Prehistoric fire area and emissions from California’s forests, woodlands, shrublands, and grasslands (Stephens et al., 2007)

Full Citation: Stephens, S.L. et al., Prehistoric fire area and emissions from California’s forests, woodlands, shrublands, and grasslands, Forest Ecol. Manage. (2007), doi:10.1016/j.foreco.2007.06.005

Abstract: In the majority of US political settings wildland fire is still discussed as a negative force. Lacking from current wildfire discussions are estimates of the spatial extent of fire and their resultant emissions before the influences of Euro-American settlement and this is the focus of this work. We summarize the literature on fire history (fire rotation and fire return intervals) and past Native American burning practices to estimate past fire occurrence by vegetation type. Once past fire intervals were established they were divided into the area of each corresponding vegetation type to arrive at estimates of area burned annually. Finally, the First Order Fire Effects Model was used to estimate emissions. Approximately 1.8 million ha burned annually in California prehistorically (pre 1800). Our estimate of prehistoric annual area burned in California is 88% of the total annual wildfire area in the entire US during a decade (1994–2004) characterized as ‘‘extreme’’ regarding wildfires. The idea that US wildfire area of approximately two million ha annually is extreme is certainly a 20th or 21st century perspective. Skies were likely smoky much of the summer and fall in California during the prehistoric period. Increasing the spatial extent of fire in California is an important management objective. The best methods to significantly increase the area burned is to increase the use of wildland fire use (WFU) and appropriate management response (AMR) suppression fire in remote areas. Political support for increased use of WFU and AMR needs to occur at local, state, and federal levels because increasing the spatial scale of fire will increase smoke and inevitability, a few WFU or AMR fires will escape their predefined boundaries. # 2007 Elsevier B.V. All rights reserved.

Keywords: Wildfire; Fire regime; Fire policy; Fire suppression; Fire rotation; Smoke; Air resources; Air quality; Particulates; Fire exclusion; Carbon

Previous
Previous

Past, Present, and Future Old Growth in Frequent-fire Conifer Forests of the Western United States (Abella et al., 2007)

Next
Next

Influences of High Severity Fire and Postfire Logging on Avian and Small Mammal Communities of the Siskiyou Mountains, Oregon, USA (Fontaine, 2007)