Spatial variations of levoglucosan in four European study areas

Aleksandra Jedynska; Gerard Hoek; Meng Wang; Marloes Eeftens; Josef Cyrys; Rob Beelen; Marta Cirach; Audrey De Nazelle; Menno Keuken; Antoon Visschedijk; Wenche Nystad; Helgah Makarem Akhlaghi; Kees Meliefste; Mark Nieuwenhuijsen; Kees de Hoogh; Bert Brunekreef; Ingeborg M Kooter

doi:10.1016/j.scitotenv.2014.10.091

Spatial variations of levoglucosan in four European study areas

Aleksandra Jedynska
, Gerard Hoek
, Meng Wang
, Marloes Eeftens
, Josef Cyrys
, Rob Beelen
, Marta Cirach
, Audrey De Nazelle
, Menno Keuken
, Antoon Visschedijk
, Wenche Nystad
, Helgah Makarem Akhlaghi
, Kees Meliefste
, Mark Nieuwenhuijsen
, Kees de Hoogh
, Bert Brunekreef
, Ingeborg M Kooter

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

Abstract

Relatively little is known about long term effects of wood smoke on population health. A wood combustion marker - levoglucosan - was measured using a standardized sampling and measurement method in four European study areas (Oslo, The Netherlands, Munich/Augsburg, Catalonia) to assess within and between study area spatial variation. Levoglucosan was analyzed in addition to: PM2.5, PM2.5 absorbance, PM10, polycyclic aromatic hydrocarbons (PAH), nitrogen oxides (NOx), elemental and organic carbon (EC/OC), hopanes, steranes and elemental composition. Measurements were conducted at street, urban and regional background sites. Three two-week samples were taken per site and the annual average concentrations of pollutants were calculated using continuous measurements at one background reference site. Land use regression (LUR) models were developed to explain the spatial variation of levoglucosan. Much larger within than between study area contrast in levoglucosan concentration was found. Spatial variation patterns differed from other measured pollutants: PM2.5, NOx and EC. Levoglucosan had the highest spatial correlation with ΣPAH (r=0.65) and the lowest with traffic markers - NOx, Σhopanes/steranes (r=-0.22). Levoglucosan concentrations in the cold (heating) period were between 3 and 20 times higher compared to the warm period. The contribution of wood-smoke calculated based on levoglucosan measurements and previous European emission data to OC and PM2.5 mass was 13 to 28% and 3 to 9% respectively in the full year. Larger contributions were calculated for the cold period. The median model R(2) of the LUR models was 60%. The LUR models included population and natural land related variables. In conclusion, substantial spatial variability was found in levoglucosan concentrations within study areas. Wood smoke contributed substantially to especially wintertime PM2.5 OC and mass. The low to moderate correlation with PM2.5 mass and traffic markers offers the potential to assess health effects of wood smoke separate from traffic-related air pollution.

Original language	English
Pages (from-to)	1072-81
Number of pages	10
Journal	Science of the Total Environment
Volume	505
DOIs	https://doi.org/10.1016/j.scitotenv.2014.10.091
Publication status	Published - 1 Feb 2015

Keywords

Levoglucosan
OC
PAH
LUR
PM2.5
Spatial variation

UN SDGs

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

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10.1016/j.scitotenv.2014.10.091

SpatialFinal published version, 464 KBLicence: Taverne

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Jedynska, A., Hoek, G., Wang, M., Eeftens, M., Cyrys, J., Beelen, R., Cirach, M., De Nazelle, A., Keuken, M., Visschedijk, A., Nystad, W., Akhlaghi, H. M., Meliefste, K., Nieuwenhuijsen, M., de Hoogh, K., Brunekreef, B., & Kooter, I. M. (2015). Spatial variations of levoglucosan in four European study areas. Science of the Total Environment, 505, 1072-81. https://doi.org/10.1016/j.scitotenv.2014.10.091

