Radiative Forcings of Wild Fire Aerosols and Impacts on Regional Climate Xiaohong Liu 1,*, Yiquan Jiang 1, Kai Zhang 2, Yun Qian 2, and Yuhang Wang 3 1.

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Presentation transcript:

Radiative Forcings of Wild Fire Aerosols and Impacts on Regional Climate Xiaohong Liu 1,*, Yiquan Jiang 1, Kai Zhang 2, Yun Qian 2, and Yuhang Wang 3 1 Department of Atmospheric Science, University of Wyoming, Laramie, WY Pacific Northwest National Laboratory, Richland, WA Georgia Institute of Technology, Atlanta, GA CESM1.2 4-mode Modal Aerosol Module (MAM4) CLM4.0 with Snow, Ice and Aerosol Radiation (SNICAR) model Horizontal resolution at 1° × 1° Emissions: CESM-CAM5 Model GFED 3.1 daily fire emissions (BC, POM, SO2), vertical profile are getting from CAM5 fire emissions. Surface anthropogenic aerosol emissions are from IPCC RCP4.5 scenario. Fire Aerosol and Aerosol Radiative Forcings  Fire BC-induced snow forcing is most significant during the springtime in Northeast Asia and Northern United States.  Fire OC enhances shortwave cloud forcing, increases low-level clouds, and reduces surface temperatures.  Surface warming by K is found over these areas in spring due to the increased absorption of solar radiation at surface, while a cooling by about 1.5 K is observed in Canada, which generates a PNA (Pacific/North American) like teleconnection patterns. Model Experiments Running time: 2003 to 2011 with observed SST Three experiments: Goal of the Project: Wildfire is a key component of the climate system and plays an important role in regulating regional climate variability. The overarching goal of this project is to elucidate the role of wildfire in decadal climate variation and prediction. The research objectives are to: (1) improve the modeling capability of wildfires and their climate forcing; (2) quantify regional climate forcing by wildfires; (3) understand fire feedbacks to regional climate variability; (4) investigate fully interactive regional fire-climate variability feedbacks; and (5) predict decadal regional climate variability. Main Results: Wildfire produces different effects in summer versus spring : (1) fire aerosol indirect effect dominates in summer, increase cloud cover and shortwave cloud forcing, and reduce surface air temperature; (2) fire aerosol indirect effect is much weaker in spring. The fire BC-induced snow forcing is most significant during the springtime in Northeast Asia and Northern United States. Surface warming by K is found over these areas in spring due to the increased absorption of solar radiation at surface, while a cooling by about 1.5 K is observed in Canada. The fire BC-induced surface albedo effect generates a PNA (Pacific/North American) like teleconnection pattern during the spring with two anti-cyclones over the North Pacific and North Atlantic oceans. - Control run - Nofire run: remove fire BC, POM, SO2 emissions - Nofire_bc run: remove fire BC emission Diagnosing Fire Aerosol Radiative Forcings ( Ghan 2013) ΔF = Δ(F - F_noaer) (direct forcing) + Δ(F_noaer - F_noaer,clear) (indirect forcing) + ΔF_noaer,clear (albedo forcing) Δ = Control – Nofire (all fire effects) Δ = Control – Nofire_bc (fire BC effects) Fire Aerosol-Induced Changes in SWCF, Cloud Cover, Surface Ts, Precip Fire Aerosol-Induced Changes in SWCF, Circulation, Surface Ts, Precip Fire Aerosol and Aerosol Radiative Forcings Spring Summer  Fire OC produces strong indirect forcing (~10 W/m 2 ) in Northeast Asia, Russia and Canada.