Litcius/Paper detail

Trends and spatial shifts in lightning fires and smoke concentrations in response to 21st century climate over the national forests and parks of the western United States

Yang Li, Loretta J. Mickley, Pengfei Liu, Jed O. Kaplan

2020Atmospheric chemistry and physics56 citationsDOIOpen Access PDF

Abstract

Abstract. Almost USD 3 billion per year is appropriated for wildfire management on public land in the United States. Recent studies have suggested that ongoing climate change will lead to warmer and drier conditions in the western United States, with a consequent increase in the number and size of wildfires, yet large uncertainty exists in these projections. To assess the influence of future changes in climate and land cover on lightning-caused wildfires in the national forests and parks of the western United States and the consequences of these fires on air quality, we link a dynamic vegetation model that includes a process-based representation of fire (LPJ-LMfire) to a global chemical transport model (GEOS-Chem). Under a scenario of moderate future climate change (RCP4.5), increasing lightning-caused wildfire enhances the burden of smoke fine particulate matter (PM), with mass concentration increases of ∼53 % by the late 21st century during the fire season in the national forests and parks of the western United States. In a high-emissions scenario (RCP8.5), smoke PM concentrations double by 2100. RCP8.5 also shows enhanced lightning-caused fire activity, especially over forests in the northern states.

Topics & Concepts

Environmental scienceLightning (connector)Climate changeVegetation (pathology)Land coverSmokeChemical transport modelAir quality indexRepresentative Concentration PathwaysFire regimeGeographyClimatologyLand usePhysical geographyClimate modelMeteorologyEcologyEcosystemPathologyGeologyMedicineBiologyPhysicsPower (physics)Quantum mechanicsFire effects on ecosystemsAtmospheric chemistry and aerosolsAtmospheric and Environmental Gas Dynamics