@article{41464a20f7b3464ab9e2978932d56106,

title = "Spatial variations of levoglucosan in four European study areas",

abstract = "Relatively little is known about long term effects of wood smoke on population health. A wood combustion marker - levoglucosan - was measured using a standardized sampling and measurement method in four European study areas (Oslo, The Netherlands, Munich/Augsburg, Catalonia) to assess within and between study area spatial variation. Levoglucosan was analyzed in addition to: PM2.5, PM2.5 absorbance, PM10, polycyclic aromatic hydrocarbons (PAH), nitrogen oxides (NOx), elemental and organic carbon (EC/OC), hopanes, steranes and elemental composition. Measurements were conducted at street, urban and regional background sites. Three two-week samples were taken per site and the annual average concentrations of pollutants were calculated using continuous measurements at one background reference site. Land use regression (LUR) models were developed to explain the spatial variation of levoglucosan. Much larger within than between study area contrast in levoglucosan concentration was found. Spatial variation patterns differed from other measured pollutants: PM2.5, NOx and EC. Levoglucosan had the highest spatial correlation with ΣPAH (r=0.65) and the lowest with traffic markers - NOx, Σhopanes/steranes (r=-0.22). Levoglucosan concentrations in the cold (heating) period were between 3 and 20 times higher compared to the warm period. The contribution of wood-smoke calculated based on levoglucosan measurements and previous European emission data to OC and PM2.5 mass was 13 to 28\% and 3 to 9\% respectively in the full year. Larger contributions were calculated for the cold period. The median model R(2) of the LUR models was 60\%. The LUR models included population and natural land related variables. In conclusion, substantial spatial variability was found in levoglucosan concentrations within study areas. Wood smoke contributed substantially to especially wintertime PM2.5 OC and mass. The low to moderate correlation with PM2.5 mass and traffic markers offers the potential to assess health effects of wood smoke separate from traffic-related air pollution.",

keywords = "Levoglucosan, OC, PAH, LUR, PM2.5, Spatial variation",

author = "Aleksandra Jedynska and Gerard Hoek and Meng Wang and Marloes Eeftens and Josef Cyrys and Rob Beelen and Marta Cirach and \{De Nazelle\}, Audrey and Menno Keuken and Antoon Visschedijk and Wenche Nystad and Akhlaghi, \{Helgah Makarem\} and Kees Meliefste and Mark Nieuwenhuijsen and \{de Hoogh\}, Kees and Bert Brunekreef and Kooter, \{Ingeborg M\}",

year = "2015",

month = feb,

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doi = "10.1016/j.scitotenv.2014.10.091",

language = "English",

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journal = "Science of the Total Environment",

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}

Jedynska, A, Hoek, G, Wang, M, Eeftens, M, Cyrys, J, Beelen, R, Cirach, M, De Nazelle, A, Keuken, M, Visschedijk, A, Nystad, W, Akhlaghi, HM, Meliefste, K, Nieuwenhuijsen, M, de Hoogh, K, Brunekreef, B & Kooter, IM 2015, 'Spatial variations of levoglucosan in four European study areas', Science of the Total Environment, vol. 505, pp. 1072-81. https://doi.org/10.1016/j.scitotenv.2014.10.091

