Spatial variations of PAH, hopanes/steranes and EC/OC concentrations within and between European study areas

Aleksandra Jedynska; Gerard Hoek; Marloes Eeftens; Josef Cyrys; Menno Keuken; Christophe Ampe; Rob Beelen; Giulia Cesaroni; Francesco Forastiere; Marta Cirach; Kees de Hoogh; Audrey De Nazelle; Christian Madsen; Christophe Declercq; Kirsten T. Eriksen; Klea Katsouyanni; Helgah Makarem Akhlaghi; Timo Lanki; Kees Meliefste; Mark Nieuwenhuijsen; Marieke Oldenwening; Arto Pennanen; Ole Raaschou-Nielsen; Bert Brunekreef; Ingeborg M. Kooter

doi:10.1016/j.atmosenv.2014.01.026

Spatial variations of PAH, hopanes/steranes and EC/OC concentrations within and between European study areas

Aleksandra Jedynska
, Gerard Hoek
, Marloes Eeftens
, Josef Cyrys
, Menno Keuken
, Christophe Ampe
, Rob Beelen
, Giulia Cesaroni
, Francesco Forastiere
, Marta Cirach
, Kees de Hoogh
, Audrey De Nazelle
, Christian Madsen
, Christophe Declercq
, Kirsten T. Eriksen
, Klea Katsouyanni
, Helgah Makarem Akhlaghi
, Timo Lanki
, Kees Meliefste
, Mark Nieuwenhuijsen

Marieke Oldenwening, Arto Pennanen, Ole Raaschou-Nielsen, Bert Brunekreef, Ingeborg M. Kooter

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Limited information is available on the contribution of organic components in particulate matter to health effects related to fine particles. Spatial variability of specific fine particle organic components has not been assessed with consistent methods. The aim of this paper is to assess spatial variation of organic components of fine particles within and between European study areas. Highly standardized measurements of polycyclic aromatic hydrocarbons (PAH), hopanes/steranes, elemental/organic carbon (EC/OC) and levoglucosan were performed measured in ten study areas across Europe. In each study area, measurements were conducted at street, urban and regional background sites. Three two-week samples were taken per site and the annual average levels of pollutants were calculated using continuous measurements at one background site as a reference.Substantial variations within and between the study areas were found. EC/OC and hopanes/steranes concentrations were highest in southern European study areas and lowest in northern locations. PAH concentrations were lowest in London/Oxford and highest in Copenhagen, Rome and Athens. Concentrations at street locations were higher than at background locations in all study areas and for all components. However, these differences varied considerably between study areas and components. EC had the highest median street to urban background ratio (1.62), OC the lowest (1.32). EC was highly correlated with NOx and PM2.5 absorbance in all areas, with median r=0.85 and r=0.89, respectively. The correlation between OC and other components was variable, with a median correlation of 0.65 with PM2.5 mass and a weak (0.18) correlation with σhopanes/steranes. σPAH correlated moderately with EC (r=0.59) and weakly with ∑hopanes/steranes (r=0.36).In conclusion, substantial variability was found in spatial patterns of atmospheric EC, OC, PAH and hopanes/steranes both within and between European study areas. The application of this highly standardized measurement approach across different locations will contribute to a consistent assessment of air pollutant levels and potentially contribute to understanding health effects associated with them. © 2014 Elsevier Ltd.

Original language	English
Pages (from-to)	239-248
Number of pages	10
Journal	Atmospheric Environment
Volume	87
DOIs	https://doi.org/10.1016/j.atmosenv.2014.01.026
Publication status	Published - Apr 2014

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 11 Sustainable Cities and Communities

Keywords

EC
Hopanes/steranes
OC
PAH
PM2.5
Spatial variation
variation-spatial
Folder - Ole Raaschou-Nielsen

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10.1016/j.atmosenv.2014.01.026

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Jedynska, A., Hoek, G., Eeftens, M., Cyrys, J., Keuken, M., Ampe, C., Beelen, R., Cesaroni, G., Forastiere, F., Cirach, M., de Hoogh, K., De Nazelle, A., Madsen, C., Declercq, C., Eriksen, K. T., Katsouyanni, K., Akhlaghi, H. M., Lanki, T., Meliefste, K., ... Kooter, I. M. (2014). Spatial variations of PAH, hopanes/steranes and EC/OC concentrations within and between European study areas. Atmospheric Environment, 87, 239-248. https://doi.org/10.1016/j.atmosenv.2014.01.026

