A recent study highlights the impact of weather whiplash on wildfire risks, with a focus on Southern California's devastating fires in January. Co-authored by Christine Albano from DRI, the research explores how climate change contributes to extreme weather patterns that exacerbate wildfire conditions.
Published on February 7th in Global Change Biology, the study details how consecutive wet winters followed by warm temperatures led to significant plant growth. This was coupled with a delayed wet season and strong Santa Ana winds, creating dry conditions that fueled rapid fire spread.
Christine Albano noted, "We really wanted to help people understand this link between changes in the atmosphere and increasing risks for the kind of devastating wildfires we saw in Southern California." The report describes these shifts as "hydroclimate whiplash," where regions swing from intense rainfall to droughts and fires.
The phenomenon is not confined to California but is occurring globally due to an atmosphere acting like a sponge, absorbing and releasing moisture erratically. Researchers warn that if global warming reaches 3°C above pre-industrial levels, such events will double worldwide.
Daniel Swain from UCLA emphasized local interventions: "The interventions with the greatest potential to reduce risk of fire disasters in the short term can be implemented at the local scale: increasing fire resistance of structures, managing vegetation in/near communities, and preventing unwanted high-risk ignitions."
Albano and her colleagues are working with emergency managers in Tahoe and Truckee Meadows to incorporate extreme weather simulations into planning. She stated, “This research can help increase awareness of the growing dual risks of extreme drought and wildfire risk and intense precipitation.”
The full study is available through Global Change Biology for further information on their findings.