Operational model evaluation for particulate matter in Europe and North America in the context of AQMEII

Efisio Solazzo; Roberto Bianconi; Guido Pirovano; Volker Matthias; Robert Vautard; Michael D. Moran; K. Wyat Appel; Bertrand Bessagnet; Jørgen Brandt; Jesper H. Christensen; Charles Chemel; Isabelle Coll; Joana Ferreira; Renate Forkel; Xavier V. Francis; Georg Grell; Paola Grossi; Ayoe B. Hansen; Ana Isabel Miranda; Uarporn Nopmongcol; Marje Prank; Karine N. Sartelet; Martijn Schaap; Jeremy D. Silver; Ranjeet S. Sokhi; Julius Vira; Johannes Werhahn; Ralf Wolke; Greg Yarwood; Junhua Zhang; S. Trivikrama Rao; Stefano Galmarini

doi:10.1016/j.atmosenv.2012.02.045

Operational model evaluation for particulate matter in Europe and North America in the context of AQMEII

Efisio Solazzo
, Roberto Bianconi
, Guido Pirovano
, Volker Matthias
, Robert Vautard
, Michael D. Moran
, K. Wyat Appel
, Bertrand Bessagnet
, Jørgen Brandt
, Jesper H. Christensen
, Charles Chemel
, Isabelle Coll
, Joana Ferreira
, Renate Forkel
, Xavier V. Francis
, Georg Grell
, Paola Grossi
, Ayoe B. Hansen
, Ana Isabel Miranda
, Uarporn Nopmongcol

Marje Prank, Karine N. Sartelet, Martijn Schaap, Jeremy D. Silver, Ranjeet S. Sokhi, Julius Vira, Johannes Werhahn, Ralf Wolke, Greg Yarwood, Junhua Zhang, S. Trivikrama Rao, Stefano Galmarini

European Commission Joint Research Centre
Enviroware srl
INERIS Institut National de l'Environnement Industriel et des Risques
RSE
Helmholtz-Zentrum Hereon GmbH
UVSQ
Meteorological Research Branch
U.S. Environmental Protection Agency
Aarhus University
University of Hertfordshire
CNRS
University of Aveiro
Institute of Meteorology and Climate Research
National Oceanic and Atmospheric Administration
ENVIRON International Corporation
Finnish Meteorological Institute
Laboratoire Commun ENPC-EDF R and D
Netherlands Organisation for Applied Scientific Research (TNO)
Leibniz Institute for Tropospheric Research

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Ten state-of-the-science regional air quality (AQ) modeling systems have been applied to continental-scale domains in North America and Europe for full-year simulations of 2006 in the context of Air Quality Model Evaluation International Initiative (AQMEII), whose main goals are model inter-comparison and evaluation. Standardised modeling outputs from each group have been shared on the web-distributed ENSEMBLE system, which allows statistical and ensemble analyses to be performed. In this study, the one-year model simulations are inter-compared and evaluated with a large set of observations for ground-level particulate matter (PM ₁₀ and PM _2.5) and its chemical components. Modeled concentrations of gaseous PM precursors, SO ₂ and NO ₂, have also been evaluated against observational data for both continents. Furthermore, modeled deposition (dry and wet) and emissions of several species relevant to PM are also inter-compared. The unprecedented scale of the exercise (two continents, one full year, fifteen modeling groups) allows for a detailed description of AQ model skill and uncertainty with respect to PM.Analyses of PM ₁₀ yearly time series and mean diurnal cycle show a large underestimation throughout the year for the AQ models included in AQMEII. The possible causes of PM bias, including errors in the emissions and meteorological inputs (e.g., wind speed and precipitation), and the calculated deposition are investigated. Further analysis of the coarse PM components, PM _2.5 and its major components (SO ₄, NH ₄, NO ₃, elemental carbon), have also been performed, and the model performance for each component evaluated against measurements. Finally, the ability of the models to capture high PM concentrations has been evaluated by examining two separate PM _2.5 episodes in Europe and North America. A large variability among models in predicting emissions, deposition, and concentration of PM and its precursors during the episodes has been found. Major challenges still remain with regards to identifying and eliminating the sources of PM bias in the models. Although PM _2.5 was found to be much better estimated by the models than PM ₁₀, no model was found to consistently match the observations for all locations throughout the entire year.

langue originale	Anglais
Pages (de - à)	75-92
Nombre de pages	18
journal	Atmospheric Environment
Volume	53
Les DOIs	https://doi.org/10.1016/j.atmosenv.2012.02.045
état	Publié - 1 juin 2012
Modification externe	Oui

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10.1016/j.atmosenv.2012.02.045

