2020
DOI: 10.1029/2020gl090707
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High Temporal Resolution Satellite Observations of Fire Radiative Power Reveal Link Between Fire Behavior and Aerosol and Gas Emissions

Abstract: Wildfire smoke influences on air quality and atmospheric chemistry have been underscored by the increasing fire prevalence in recent years, and yet, the connection between fire, smoke emissions, and the subsequent transformation of this smoke in the atmosphere remains poorly constrained. Toward improving these linkages, we present a new method for coupling high time-resolution satellite observations of fire radiative power with in situ observations of smoke aerosols and trace gases. We apply this technique to … Show more

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Cited by 36 publications
(36 citation statements)
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“…6d and f is caused by a stitching error between the G1 and G2 detectors that results in a double peak size distribution, and we have intentionally included these data to highlight this effect. Zimmerman et al (2015) also made measurements of laboratory-generated fullerene soot and nigrosine dye particles of electrical mobility diameters from 100-600 nm and observed a smoothly varying response curve without a discontinuity for both instruments. Although not as prominent as for the UHSAS, the slight inflection points in the LAS fullerene soot data near 200 and 480 nm in Fig.…”
Section: Resultsmentioning
confidence: 99%
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“…6d and f is caused by a stitching error between the G1 and G2 detectors that results in a double peak size distribution, and we have intentionally included these data to highlight this effect. Zimmerman et al (2015) also made measurements of laboratory-generated fullerene soot and nigrosine dye particles of electrical mobility diameters from 100-600 nm and observed a smoothly varying response curve without a discontinuity for both instruments. Although not as prominent as for the UHSAS, the slight inflection points in the LAS fullerene soot data near 200 and 480 nm in Fig.…”
Section: Resultsmentioning
confidence: 99%
“…Recent work during the Atmospheric Tomography Mission (ATom) and Observations of Aerosols Above Clouds and their Interactions (OR-ACLES) field campaigns suggests that the undersizing of the absorbing aerosol particles by the UHSAS may be due to particle vaporization by the high instrument laser power similar to that observed in the single-particle soot photometer, SP2 (Kupc et al, 2018;Howell et al, 2020). However, that explanation would not explain the similar undersizing reported by Zimmerman et al (2015) for the LAS with much lower laser power.…”
Section: Introductionmentioning
confidence: 96%
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“…Satellite aerosol products can also be used to monitor emissions from forest fires (see e.g. Wiggins et al, 2020). Satellite retrieval algorithms provide global estimates of the total aerosol optical depth (AOD), consisting of all aerosol types (natural background aerosols, industrial, sea spray, dust, smoke).…”
Section: Surveillance From Airplanes and Satellites Is Needed To Detect Fires Over Sparsely Populated Areasmentioning
confidence: 99%
“…While spacing of plume transects during FIREX-AQ were intended to produce 355 pseudo-Lagrangian data, in fact the aircraft frequently traveled downwind at a rate faster than the plume advection (ratio of smoke age to elapsed time during all of FIREX-AQ was 0.8-6.4 as reported in Supplementary Fig. S3 of Wiggins et al (2020)). For the August 7th flight, this ratio was about 3.…”
Section: Example Polarimetry Measurements Of Smokementioning
confidence: 99%