Emissions from burned structures in wildfires as significant yet unaccounted sources of US air pollution
Wenfu Tang, Christine Wiedinmyer, L. K. Emmons, Amara L. Holder, Johannes Uhl, Lise A. St. Denis, Maxwell Cook, Ronnie Abolafia‐Rosenzweig, Cenlin He, Kelley C. Barsanti, Stefan Leyk, John T. Abatzoglou, Jennifer K. Balch, H. M. Worden, P. F. Levelt
Abstract
Structure fires in the wildland–urban interface (WUI) are becoming more frequent and destructive, yet their emissions of air pollutants remain poorly quantified and are not included in national inventories. Here we present a conterminous-scale inventory of WUI-related structure fire emissions in the United States from 2000 to 2020. A small number of highly destructive events dominate structure fire emissions—the 20 most destructive fires account for 68% of total carbon monoxide emissions. Structure fire emissions are more spatially concentrated than vegetation fire emissions, and in several states emissions of specific hazardous air pollutants such as hydrochloric acid exceed those from all anthropogenic sources combined. We show that structure burning in wildfires is strongly influenced by fire-conducive weather, and destructive structure fires are more likely to occur in forested and urbanized landscapes. These results reveal structure fires as a major source of toxic air pollution, with important implications for air quality, public health, and fire management. Burned structures in wildfires release air pollutants not included in emissions inventories. Structure burning in wildland-urban interface fires emit hazardous compounds at levels exceeding anthropogenic sources in some US states.