January 17, 20254 min readHeres How Climate Change Fueled the Los Angeles WildfiresMany factors, such as strong Santa Ana winds and urban planning decisions, played into the recent destructive wildfires in the Los Angeles area. But the evidence is clear that climate change contributedBy Andrea Thompson edited by Dean VisserSmoke shrouds the sun as it rises above the Altadena Town and Country Club which was destroyed by the Eaton fire in Altadena. Will Lester/MediaNews Group/Inland Valley Daily Bulletin via Getty ImagesThe horrific wildfires that ripped through parts of the Los Angeles area last week were, like many disasters of this scale, the result of a perfect storm of circumstances. Unusually strong Santa Ana winds topped off decades of decisions about land management and urban planningsetting a stage for sparks (with a still unknown origin) that ignited some of the most destructive infernos in Californias admittedly fire-prone history.But contrary to the assertions of some politicians (notably President-elect Donald Trump and his nominee for Department of Energy chief, fracking company executive Chris Wright), the scientific evidence is clear that climate change helped fuel the ferocity of these blazes. Hotter, drier conditions and increasing weather whiplash made the local vegetation much more flammable.Is there a link between climate change and the broadly increasing risk/severity of wildfire in California? Yes; that much is clear at this point, wrote climate scientist Daniel Swain on his blog, Weather West.On supporting science journalismIf you're enjoying this article, consider supporting our award-winning journalism by subscribing. By purchasing a subscription you are helping to ensure the future of impactful stories about the discoveries and ideas shaping our world today.Unlike forest fires in other parts of the state, blazes in coastal southern California burn in grass and brush. This is an important distinction because year-to-year variations in the precipitation that falls during the winter wet season dont substantially change the abundance of plants in forests. But in areas like those hit by the latest Los Angeles fires, more winter rains mean a lot more grass and brush growth come spring.When the summer dry season begins, all of that grass and brush dries up. And as global and local temperatures rise with the accumulation of greenhouse gases in the atmosphere, the atmosphere itself becomes thirstierso it sucks up even more moisture from the ground and vegetation through evaporation. The drier the fuel, the more readily and fiercely it will burn when any spark arises.An analysis by University of California, Los Angeles, climate scientists found that vegetation in the area where Palisades and Eaton Fires ignited was 25 percent drier than it would have been in the absences of climate change. We believe that the fires would still have been extreme without the climate change components noted above, but would have been somewhat smaller and less intense, said the analysiss authors in a press release from U.C.L.A. A separate analysis by the ClimaMeter, a group of climate scientists working to provide rapid assessments of weather extremes using climate models, also found that climate change had amplified the dry conditionswith temperatures up to five degrees Celsius (nine degrees Fahrenheit) hotter and conditions up to 15 percent drier in the past few decades than in the period from 1950 to 1986.But climate change doesnt just make things worse by drying out the brush. It also contributes to what Swain and some of his colleagues call a whiplash between very wet and very dry conditions. Southern California is seeing more instances of very wet winters followed by hot, dry summers and autumns. And that is exactly what happened prior to the recent fires: the winters of 2022 2023 and 2023 2024 were unusually damp, causing more vegetation to spring up across the landscape. And then the summer and autumn of 2024 were extremely hot and dryin fact, this was the driest start to winter on record, Swain remarked last week during one of his one of his regular virtual climate and weather office hours, hosted on YouTube.In his blog post, Swain said the recent fires show that the worst climate for wildfire may in fact not be one that becomes steadily hotter and drier but instead one that increasingly lurches back and forth between episodic wet and dry extremes, yielding increasingly large swings between rapid fuel accumulation and subsequent drying (especially in grassland, shrubland and woodland environments).Another factor that adds to the risks is the fact that the dry season is stretching out, beginning earlier in the spring and lasting longer into autumn. And the longer it extends into fall, the more overlap there is with the Santa Ana wind season, which runs from October through January. Usually rain would have fallen before January, quenching the thirsty plants and tamping down the fire risk. But this year there has been negligible rain as late fall has turned into winter.The notorious Santa Ana winds are a substantial driver of fire risk in southern California. They can reach hurricane force (gusts clocked as high as 99 miles per hour last week), spreading fires so quickly that they become impossible to contain. Whipping winds carry embers out for a mile or more ahead of the fire front, igniting spot fires. The winds also make it unsafe for firefighters to fly water-dumping planes and helicopters over the fires.Although the factors that lead to these disasters are complex, it is clear that climate change is creating conditions that are ripe for wildfires. As Greta Cazzaniga, a climate scientist at the ClimaMeter and the Pierre-Simon Laplace Institute in France, said in a recent press statement, the Los Angeles wildfires have shown how multiple extremes, exacerbated by climate change, can interact together to trigger an unprecedented disaster.