Using SEVIRI fire observations to drive smoke plumes in the CMAQ air quality model: a case study over Antalya in 2008

Using SEVIRI fire observations to drive smoke plumes in the CMAQ air quality model: a case study over Antalya in 2008

Among the atmospheric emission sources, wildfires are episodic events characterized by large spatial and temporal variability. Therefore, accurate information on gaseous and aerosol emissions from fires for specific regions and seasons is critical for air quality forecasts. The Spinning Enhanced Vis...

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Main Authors: G. Baldassarre, L. Pozzoli, C. C. Schmidt, A. Unal, T. Kindap, W. P. Menzel, S. Whitburn, P.-F. Coheur, A. Kavgaci, J. W. Kaiser
Format: Article
Language:English
Published: Copernicus Publications 2015-07-01
Series:Atmospheric Chemistry and Physics
Online Access:http://www.atmos-chem-phys.net/15/8539/2015/acp-15-8539-2015.pdf
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spelling doaj-c83f4a2b2d034780ad5db61ed2c3ca6b2020-11-24T21:05:33ZengCopernicus PublicationsAtmospheric Chemistry and Physics1680-73161680-73242015-07-0115148539855810.5194/acp-15-8539-2015Using SEVIRI fire observations to drive smoke plumes in the CMAQ air quality model: a case study over Antalya in 2008G. Baldassarre0L. Pozzoli1C. C. Schmidt2A. Unal3T. Kindap4W. P. Menzel5S. Whitburn6P.-F. Coheur7A. Kavgaci8J. W. Kaiser9Eurasia Institute of Earth Sciences, Istanbul Technical University, Istanbul, TurkeyEurasia Institute of Earth Sciences, Istanbul Technical University, Istanbul, TurkeyCooperative Institute for Meteorological Satellite Studies, University of Wisconsin, Madison, WI, USAEurasia Institute of Earth Sciences, Istanbul Technical University, Istanbul, TurkeyEurasia Institute of Earth Sciences, Istanbul Technical University, Istanbul, TurkeyCooperative Institute for Meteorological Satellite Studies, University of Wisconsin, Madison, WI, USASpectroscopie de l'Atmosphère, Service de Chimie Quantique et de Photophysique, Université Libre de Bruxelles (U.L.B), Brussels, BelgiumSpectroscopie de l'Atmosphère, Service de Chimie Quantique et de Photophysique, Université Libre de Bruxelles (U.L.B), Brussels, BelgiumSouthwest Anatolia Forest Research Institute, Antalya, TurkeyKing's College, London, UKAmong the atmospheric emission sources, wildfires are episodic events characterized by large spatial and temporal variability. Therefore, accurate information on gaseous and aerosol emissions from fires for specific regions and seasons is critical for air quality forecasts. The Spinning Enhanced Visible and Infrared Imager (SEVIRI) in geostationary orbit provides fire observations over Africa and the Mediterranean with a temporal resolution of 15 min. It thus resolves the complete fire life cycle and captures the fires' peak intensities, which is not possible in Moderate Resolution Imaging Spectroradiometer (MODIS) fire emission inventories like the Global Fire Assimilation System (GFAS). We evaluate two different operational fire radiative power (FRP) products derived from SEVIRI, by studying a large forest fire in Antalya, Turkey, in July–August 2008. The EUMETSAT Land Surface Analysis Satellite Applications Facility (LSA SAF) has higher FRP values during the fire episode than the Wildfire Automated Biomass Burning Algorithm (WF_ABBA). It is also in better agreement with the co-located, gridded MODIS FRP. Both products miss small fires that frequently occur in the region and are detected by MODIS. Emissions are derived from the FRP products. They are used along-side GFAS emissions in smoke plume simulations with the Weather Research and Forecasting (WRF) model and the Community Multiscale Air Quality (CMAQ) model. In comparisons with MODIS aerosol optical thickness (AOT) and Infrared Atmospheric Sounding Interferometer (IASI), CO and NH<sub>3</sub> observations show that including the diurnal variability of fire emissions improves the spatial distribution and peak concentrations of the simulated smoke plumes associated with this large fire. They also show a large discrepancy between the currently available operational FRP products, with the LSA SAF being the most appropriate.http://www.atmos-chem-phys.net/15/8539/2015/acp-15-8539-2015.pdf
