Abstract
Historical wildfire events in California have shown a tendency to occur every five to seven years with a rapidly increasing tendency in recent decades. This oscillation is evident in multiple historical climate records, some more than a century long, and appears to be continuing. Analysis shows that this 5–7 year oscillation is linked to a sequence of anomalous large-scale climate patterns with an eastward propagation in both the ocean and atmosphere. While warmer temperature emerges from the northern central Pacific to the west coast of California, La Niña pattern develops simultaneously, implying that the lifecycle of the El Niño-Southern Oscillation that takes multiple years to form could be a trigger. The evolving patterns of the Pacific-to-North America atmospheric teleconnection suggest the role of tropical and subtropical forcing embedded in this lifecycle. These results highlight the semi-cyclical hydrological behavior as a climate driver for wildfire variability in California.
Highlights
According to the California Department of Forestry and Fire Protection (CAL FIRE), most of the top 20 fires in California occurred since the year 2000 (bars in figure 1(a))
We found consistent results from the live fuel moisture (LFM) (r = 0.67 with Vegetation Health Index (VHI) and −0.33 with burned area, since year 1987), which was manually collected from hundreds of sites in California to measure the water content in vegetation
A similar oscillating pattern appears in three drought indices (figure 1(c)): Keetch-Byram Drought Index (KBDI), self-calibrating Palmer Drought Severity Index (scPDSI) and Palmer Modified Drought Index (PMDI)
Summary
Historical wildfire events in California have shown a tendency to occur every five to seven years with a rapidly increasing tendency in recent decades. This oscillation is evident in multiple historical climate records, some more than a century long, and appears to be continuing. America atmospheric teleconnection suggest the role of tropical and subtropical forcing embedded in this lifecycle. These results highlight the semi-cyclical hydrological behavior as a climate driver for wildfire variability in California
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