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Global Wildfire Plume‐Rise Data Set and Parameterizations for Climate Model Applications

Ziming Ke, Yuhang Wang, Yufei Zou, Yongjia Song, Yongqiang Liu

2021Journal of Geophysical Research Atmospheres24 citationsDOI

Abstract

Abstract The fire plume height (smoke injection height) is an important parameter for calculating the transport and lifetime of smoke particles, which can significantly affect regional and global air quality and atmospheric radiation budget. To develop an observation‐based global fire plume‐rise data set, a modified one‐dimensional plume‐rise model was used with observation‐based fire size and Maximum Fire Radiative Power (MFRP) data, which are derived from satellite fire hotspot measurements. The resulting data set captured well the observed plume height distribution derived from the Multiangle Imaging SpectroRadiometer (MISR) measurements. The fraction of fire plumes penetrating above the boundary layer is relatively low at 20% at the time of MISR observation (10:30 am LT) but increases to an average of ∼55% in the late afternoon, implying that the MISR observation data sampled in late morning underestimate the average daytime fire plume heights and plume mixing into the free troposphere. Therefore, adjustments are required through dynamic modeling or parameterization of fire plume height as a function of meteorological and fire conditions when the MISR data set is applied in climate model simulations. We conducted sensitivity simulations using the Community Atmospheric Models version 5 (CAM5). Model results show that the incorporation of fire plume rise in the model tends to significantly increase fire aerosol impacted regions. We applied the offline plume‐rise data to develop an online fire plume height parameterization, allowing for simulating the feedbacks of climate/weather on fire plume rise in climate models.

Topics & Concepts

PlumeEnvironmental scienceMeteorologyAtmospheric sciencesSmokeClimate modelClimatologyClimate changeGeologyGeographyOceanographyFire effects on ecosystemsAtmospheric chemistry and aerosolsAtmospheric aerosols and clouds
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