Widespread Biomass Burning Smoke Throughout the Remote Troposphere

Biomass burning emits ~34–41 Tg yr−1 of smoke aerosol to the atmosphere. Biomass burning aerosol directly influences the Earth’s climate by attenuation of solar and terrestrial radiation; however, its abundance and distribution on a global scale are poorly constrained, particularly after plumes dilu...

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Veröffentlicht in:	Nature geoscience 2020-06, Vol.13 (6), p.422-427
Hauptverfasser:	Froyd, K D, Bian, H, Kupc, A, Williamson, C, Brock, C A, Ray, E, Hornbrook, R S, Hills, A J, Apel, E C, Chin, M, Colarco, P R, Murphy, D M
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Schlagworte:	704/106/35 704/106/35/823 704/106/35/824 704/106/694 Aerosol particles Aerosols Airborne sensing Attenuation Biomass Biomass burning Burning Cloud precipitation Dilution Earth and Environmental Science Earth Sciences Earth System Sciences Geochemistry Geology Geophysics/Geodesy Geosciences (General) Global aerosols Ocean basins Oceans Plumes Precipitation Radiation Removal Smoke Terrestrial radiation Troposphere
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creator	Froyd, K D Bian, H Kupc, A Williamson, C Brock, C A Ray, E Hornbrook, R S Hills, A J Apel, E C Chin, M Colarco, P R Murphy, D M
description	Biomass burning emits ~34–41 Tg yr−1 of smoke aerosol to the atmosphere. Biomass burning aerosol directly influences the Earth’s climate by attenuation of solar and terrestrial radiation; however, its abundance and distribution on a global scale are poorly constrained, particularly after plumes dilute into the background remote troposphere and are subject to removal by clouds and precipitation. Here we report global-scale, airborne measurements of biomass burning aerosol in the remote tropo-sphere. Measurements were taken during four series of seasonal flights over the Pacific and Atlantic Ocean basins, each with near pole-to-pole latitude coverage. We find that biomass burning particles in the remote troposphere are dilute but ubiquitous, accounting for one-quarter of the accumulation-mode aerosol number and one-fifth of the aerosol mass. Comparing our obser-vations with a high-resolution global aerosol model, we find that the model overestimates biomass burning aerosol mass in the remote troposphere with a mean bias of >400%, largely due to insufficient wet removal by in-cloud precipitation. After updat-ing the model’s aerosol removal scheme we find that, on a global scale, dilute smoke contributes as much as denser plumes to biomass burning’s scattering and absorption effects on the Earth’s radiation field.
doi_str_mv	10.1038/s41561-020-0586-1
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Comparing our obser-vations with a high-resolution global aerosol model, we find that the model overestimates biomass burning aerosol mass in the remote troposphere with a mean bias of >400%, largely due to insufficient wet removal by in-cloud precipitation. 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Comparing our obser-vations with a high-resolution global aerosol model, we find that the model overestimates biomass burning aerosol mass in the remote troposphere with a mean bias of >400%, largely due to insufficient wet removal by in-cloud precipitation. 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Geosci</stitle><date>2020-06-01</date><risdate>2020</risdate><volume>13</volume><issue>6</issue><spage>422</spage><epage>427</epage><pages>422-427</pages><issn>1752-0894</issn><eissn>1752-0908</eissn><abstract>Biomass burning emits ~34–41 Tg yr−1 of smoke aerosol to the atmosphere. Biomass burning aerosol directly influences the Earth’s climate by attenuation of solar and terrestrial radiation; however, its abundance and distribution on a global scale are poorly constrained, particularly after plumes dilute into the background remote troposphere and are subject to removal by clouds and precipitation. Here we report global-scale, airborne measurements of biomass burning aerosol in the remote tropo-sphere. Measurements were taken during four series of seasonal flights over the Pacific and Atlantic Ocean basins, each with near pole-to-pole latitude coverage. We find that biomass burning particles in the remote troposphere are dilute but ubiquitous, accounting for one-quarter of the accumulation-mode aerosol number and one-fifth of the aerosol mass. Comparing our obser-vations with a high-resolution global aerosol model, we find that the model overestimates biomass burning aerosol mass in the remote troposphere with a mean bias of >400%, largely due to insufficient wet removal by in-cloud precipitation. 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subjects	704/106/35 704/106/35/823 704/106/35/824 704/106/694 Aerosol particles Aerosols Airborne sensing Attenuation Biomass Biomass burning Burning Cloud precipitation Dilution Earth and Environmental Science Earth Sciences Earth System Sciences Geochemistry Geology Geophysics/Geodesy Geosciences (General) Global aerosols Ocean basins Oceans Plumes Precipitation Radiation Removal Smoke Terrestrial radiation Troposphere
title	Widespread Biomass Burning Smoke Throughout the Remote Troposphere
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