collection DOAJ
language English
format Article
sources DOAJ
author G. Baldassarre
L. Pozzoli
C. C. Schmidt
A. Unal
T. Kindap
W. P. Menzel
S. Whitburn
P.-F. Coheur
A. Kavgaci
J. W. Kaiser
spellingShingle G. Baldassarre
L. Pozzoli
C. C. Schmidt
A. Unal
T. Kindap
W. P. Menzel
S. Whitburn
P.-F. Coheur
A. Kavgaci
J. W. Kaiser
Using SEVIRI fire observations to drive smoke plumes in the CMAQ air quality model: a case study over Antalya in 2008
Atmospheric Chemistry and Physics
author_facet G. Baldassarre
L. Pozzoli
C. C. Schmidt
A. Unal
T. Kindap
W. P. Menzel
S. Whitburn
P.-F. Coheur
A. Kavgaci
J. W. Kaiser
author_sort G. Baldassarre
title Using SEVIRI fire observations to drive smoke plumes in the CMAQ air quality model: a case study over Antalya in 2008
title_short Using SEVIRI fire observations to drive smoke plumes in the CMAQ air quality model: a case study over Antalya in 2008
title_full Using SEVIRI fire observations to drive smoke plumes in the CMAQ air quality model: a case study over Antalya in 2008
title_fullStr Using SEVIRI fire observations to drive smoke plumes in the CMAQ air quality model: a case study over Antalya in 2008
title_full_unstemmed Using SEVIRI fire observations to drive smoke plumes in the CMAQ air quality model: a case study over Antalya in 2008
title_sort using seviri fire observations to drive smoke plumes in the cmaq air quality model: a case study over antalya in 2008
publisher Copernicus Publications
series Atmospheric Chemistry and Physics
issn 1680-7316
1680-7324
publishDate 2015-07-01
description Among the atmospheric emission sources, wildfires are episodic events characterized by large spatial and temporal variability. Therefore, accurate information on gaseous and aerosol emissions from fires for specific regions and seasons is critical for air quality forecasts. The Spinning Enhanced Visible and Infrared Imager (SEVIRI) in geostationary orbit provides fire observations over Africa and the Mediterranean with a temporal resolution of 15 min. It thus resolves the complete fire life cycle and captures the fires' peak intensities, which is not possible in Moderate Resolution Imaging Spectroradiometer (MODIS) fire emission inventories like the Global Fire Assimilation System (GFAS). We evaluate two different operational fire radiative power (FRP) products derived from SEVIRI, by studying a large forest fire in Antalya, Turkey, in July–August 2008. The EUMETSAT Land Surface Analysis Satellite Applications Facility (LSA SAF) has higher FRP values during the fire episode than the Wildfire Automated Biomass Burning Algorithm (WF_ABBA). It is also in better agreement with the co-located, gridded MODIS FRP. Both products miss small fires that frequently occur in the region and are detected by MODIS. Emissions are derived from the FRP products. They are used along-side GFAS emissions in smoke plume simulations with the Weather Research and Forecasting (WRF) model and the Community Multiscale Air Quality (CMAQ) model. In comparisons with MODIS aerosol optical thickness (AOT) and Infrared Atmospheric Sounding Interferometer (IASI), CO and NH<sub>3</sub> observations show that including the diurnal variability of fire emissions improves the spatial distribution and peak concentrations of the simulated smoke plumes associated with this large fire. They also show a large discrepancy between the currently available operational FRP products, with the LSA SAF being the most appropriate.
url http://www.atmos-chem-phys.net/15/8539/2015/acp-15-8539-2015.pdf
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