Evolution of aerosol optical thickness over Europe during the August 2003 heat wave as seen from CHIMERE model simulations and POLDER data

This study describes the atmospheric aerosol load encountered during the large-scale pollution episode that occurred in August 2003, by means of the aerosol optical thicknesses (AOTs) measured at 865 nm by the Polarization and Directionality of the Earth's Reflectances (POLDER) sensor and the s...

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Main Authors: Hodzic, A, Vautard, R, Chepfer, H, Goloub, P, Menut, L, Chazette, P, Deuzé, J L, Apituley, A, Couvert, P
Format: Article in Journal/Newspaper
Language:English
Published: 2006
Subjects:
Aerosol Robotic Network
Online Access:http://hdl.handle.net/10029/7611
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spelling ftrivm:oai:rivm.openrepository.com:10029/7611 2023-05-15T13:06:27+02:00 Evolution of aerosol optical thickness over Europe during the August 2003 heat wave as seen from CHIMERE model simulations and POLDER data Hodzic, A Vautard, R Chepfer, H Goloub, P Menut, L Chazette, P Deuzé, J L Apituley, A Couvert, P 2006-05-30 3220020 bytes application/pdf http://hdl.handle.net/10029/7611 en eng Atmos. Chem. Phys., 6, 1853-1864, 2006 http://hdl.handle.net/10029/7611 Article 2006 ftrivm 2020-09-03T18:21:18Z This study describes the atmospheric aerosol load encountered during the large-scale pollution episode that occurred in August 2003, by means of the aerosol optical thicknesses (AOTs) measured at 865 nm by the Polarization and Directionality of the Earth's Reflectances (POLDER) sensor and the simulation by the CHIMERE chemistry-transport model. During this period many processes (stagnation, photochemistry, forest fires) led to unusually high particle concentrations and optical thicknesses. The observed/simulated AOT comparison helps understanding the ability of the model to reproduce most of the gross AOT features observed in satellite data, with a general agreement within a factor 2 and correlations in the 0.4–0.6 range. However some important aerosol features are missed when using regular anthropogenic sources. Additional simulations including emissions and high-altitude transport of smoke from wildfires that occurred in Portugal indicate that these processes could dominate the AOT signal in some areas. Our results also highlight the difficulties of comparing simulated and POLDER-derived AOTs due to large uncertainties in both cases. Observed AOT values are significantly lower than the simulated ones (30–50%). Their comparison with the ground-based Sun photometer Aerosol Robotic Network (AERONET) measurements suggests, for the European sites considered here, an underestimation of POLDER-derived aerosol levels with a factor between 1 and 2. AERONET AOTs compare better with simulations (no particular bias) than POLDER AOTs. Article in Journal/Newspaper Aerosol Robotic Network National Inst. for Public Health and the Environment, Netherlands (RIVM): Webbased Archive of RIVM Publications (WARP)
institution Open Polar
collection National Inst. for Public Health and the Environment, Netherlands (RIVM): Webbased Archive of RIVM Publications (WARP)
op_collection_id ftrivm
language English
description This study describes the atmospheric aerosol load encountered during the large-scale pollution episode that occurred in August 2003, by means of the aerosol optical thicknesses (AOTs) measured at 865 nm by the Polarization and Directionality of the Earth's Reflectances (POLDER) sensor and the simulation by the CHIMERE chemistry-transport model. During this period many processes (stagnation, photochemistry, forest fires) led to unusually high particle concentrations and optical thicknesses. The observed/simulated AOT comparison helps understanding the ability of the model to reproduce most of the gross AOT features observed in satellite data, with a general agreement within a factor 2 and correlations in the 0.4–0.6 range. However some important aerosol features are missed when using regular anthropogenic sources. Additional simulations including emissions and high-altitude transport of smoke from wildfires that occurred in Portugal indicate that these processes could dominate the AOT signal in some areas. Our results also highlight the difficulties of comparing simulated and POLDER-derived AOTs due to large uncertainties in both cases. Observed AOT values are significantly lower than the simulated ones (30–50%). Their comparison with the ground-based Sun photometer Aerosol Robotic Network (AERONET) measurements suggests, for the European sites considered here, an underestimation of POLDER-derived aerosol levels with a factor between 1 and 2. AERONET AOTs compare better with simulations (no particular bias) than POLDER AOTs.
format Article in Journal/Newspaper
author Hodzic, A
Vautard, R
Chepfer, H
Goloub, P
Menut, L
Chazette, P
Deuzé, J L
Apituley, A
Couvert, P
spellingShingle Hodzic, A
Vautard, R
Chepfer, H
Goloub, P
Menut, L
Chazette, P
Deuzé, J L
Apituley, A
Couvert, P
Evolution of aerosol optical thickness over Europe during the August 2003 heat wave as seen from CHIMERE model simulations and POLDER data
author_facet Hodzic, A
Vautard, R
Chepfer, H
Goloub, P
Menut, L
Chazette, P
Deuzé, J L
Apituley, A
Couvert, P
author_sort Hodzic, A
title Evolution of aerosol optical thickness over Europe during the August 2003 heat wave as seen from CHIMERE model simulations and POLDER data
title_short Evolution of aerosol optical thickness over Europe during the August 2003 heat wave as seen from CHIMERE model simulations and POLDER data
title_full Evolution of aerosol optical thickness over Europe during the August 2003 heat wave as seen from CHIMERE model simulations and POLDER data
title_fullStr Evolution of aerosol optical thickness over Europe during the August 2003 heat wave as seen from CHIMERE model simulations and POLDER data
title_full_unstemmed Evolution of aerosol optical thickness over Europe during the August 2003 heat wave as seen from CHIMERE model simulations and POLDER data
title_sort evolution of aerosol optical thickness over europe during the august 2003 heat wave as seen from chimere model simulations and polder data
publishDate 2006
url http://hdl.handle.net/10029/7611
genre Aerosol Robotic Network
genre_facet Aerosol Robotic Network
op_relation Atmos. Chem. Phys., 6, 1853-1864, 2006
http://hdl.handle.net/10029/7611
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