@article{a135d8897bb344ce8ad28811779f112b,

title = "Spatial variations of PAH, hopanes/steranes and EC/OC concentrations within and between European study areas",

abstract = "Limited information is available on the contribution of organic components in particulate matter to health effects related to fine particles. Spatial variability of specific fine particle organic components has not been assessed with consistent methods. The aim of this paper is to assess spatial variation of organic components of fine particles within and between European study areas. Highly standardized measurements of polycyclic aromatic hydrocarbons (PAH), hopanes/steranes, elemental/organic carbon (EC/OC) and levoglucosan were performed measured in ten study areas across Europe. In each study area, measurements were conducted at street, urban and regional background sites. Three two-week samples were taken per site and the annual average levels of pollutants were calculated using continuous measurements at one background site as a reference.Substantial variations within and between the study areas were found. EC/OC and hopanes/steranes concentrations were highest in southern European study areas and lowest in northern locations. PAH concentrations were lowest in London/Oxford and highest in Copenhagen, Rome and Athens. Concentrations at street locations were higher than at background locations in all study areas and for all components. However, these differences varied considerably between study areas and components. EC had the highest median street to urban background ratio (1.62), OC the lowest (1.32). EC was highly correlated with NOx and PM2.5 absorbance in all areas, with median r=0.85 and r=0.89, respectively. The correlation between OC and other components was variable, with a median correlation of 0.65 with PM2.5 mass and a weak (0.18) correlation with σhopanes/steranes. σPAH correlated moderately with EC (r=0.59) and weakly with ∑hopanes/steranes (r=0.36).In conclusion, substantial variability was found in spatial patterns of atmospheric EC, OC, PAH and hopanes/steranes both within and between European study areas. The application of this highly standardized measurement approach across different locations will contribute to a consistent assessment of air pollutant levels and potentially contribute to understanding health effects associated with them. {\textcopyright} 2014 Elsevier Ltd.",

keywords = "EC, Hopanes/steranes, OC, PAH, PM2.5, Spatial variation, variation-spatial, Folder - Ole Raaschou-Nielsen",

author = "Aleksandra Jedynska and Gerard Hoek and Marloes Eeftens and Josef Cyrys and Menno Keuken and Christophe Ampe and Rob Beelen and Giulia Cesaroni and Francesco Forastiere and Marta Cirach and \{de Hoogh\}, Kees and \{De Nazelle\}, Audrey and Christian Madsen and Christophe Declercq and Eriksen, \{Kirsten T.\} and Klea Katsouyanni and Akhlaghi, \{Helgah Makarem\} and Timo Lanki and Kees Meliefste and Mark Nieuwenhuijsen and Marieke Oldenwening and Arto Pennanen and Ole Raaschou-Nielsen and Bert Brunekreef and Kooter, \{Ingeborg M.\}",

year = "2014",

month = apr,

doi = "10.1016/j.atmosenv.2014.01.026",

language = "English",

volume = "87",

pages = "239--248",

journal = "Atmospheric Environment",

issn = "1352-2310",

publisher = "Elsevier Ltd",

}

Jedynska, A, Hoek, G, Eeftens, M, Cyrys, J, Keuken, M, Ampe, C, Beelen, R, Cesaroni, G, Forastiere, F, Cirach, M, de Hoogh, K, De Nazelle, A, Madsen, C, Declercq, C, Eriksen, KT, Katsouyanni, K, Akhlaghi, HM, Lanki, T, Meliefste, K, Nieuwenhuijsen, M, Oldenwening, M, Pennanen, A, Raaschou-Nielsen, O, Brunekreef, B & Kooter, IM 2014, 'Spatial variations of PAH, hopanes/steranes and EC/OC concentrations within and between European study areas', Atmospheric Environment, vol. 87, pp. 239-248. https://doi.org/10.1016/j.atmosenv.2014.01.026

TY - JOUR

T1 - Spatial variations of PAH, hopanes/steranes and EC/OC concentrations within and between European study areas

AU - Jedynska, Aleksandra

AU - Hoek, Gerard

AU - Eeftens, Marloes

AU - Cyrys, Josef

AU - Keuken, Menno

AU - Ampe, Christophe

AU - Beelen, Rob

AU - Cesaroni, Giulia

AU - Forastiere, Francesco

AU - Cirach, Marta

AU - de Hoogh, Kees

AU - De Nazelle, Audrey

AU - Madsen, Christian

AU - Declercq, Christophe

AU - Eriksen, Kirsten T.

