Volatile organic compounds in the western Mediterranean basin: urban and rural winter measurements during the DAURE campaign

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Volatile organic compounds in the western Mediterranean basin : urban and rural winter measurements during the DAURE campaign. / Seco, R.; Peñuelas, J.; Filella, I.; Llusia, J.; Schallhart, S.; Metzger, A.; Müller, M.; Hansel, A.

I: Atmospheric Chemistry and Physics, Bind 13, Nr. 8, 2013, s. 4291-4306.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Seco, R, Peñuelas, J, Filella, I, Llusia, J, Schallhart, S, Metzger, A, Müller, M & Hansel, A 2013, 'Volatile organic compounds in the western Mediterranean basin: urban and rural winter measurements during the DAURE campaign', Atmospheric Chemistry and Physics, bind 13, nr. 8, s. 4291-4306. https://doi.org/10.5194/acp-13-4291-2013

APA

Seco, R., Peñuelas, J., Filella, I., Llusia, J., Schallhart, S., Metzger, A., Müller, M., & Hansel, A. (2013). Volatile organic compounds in the western Mediterranean basin: urban and rural winter measurements during the DAURE campaign. Atmospheric Chemistry and Physics, 13(8), 4291-4306. https://doi.org/10.5194/acp-13-4291-2013

Vancouver

Seco R, Peñuelas J, Filella I, Llusia J, Schallhart S, Metzger A o.a. Volatile organic compounds in the western Mediterranean basin: urban and rural winter measurements during the DAURE campaign. Atmospheric Chemistry and Physics. 2013;13(8):4291-4306. https://doi.org/10.5194/acp-13-4291-2013

Author

Seco, R. ; Peñuelas, J. ; Filella, I. ; Llusia, J. ; Schallhart, S. ; Metzger, A. ; Müller, M. ; Hansel, A. / Volatile organic compounds in the western Mediterranean basin : urban and rural winter measurements during the DAURE campaign. I: Atmospheric Chemistry and Physics. 2013 ; Bind 13, Nr. 8. s. 4291-4306.

Bibtex

@article{e22f4d5809e646e9880d96a563916160,
title = "Volatile organic compounds in the western Mediterranean basin: urban and rural winter measurements during the DAURE campaign",
abstract = "Atmospheric volatile organic compounds (VOCs) have key environmental and biological roles, but little is known about the daily VOC mixing ratios in Mediterranean urban and natural environments. We measured VOC mixing ratios concurrently at an urban and a rural site during the winter DAURE campaign in the northeastern Iberian Peninsula, by means of PTR-MS at both locations: a PTR-Quad-MS at the urban site and a PTR-ToF-MS at the rural site. All VOC mixing ratios measured were higher at the urban site (e.g. acetaldehyde, isoprene, benzene, and toluene with averages up to 1.68, 0.31, 0.58 and 2.71 ppbv, respectively), with the exception of some short-chain oxygenated VOCs such as acetone (with similar averages of 0.7-1.6 ppbv at both sites). The average diurnal pattern also differed between the sites. Most of the VOCs at the urban location showed their highest mixing ratios in the morning and evening. These peaks coincided with traffic during rush hour, the main origin of most of the VOCs analyzed. Between these two peaks, the sea breeze transported the urban air inland, thus helping to lower the VOC loading at the urban site. At the rural site, most of the measured VOCs were advected by the midday sea breeze, yielding the highest daily VOC mixing ratios (e.g. acetaldehyde, isoprene, benzene, and toluene with averages up to 0.65, 0.07, 0.19, and 0.41 ppbv, respectively). Only biogenic monoterpenes showed a clear local origin at this site. In addition, the concentrations of fine particulate matter observed at both sites, together with the synoptic meteorological conditions and radio-sounding data, allowed the identification of different atmospheric scenarios that had a clear influence on the measured VOC mixing ratios. These results highlight the differences and relationships in VOC mixing ratios between nearby urban and rural areas in Mediterranean regions. Further research in other urban-rural areas is warranted to better understand the urban-rural influence on atmospheric VOC mixing ratios under different atmospheric conditions.",
author = "R. Seco and J. Pe{\~n}uelas and I. Filella and J. Llusia and S. Schallhart and A. Metzger and M. M{\"u}ller and A. Hansel",
year = "2013",
doi = "10.5194/acp-13-4291-2013",
language = "English",
volume = "13",
pages = "4291--4306",
journal = "Atmospheric Chemistry and Physics",
issn = "1680-7316",
publisher = "Copernicus GmbH",
number = "8",

}

RIS

TY - JOUR

T1 - Volatile organic compounds in the western Mediterranean basin

T2 - urban and rural winter measurements during the DAURE campaign

AU - Seco, R.

