January 24, 2025
3 min read
Rain Is Coming to Burning Los Angeles and Will Bring Its Own Risks
The Los Angeles area is expecting rain this weekend—potentially offering a respite from fires that have blazed throughout the month but increasing the risk of debris slides
Trees burned by the Palisades Fire are seen from Will Rogers State Park, with the City of Los Angeles in the background on January 15, 2025.
The Los Angeles area has been at the mercy of fire and wind this month, and this weekend a third element will join the mix: water.
Rain is forecast to begin as soon as Saturday afternoon and to continue as late as Monday evening, says meteorologist Kristan Lund of the National Weather Service’s Los Angeles office. The area desperately needs the precipitation, but experts are warily monitoring the situation because rain poses its own risks in recently burned areas—most notably the potential occurrence of mudslides and similar hazards.
“Rain is good because we’ve been so dry,” Lund says. “However, if we get heavier rain rates or we get the thunderstorms, it’s actually a lot more dangerous because you can get debris flows.”
On supporting science journalism
If 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.
A burned hillside in the aftermath of the Palisades Fire in the Mandeville Canyon area of Los Angeles, California, on January 12, 2025.
Kyle Grillot/Bloomberg via Getty Images
Fires do a couple of different things to the landscape that can increase the risk of burned material, soil and detritus hurtling out of control.
When fires burn hot or long enough, they leave an invisible layer of waxy material just under the surface of the ground. This develops from decomposing leaves and other organic material, which contain naturally hydrophobic or water-repellent compounds. Fire can vaporize this litter, and the resulting gas seeps into the upper soil—where it quickly cools and condenses, forming the slippery layer.
When rain falls on ground that has been affected by this phenomenon, it can’t sink beyond the hydrophobic layer—so the water flows away, often hauling debris with it. “All of the trees, branches, everything that’s been burned—unfortunately, if it rains, that stuff just floats,” Lund says. “It’s really concerning.”
Even a fire that isn’t severe enough to create a hydrophobic layer can still cause to debris flows, says Danielle Touma, a climate scientist at the University of Texas at Austin. Under normal conditions, trees and other plants usually trap some rain above the surface, slowing the water’s downward journey. But on freshly burned land there’s much less greenery to interfere; all the rain immediately hits the ground.
And whereas healthy vegetation holds soil together with its roots, fires can easily burn off the fine roots that do most of that work. “So then you have all this loose soil that can be transported by water as well,” Touma says.
This month the three largest Los Angeles–area fires have created nearly 50,000 acres of fresh burn scar, Lund notes, and some of that scar is in mountainous terrain that facilitates mudslides. Current forecasts suggest the rain will mostly fall below the rate of a quarter-inch per hour—below the intensity that tends to increase the risk of debris flows, Lund says. But this weekend the region does face a 10 to 20 percent chance of thunderstorms, which can cause short bursts of rain that may be heavy enough to trigger flows.
Fortunately, the rain should also help firefighters tame the blazes that remain active. The largest, the Palisades Fire, is currently 77 percent contained. The second largest, the Eaton Fire, is 95 percent contained. The Hughes Fire is third largest and only 56 percent contained. A fire can be fully contained but still burning. The containment percentage refers to the amount of the perimeter that has barriers that firefighters expect will prevent further spread.
This weekend’s rain may offer a respite, but it won’t end the region’s risk of blazes. “Unfortunately, we pretty much need a widespread two to three inches to really end what we call high fire season,” Lund says. “It will help, but it won’t pull us out of high fire season.”
Even once the fires stop burning, the risk of debris flows will remain—and will linger far beyond the coming weeks. Debris flows are most worrying within the first two years of a fire, Lund says, but depending on conditions, they can occur even longer after a burn scar forms. Recovering from a fire includes surveying the land to see where the debris flow risk is highest and what can be done to protect people in such areas, Touma says. “There is work to be done even if the storm passes and nothing happens. We’re still not in the clear.”
In general, Touma’s work indicates that this scenario—recent fire conditions followed by heavy rains—will continue to become increasingly common as climate change unfolds and the warmer atmosphere is able to hold and deliver larger amounts of water. “We should be expecting more of these postfire debris flows in the future, just based on meteorological conditions,” Touma says.