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Solazzo, E., Bianconi, R., Pirovano, G., Matthias, V., Vautard, R., Moran, M. D., Wyat Appel, K., Bessagnet, B., Brandt, J., Christensen, J. H., Chemel, C., Coll, I., Ferreira, J., Forkel, R., Francis, X. V., Grell, G., Grossi, P., Hansen, A. B., Miranda, A. I., ... Galmarini, S. (2012). Operational model evaluation for particulate matter in Europe and North America in the context of AQMEII. Atmospheric Environment, 53, 75-92. https://doi.org/10.1016/j.atmosenv.2012.02.045

@article{9a1664e3766d47d1b41ae66f6327ed4a,

title = "Operational model evaluation for particulate matter in Europe and North America in the context of AQMEII",

abstract = "Ten state-of-the-science regional air quality (AQ) modeling systems have been applied to continental-scale domains in North America and Europe for full-year simulations of 2006 in the context of Air Quality Model Evaluation International Initiative (AQMEII), whose main goals are model inter-comparison and evaluation. Standardised modeling outputs from each group have been shared on the web-distributed ENSEMBLE system, which allows statistical and ensemble analyses to be performed. In this study, the one-year model simulations are inter-compared and evaluated with a large set of observations for ground-level particulate matter (PM 10 and PM 2.5) and its chemical components. Modeled concentrations of gaseous PM precursors, SO 2 and NO 2, have also been evaluated against observational data for both continents. Furthermore, modeled deposition (dry and wet) and emissions of several species relevant to PM are also inter-compared. The unprecedented scale of the exercise (two continents, one full year, fifteen modeling groups) allows for a detailed description of AQ model skill and uncertainty with respect to PM.Analyses of PM 10 yearly time series and mean diurnal cycle show a large underestimation throughout the year for the AQ models included in AQMEII. The possible causes of PM bias, including errors in the emissions and meteorological inputs (e.g., wind speed and precipitation), and the calculated deposition are investigated. Further analysis of the coarse PM components, PM 2.5 and its major components (SO 4, NH 4, NO 3, elemental carbon), have also been performed, and the model performance for each component evaluated against measurements. Finally, the ability of the models to capture high PM concentrations has been evaluated by examining two separate PM 2.5 episodes in Europe and North America. A large variability among models in predicting emissions, deposition, and concentration of PM and its precursors during the episodes has been found. Major challenges still remain with regards to identifying and eliminating the sources of PM bias in the models. Although PM 2.5 was found to be much better estimated by the models than PM 10, no model was found to consistently match the observations for all locations throughout the entire year.",

keywords = "AQMEII, Model evaluation, PM speciation, Particulate matter, Regional air quality model",

author = "Efisio Solazzo and Roberto Bianconi and Guido Pirovano and Volker Matthias and Robert Vautard and Moran, \{Michael D.\} and \{Wyat Appel\}, K. and Bertrand Bessagnet and J{\o}rgen Brandt and Christensen, \{Jesper H.\} and Charles Chemel and Isabelle Coll and Joana Ferreira and Renate Forkel and Francis, \{Xavier V.\} and Georg Grell and Paola Grossi and Hansen, \{Ayoe B.\} and Miranda, \{Ana Isabel\} and Uarporn Nopmongcol and Marje Prank and Sartelet, \{Karine N.\} and Martijn Schaap and Silver, \{Jeremy D.\} and Sokhi, \{Ranjeet S.\} and Julius Vira and Johannes Werhahn and Ralf Wolke and Greg Yarwood and Junhua Zhang and Rao, \{S. Trivikrama\} and Stefano Galmarini",

year = "2012",

month = jun,

day = "1",

doi = "10.1016/j.atmosenv.2012.02.045",

language = "English",

volume = "53",

pages = "75--92",

journal = "Atmospheric Environment",

issn = "1352-2310",

}

Solazzo, E, Bianconi, R, Pirovano, G, Matthias, V, Vautard, R, Moran, MD, Wyat Appel, K, Bessagnet, B, Brandt, J, Christensen, JH, Chemel, C, Coll, I, Ferreira, J, Forkel, R, Francis, XV, Grell, G, Grossi, P, Hansen, AB, Miranda, AI, Nopmongcol, U, Prank, M, Sartelet, KN, Schaap, M, Silver, JD, Sokhi, RS, Vira, J, Werhahn, J, Wolke, R, Yarwood, G, Zhang, J, Rao, ST & Galmarini, S 2012, 'Operational model evaluation for particulate matter in Europe and North America in the context of AQMEII', Atmospheric Environment, VOL. 53, p. 75-92. https://doi.org/10.1016/j.atmosenv.2012.02.045

TY - JOUR

T1 - Operational model evaluation for particulate matter in Europe and North America in the context of AQMEII

AU - Solazzo, Efisio

AU - Bianconi, Roberto

AU - Pirovano, Guido

AU - Matthias, Volker

AU - Vautard, Robert

AU - Moran, Michael D.

AU - Wyat Appel, K.

AU - Bessagnet, Bertrand

AU - Brandt, Jørgen

AU - Christensen, Jesper H.

AU - Chemel, Charles

AU - Coll, Isabelle

AU - Ferreira, Joana

AU - Forkel, Renate

AU - Francis, Xavier V.