AU - Peñuelas, J.

AU - Filella, I.

AU - Llusia, J.

AU - Schallhart, S.

AU - Metzger, A.

AU - Müller, M.

AU - Hansel, A.

PY - 2013

Y1 - 2013

N2 - Atmospheric volatile organic compounds (VOCs) have key environmental and biological roles, but little is known about the daily VOC mixing ratios in Mediterranean urban and natural environments. We measured VOC mixing ratios concurrently at an urban and a rural site during the winter DAURE campaign in the northeastern Iberian Peninsula, by means of PTR-MS at both locations: a PTR-Quad-MS at the urban site and a PTR-ToF-MS at the rural site. All VOC mixing ratios measured were higher at the urban site (e.g. acetaldehyde, isoprene, benzene, and toluene with averages up to 1.68, 0.31, 0.58 and 2.71 ppbv, respectively), with the exception of some short-chain oxygenated VOCs such as acetone (with similar averages of 0.7-1.6 ppbv at both sites). The average diurnal pattern also differed between the sites. Most of the VOCs at the urban location showed their highest mixing ratios in the morning and evening. These peaks coincided with traffic during rush hour, the main origin of most of the VOCs analyzed. Between these two peaks, the sea breeze transported the urban air inland, thus helping to lower the VOC loading at the urban site. At the rural site, most of the measured VOCs were advected by the midday sea breeze, yielding the highest daily VOC mixing ratios (e.g. acetaldehyde, isoprene, benzene, and toluene with averages up to 0.65, 0.07, 0.19, and 0.41 ppbv, respectively). Only biogenic monoterpenes showed a clear local origin at this site. In addition, the concentrations of fine particulate matter observed at both sites, together with the synoptic meteorological conditions and radio-sounding data, allowed the identification of different atmospheric scenarios that had a clear influence on the measured VOC mixing ratios. These results highlight the differences and relationships in VOC mixing ratios between nearby urban and rural areas in Mediterranean regions. Further research in other urban-rural areas is warranted to better understand the urban-rural influence on atmospheric VOC mixing ratios under different atmospheric conditions.

AB - Atmospheric volatile organic compounds (VOCs) have key environmental and biological roles, but little is known about the daily VOC mixing ratios in Mediterranean urban and natural environments. We measured VOC mixing ratios concurrently at an urban and a rural site during the winter DAURE campaign in the northeastern Iberian Peninsula, by means of PTR-MS at both locations: a PTR-Quad-MS at the urban site and a PTR-ToF-MS at the rural site. All VOC mixing ratios measured were higher at the urban site (e.g. acetaldehyde, isoprene, benzene, and toluene with averages up to 1.68, 0.31, 0.58 and 2.71 ppbv, respectively), with the exception of some short-chain oxygenated VOCs such as acetone (with similar averages of 0.7-1.6 ppbv at both sites). The average diurnal pattern also differed between the sites. Most of the VOCs at the urban location showed their highest mixing ratios in the morning and evening. These peaks coincided with traffic during rush hour, the main origin of most of the VOCs analyzed. Between these two peaks, the sea breeze transported the urban air inland, thus helping to lower the VOC loading at the urban site. At the rural site, most of the measured VOCs were advected by the midday sea breeze, yielding the highest daily VOC mixing ratios (e.g. acetaldehyde, isoprene, benzene, and toluene with averages up to 0.65, 0.07, 0.19, and 0.41 ppbv, respectively). Only biogenic monoterpenes showed a clear local origin at this site. In addition, the concentrations of fine particulate matter observed at both sites, together with the synoptic meteorological conditions and radio-sounding data, allowed the identification of different atmospheric scenarios that had a clear influence on the measured VOC mixing ratios. These results highlight the differences and relationships in VOC mixing ratios between nearby urban and rural areas in Mediterranean regions. Further research in other urban-rural areas is warranted to better understand the urban-rural influence on atmospheric VOC mixing ratios under different atmospheric conditions.

U2 - 10.5194/acp-13-4291-2013

DO - 10.5194/acp-13-4291-2013

M3 - Journal article

AN - SCOPUS:84881633319

VL - 13

SP - 4291

EP - 4306

JO - Atmospheric Chemistry and Physics

JF - Atmospheric Chemistry and Physics

SN - 1680-7316

IS - 8

ER -

ID: 234281574