AU - Katsouyanni, Klea

AU - Akhlaghi, Helgah Makarem

AU - Lanki, Timo

AU - Meliefste, Kees

AU - Nieuwenhuijsen, Mark

AU - Oldenwening, Marieke

AU - Pennanen, Arto

AU - Raaschou-Nielsen, Ole

AU - Brunekreef, Bert

AU - Kooter, Ingeborg M.

PY - 2014/4

Y1 - 2014/4

N2 - Limited information is available on the contribution of organic components in particulate matter to health effects related to fine particles. Spatial variability of specific fine particle organic components has not been assessed with consistent methods. The aim of this paper is to assess spatial variation of organic components of fine particles within and between European study areas. Highly standardized measurements of polycyclic aromatic hydrocarbons (PAH), hopanes/steranes, elemental/organic carbon (EC/OC) and levoglucosan were performed measured in ten study areas across Europe. In each study area, measurements were conducted at street, urban and regional background sites. Three two-week samples were taken per site and the annual average levels of pollutants were calculated using continuous measurements at one background site as a reference.Substantial variations within and between the study areas were found. EC/OC and hopanes/steranes concentrations were highest in southern European study areas and lowest in northern locations. PAH concentrations were lowest in London/Oxford and highest in Copenhagen, Rome and Athens. Concentrations at street locations were higher than at background locations in all study areas and for all components. However, these differences varied considerably between study areas and components. EC had the highest median street to urban background ratio (1.62), OC the lowest (1.32). EC was highly correlated with NOx and PM2.5 absorbance in all areas, with median r=0.85 and r=0.89, respectively. The correlation between OC and other components was variable, with a median correlation of 0.65 with PM2.5 mass and a weak (0.18) correlation with σhopanes/steranes. σPAH correlated moderately with EC (r=0.59) and weakly with ∑hopanes/steranes (r=0.36).In conclusion, substantial variability was found in spatial patterns of atmospheric EC, OC, PAH and hopanes/steranes both within and between European study areas. The application of this highly standardized measurement approach across different locations will contribute to a consistent assessment of air pollutant levels and potentially contribute to understanding health effects associated with them. © 2014 Elsevier Ltd.

AB - Limited information is available on the contribution of organic components in particulate matter to health effects related to fine particles. Spatial variability of specific fine particle organic components has not been assessed with consistent methods. The aim of this paper is to assess spatial variation of organic components of fine particles within and between European study areas. Highly standardized measurements of polycyclic aromatic hydrocarbons (PAH), hopanes/steranes, elemental/organic carbon (EC/OC) and levoglucosan were performed measured in ten study areas across Europe. In each study area, measurements were conducted at street, urban and regional background sites. Three two-week samples were taken per site and the annual average levels of pollutants were calculated using continuous measurements at one background site as a reference.Substantial variations within and between the study areas were found. EC/OC and hopanes/steranes concentrations were highest in southern European study areas and lowest in northern locations. PAH concentrations were lowest in London/Oxford and highest in Copenhagen, Rome and Athens. Concentrations at street locations were higher than at background locations in all study areas and for all components. However, these differences varied considerably between study areas and components. EC had the highest median street to urban background ratio (1.62), OC the lowest (1.32). EC was highly correlated with NOx and PM2.5 absorbance in all areas, with median r=0.85 and r=0.89, respectively. The correlation between OC and other components was variable, with a median correlation of 0.65 with PM2.5 mass and a weak (0.18) correlation with σhopanes/steranes. σPAH correlated moderately with EC (r=0.59) and weakly with ∑hopanes/steranes (r=0.36).In conclusion, substantial variability was found in spatial patterns of atmospheric EC, OC, PAH and hopanes/steranes both within and between European study areas. The application of this highly standardized measurement approach across different locations will contribute to a consistent assessment of air pollutant levels and potentially contribute to understanding health effects associated with them. © 2014 Elsevier Ltd.

KW - EC

KW - Hopanes/steranes

KW - OC

KW - PAH

KW - PM2.5

KW - Spatial variation

KW - variation-spatial

KW - Folder - Ole Raaschou-Nielsen

U2 - 10.1016/j.atmosenv.2014.01.026

DO - 10.1016/j.atmosenv.2014.01.026

M3 - Article

SN - 1352-2310

VL - 87

SP - 239

EP - 248

JO - Atmospheric Environment

JF - Atmospheric Environment

ER -

Spatial variations of PAH, hopanes/steranes and EC/OC concentrations within and between European study areas

Abstract

UN SDGs

Keywords

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