TY - JOUR

T1 - Spatial variations of levoglucosan in four European study areas

AU - Jedynska, Aleksandra

AU - Hoek, Gerard

AU - Wang, Meng

AU - Eeftens, Marloes

AU - Cyrys, Josef

AU - Beelen, Rob

AU - Cirach, Marta

AU - De Nazelle, Audrey

AU - Keuken, Menno

AU - Visschedijk, Antoon

AU - Nystad, Wenche

AU - Akhlaghi, Helgah Makarem

AU - Meliefste, Kees

AU - Nieuwenhuijsen, Mark

AU - de Hoogh, Kees

AU - Brunekreef, Bert

AU - Kooter, Ingeborg M

PY - 2015/2/1

Y1 - 2015/2/1

N2 - Relatively little is known about long term effects of wood smoke on population health. A wood combustion marker - levoglucosan - was measured using a standardized sampling and measurement method in four European study areas (Oslo, The Netherlands, Munich/Augsburg, Catalonia) to assess within and between study area spatial variation. Levoglucosan was analyzed in addition to: PM2.5, PM2.5 absorbance, PM10, polycyclic aromatic hydrocarbons (PAH), nitrogen oxides (NOx), elemental and organic carbon (EC/OC), hopanes, steranes and elemental composition. Measurements were conducted at street, urban and regional background sites. Three two-week samples were taken per site and the annual average concentrations of pollutants were calculated using continuous measurements at one background reference site. Land use regression (LUR) models were developed to explain the spatial variation of levoglucosan. Much larger within than between study area contrast in levoglucosan concentration was found. Spatial variation patterns differed from other measured pollutants: PM2.5, NOx and EC. Levoglucosan had the highest spatial correlation with ΣPAH (r=0.65) and the lowest with traffic markers - NOx, Σhopanes/steranes (r=-0.22). Levoglucosan concentrations in the cold (heating) period were between 3 and 20 times higher compared to the warm period. The contribution of wood-smoke calculated based on levoglucosan measurements and previous European emission data to OC and PM2.5 mass was 13 to 28% and 3 to 9% respectively in the full year. Larger contributions were calculated for the cold period. The median model R(2) of the LUR models was 60%. The LUR models included population and natural land related variables. In conclusion, substantial spatial variability was found in levoglucosan concentrations within study areas. Wood smoke contributed substantially to especially wintertime PM2.5 OC and mass. The low to moderate correlation with PM2.5 mass and traffic markers offers the potential to assess health effects of wood smoke separate from traffic-related air pollution.

AB - Relatively little is known about long term effects of wood smoke on population health. A wood combustion marker - levoglucosan - was measured using a standardized sampling and measurement method in four European study areas (Oslo, The Netherlands, Munich/Augsburg, Catalonia) to assess within and between study area spatial variation. Levoglucosan was analyzed in addition to: PM2.5, PM2.5 absorbance, PM10, polycyclic aromatic hydrocarbons (PAH), nitrogen oxides (NOx), elemental and organic carbon (EC/OC), hopanes, steranes and elemental composition. Measurements were conducted at street, urban and regional background sites. Three two-week samples were taken per site and the annual average concentrations of pollutants were calculated using continuous measurements at one background reference site. Land use regression (LUR) models were developed to explain the spatial variation of levoglucosan. Much larger within than between study area contrast in levoglucosan concentration was found. Spatial variation patterns differed from other measured pollutants: PM2.5, NOx and EC. Levoglucosan had the highest spatial correlation with ΣPAH (r=0.65) and the lowest with traffic markers - NOx, Σhopanes/steranes (r=-0.22). Levoglucosan concentrations in the cold (heating) period were between 3 and 20 times higher compared to the warm period. The contribution of wood-smoke calculated based on levoglucosan measurements and previous European emission data to OC and PM2.5 mass was 13 to 28% and 3 to 9% respectively in the full year. Larger contributions were calculated for the cold period. The median model R(2) of the LUR models was 60%. The LUR models included population and natural land related variables. In conclusion, substantial spatial variability was found in levoglucosan concentrations within study areas. Wood smoke contributed substantially to especially wintertime PM2.5 OC and mass. The low to moderate correlation with PM2.5 mass and traffic markers offers the potential to assess health effects of wood smoke separate from traffic-related air pollution.

KW - Levoglucosan

KW - OC

KW - PAH

KW - LUR

KW - PM2.5

KW - Spatial variation

U2 - 10.1016/j.scitotenv.2014.10.091

DO - 10.1016/j.scitotenv.2014.10.091

M3 - Article

C2 - 25461108

SN - 0048-9697

VL - 505

SP - 1072

EP - 1081

JO - Science of the Total Environment

JF - Science of the Total Environment

ER -

Spatial variations of levoglucosan in four European study areas

Abstract

Keywords

UN SDGs

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