colleagues have found that fire weather seasons are increasingly overlapping between eastern Australia and western North America. The research team examined the causes of this shift and its implications for cross-border cooperation between fire services in Canada, the US, and Australia. The research appears in Earth's Future .
The west coast of North America and the east coast of Australia have been repeatedly hit hard by wildfires. For example, the January 2025 wildfire disaster in Los Angeles destroyed over 10,000 buildings and claimed 29 lives, according to media reports. The east coast of Australia was hit by one of the country's most devastating bushfires between September 2019 and March 2020: More than 12 million hectares of forest and bushland burned.
Firefighters from Canada, the US, and Australia have supported each other during these disasters and many others. The international team of scientists set out to examine how the timing of fire weather seasons in the two regions is changing as a result of climate change. The researchers used the Canadian Fire Weather Index (FWI), a meteorological index used worldwide to estimate fire risk.
It takes into account rainfall, temperature, relative humidity, and wind speed. They used it to identify fire weather days—days with a high risk of wildfires. Based on observational data , the researchers found that the fire weather days—and thus the risk of wildfires—have been increasingly overlapping since 1979.
The greatest likelihood of overlap—around 75%—occurs between July and December. Overall, the number of simultaneous fire weather days in eastern Australia and western North America has been increasing by one day per year for the past 40 years. "This is because the fire season in eastern Australia is starting earlier in spring and overlapping with the end of the fire season on the west coast of North America," explains Dr.
Andreia Ribeiro, UFZ climate scientist and lead author, who contributed to the German-Australian research project. The team also analyzed how the seasonal overlap is likely to develop. They used four climate models , drawing on many simulations to account for uncertainty.
The trend is clear: "The number of overlapping fire weather days in western North America and eastern Australia will continue to increase," says Dr. Ribeiro. Depending on the climate model used and the level of future global warming, the increases could range from 4 to 29 days per year by mid-century.
The overlap depends partly on the variability of the El Niño Southern Oscillation, a system that controls the circulation of the ocean and atmosphere in the equatorial Pacific. Fire weather in eastern Australia is typically linked to El Niño conditions—unusually high sea surface temperatures. This often leads to droughts and heat waves, among other phenomena.
In contrast, fire weather in western North America is more often linked to La Niña conditions—the opposite situation. Discover the latest in science, tech, and space with over 100,000 subscribers who rely on Phys.org for daily insights.
Sign up for our free newsletter and get updates on breakthroughs, innovations, and research that matter— daily or weekly . "Despite these generally opposing patterns, we found that during strong fire weather overlap, El Niño conditions are especially pronounced in the Central Pacific," says Dr. Ribeiro.
However, the effects of El Niño are expected to be overshadowed by climate change in the medium term. "Climate change is causing global temperature rises and increasing drought in some regions while the El Niño effect is expected to remain largely unchanged," says Prof. Dr.
Jakob Zscheischler, UFZ climate scientist and co-author. This poses a challenge for cooperation among US, Canadian, and Australian fire services, which have long supported one another by sharing personnel and aircraft during wildfire emergencies. Until recently, the fire seasons occurred at distinctly different times of the year: on the west coast of North America between June and October, and in eastern Australia between October and March.
These gaps had provided enough time for teams to assist one another when needed. "But these increasingly overlapping fire weather seasons in the US and Australia are narrowing the window for international cooperation and making it harder to respond quickly to large-scale wildfires," says lead author Dr. Doug Richardson from the ARC Center of Excellence for Climate Extremes at the University of New South Wales (Australia).
International agreements on firefighting cooperation and national firefighting capacities therefore must be reviewed. Both Australia and the US will have to strengthen their domestic firefighting capacities in order to reduce reliance on international cooperation. More information: Doug Richardson et al, Increasing Fire Weather Season Overlap Between North America and Australia Challenges Firefighting Cooperation, Earth's Future (2025).
DOI: 10.1029/2024EF005030 Journal information: Earth's Future Provided by Helmholtz Association of German Research Centres.