AU - Grell, Georg

AU - Grossi, Paola

AU - Hansen, Ayoe B.

AU - Miranda, Ana Isabel

AU - Nopmongcol, Uarporn

AU - Prank, Marje

AU - Sartelet, Karine N.

AU - Schaap, Martijn

AU - Silver, Jeremy D.

AU - Sokhi, Ranjeet S.

AU - Vira, Julius

AU - Werhahn, Johannes

AU - Wolke, Ralf

AU - Yarwood, Greg

AU - Zhang, Junhua

AU - Rao, S. Trivikrama

AU - Galmarini, Stefano

PY - 2012/6/1

Y1 - 2012/6/1

N2 - Ten state-of-the-science regional air quality (AQ) modeling systems have been applied to continental-scale domains in North America and Europe for full-year simulations of 2006 in the context of Air Quality Model Evaluation International Initiative (AQMEII), whose main goals are model inter-comparison and evaluation. Standardised modeling outputs from each group have been shared on the web-distributed ENSEMBLE system, which allows statistical and ensemble analyses to be performed. In this study, the one-year model simulations are inter-compared and evaluated with a large set of observations for ground-level particulate matter (PM 10 and PM 2.5) and its chemical components. Modeled concentrations of gaseous PM precursors, SO 2 and NO 2, have also been evaluated against observational data for both continents. Furthermore, modeled deposition (dry and wet) and emissions of several species relevant to PM are also inter-compared. The unprecedented scale of the exercise (two continents, one full year, fifteen modeling groups) allows for a detailed description of AQ model skill and uncertainty with respect to PM.Analyses of PM 10 yearly time series and mean diurnal cycle show a large underestimation throughout the year for the AQ models included in AQMEII. The possible causes of PM bias, including errors in the emissions and meteorological inputs (e.g., wind speed and precipitation), and the calculated deposition are investigated. Further analysis of the coarse PM components, PM 2.5 and its major components (SO 4, NH 4, NO 3, elemental carbon), have also been performed, and the model performance for each component evaluated against measurements. Finally, the ability of the models to capture high PM concentrations has been evaluated by examining two separate PM 2.5 episodes in Europe and North America. A large variability among models in predicting emissions, deposition, and concentration of PM and its precursors during the episodes has been found. Major challenges still remain with regards to identifying and eliminating the sources of PM bias in the models. Although PM 2.5 was found to be much better estimated by the models than PM 10, no model was found to consistently match the observations for all locations throughout the entire year.

AB - Ten state-of-the-science regional air quality (AQ) modeling systems have been applied to continental-scale domains in North America and Europe for full-year simulations of 2006 in the context of Air Quality Model Evaluation International Initiative (AQMEII), whose main goals are model inter-comparison and evaluation. Standardised modeling outputs from each group have been shared on the web-distributed ENSEMBLE system, which allows statistical and ensemble analyses to be performed. In this study, the one-year model simulations are inter-compared and evaluated with a large set of observations for ground-level particulate matter (PM 10 and PM 2.5) and its chemical components. Modeled concentrations of gaseous PM precursors, SO 2 and NO 2, have also been evaluated against observational data for both continents. Furthermore, modeled deposition (dry and wet) and emissions of several species relevant to PM are also inter-compared. The unprecedented scale of the exercise (two continents, one full year, fifteen modeling groups) allows for a detailed description of AQ model skill and uncertainty with respect to PM.Analyses of PM 10 yearly time series and mean diurnal cycle show a large underestimation throughout the year for the AQ models included in AQMEII. The possible causes of PM bias, including errors in the emissions and meteorological inputs (e.g., wind speed and precipitation), and the calculated deposition are investigated. Further analysis of the coarse PM components, PM 2.5 and its major components (SO 4, NH 4, NO 3, elemental carbon), have also been performed, and the model performance for each component evaluated against measurements. Finally, the ability of the models to capture high PM concentrations has been evaluated by examining two separate PM 2.5 episodes in Europe and North America. A large variability among models in predicting emissions, deposition, and concentration of PM and its precursors during the episodes has been found. Major challenges still remain with regards to identifying and eliminating the sources of PM bias in the models. Although PM 2.5 was found to be much better estimated by the models than PM 10, no model was found to consistently match the observations for all locations throughout the entire year.

KW - AQMEII

KW - Model evaluation

KW - PM speciation

KW - Particulate matter

KW - Regional air quality model

UR - https://www.scopus.com/pages/publications/84860590184

U2 - 10.1016/j.atmosenv.2012.02.045

DO - 10.1016/j.atmosenv.2012.02.045

M3 - Article

AN - SCOPUS:84860590184

SN - 1352-2310

VL - 53

SP - 75

EP - 92

JO - Atmospheric Environment

JF - Atmospheric Environment

ER -

Operational model evaluation for particulate matter in Europe and North America in the context of AQMEII

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