Source apportionment of ultrafine particles in urban Europe

Meritxell Garcia-Marlès; Rosa Lara; Cristina Reche; Noemí Pérez; Aurelio Tobías; Marjan Savadkoohi; David Beddows; Imre Salma; Máté Vörösmarty; Tamás Weidinger; Christoph Hueglin; Nikos Mihalopoulos; Georgios Grivas; Panayiotis Kalkavouras; Jakub Ondracek; Nadezda Zikova; Jarkko V. Niemi; Hanna E. Manninen; David C. Green; Anja H. Tremper; Michael Norman; Stergios Vratolis; Evangelia Diapouli; Konstantinos Eleftheriadis; Francisco J. Gómez-Moreno; Elisabeth Alonso-Blanco; Alfred Wiedensohler; Kay Weinhold; Maik Merkel; Susanne Bastian; Barbara Hoffmann; Hicran Altug; Jean Eudes Petit; Prodip Acharja; Olivier Favez; Sebastiao Martins Dos Santos; Jean Philippe Putaud; Adelaide Dinoi; Daniele Contini; Andrea Casans; Juan Andrés Casquero-Vera; Suzanne Crumeyrolle; Eric Bourrianne; Martine Van Poppel; Freja E. Dreesen; Sami Harni; Hilkka Timonen; Janne Lampilahti; Tuukka Petäjä; Marco Pandolfi; Philip K. Hopke; Roy M. Harrison; Andrés Alastuey; Xavier Querol

doi:10.1016/j.envint.2024.109149

Source apportionment of ultrafine particles in urban Europe

Meritxell Garcia-Marlès^*
, Rosa Lara
, Cristina Reche
, Noemí Pérez
, Aurelio Tobías
, Marjan Savadkoohi
, David Beddows
, Imre Salma
, Máté Vörösmarty
, Tamás Weidinger
, Christoph Hueglin
, Nikos Mihalopoulos
, Georgios Grivas
, Panayiotis Kalkavouras
, Jakub Ondracek
, Nadezda Zikova
, Jarkko V. Niemi
, Hanna E. Manninen
, David C. Green
, Anja H. Tremper

Michael Norman, Stergios Vratolis, Evangelia Diapouli, Konstantinos Eleftheriadis, Francisco J. Gómez-Moreno, Elisabeth Alonso-Blanco, Alfred Wiedensohler, Kay Weinhold, Maik Merkel, Susanne Bastian, Barbara Hoffmann, Hicran Altug, Jean Eudes Petit, Prodip Acharja, Olivier Favez, Sebastiao Martins Dos Santos, Jean Philippe Putaud, Adelaide Dinoi, Daniele Contini, Andrea Casans, Juan Andrés Casquero-Vera, Suzanne Crumeyrolle, Eric Bourrianne, Martine Van Poppel, Freja E. Dreesen, Sami Harni, Hilkka Timonen, Janne Lampilahti, Tuukka Petäjä, Marco Pandolfi, Philip K. Hopke, Roy M. Harrison, Andrés Alastuey, Xavier Querol

^*Autor correspondiente de este trabajo

Barcelona
Polytechnic University of Catalonia
University of Birmingham
Eotvos Lorand University
Swiss Federal Laboratories for Materials Science and Technology (Empa)
University of Crete
National Observatory of Athens
University of the Aegean
Czech Academy of Sciences
Helsinki Region Environmental Services Authority
MRC Centre for Environment and Health
Imperial College London
Environment and Health Administration
Demokritos National Centre for Scientific Research
CIEMAT
Leibniz Institute for Tropospheric Research
Saxon State Office for Environment
Laboratoire des Sciences du Climat et de l'Environnement
Institut national de l'environnement industriel et des risques
European Commission Joint Research Centre Institute
National Research Council of Italy
University of Granada
Université de Lille
Flemish Institute for Technological Research
Flanders Environment Agency
Finnish Meteorological Institute
University of Helsinki
University of Rochester
King Abdulaziz University

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

30 Citas (Scopus)

Resumen

There is a body of evidence that ultrafine particles (UFP, those with diameters ≤ 100 nm) might have significant impacts on health. Accordingly, identifying sources of UFP is essential to develop abatement policies. This study focuses on urban Europe, and aims at identifying sources and quantifying their contributions to particle number size distribution (PNSD) using receptor modelling (Positive Matrix Factorization, PMF), and evaluating long-term trends of these source contributions using the non-parametric Theil-Sen's method. Datasets evaluated include 14 urban background (UB), 5 traffic (TR), 4 suburban background (SUB), and 1 regional background (RB) sites, covering 18 European and 1 USA cities, over the period, when available, from 2009 to 2019. Ten factors were identified (4 road traffic factors, photonucleation, urban background, domestic heating, 2 regional factors and long-distance transport), with road traffic being the primary contributor at all UB and TR sites (56–95 %), and photonucleation being also significant in many cities. The trends analyses showed a notable decrease in traffic-related UFP ambient concentrations, with statistically significant decreasing trends for the total traffic-related factors of −5.40 and −2.15 % yr⁻¹ for the TR and UB sites, respectively. This abatement is most probably due to the implementation of European emissions standards, particularly after the introduction of diesel particle filters (DPFs) in 2011. However, DPFs do not retain nucleated particles generated during the dilution of diesel exhaust semi-volatile organic compounds (SVOCs). Trends in photonucleation were more diverse, influenced by a reduction in the condensation sink potential facilitating new particle formation (NPF) or by a decrease in the emissions of UFP precursors. The decrease of primary PM emissions and precursors of UFP also contributed to the reduction of urban and regional background sources.

Idioma original	Inglés
Número de artículo	109149
Publicación	Environment international
Volumen	194
DOI	https://doi.org/10.1016/j.envint.2024.109149
Estado	Publicada - dic 2024
Publicado de forma externa	Sí

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

ODS 11: Ciudades y comunidades sostenibles

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10.1016/j.envint.2024.109149

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Garcia-Marlès, M., Lara, R., Reche, C., Pérez, N., Tobías, A., Savadkoohi, M., Beddows, D., Salma, I., Vörösmarty, M., Weidinger, T., Hueglin, C., Mihalopoulos, N., Grivas, G., Kalkavouras, P., Ondracek, J., Zikova, N., Niemi, J. V., Manninen, H. E., Green, D. C., ... Querol, X. (2024). Source apportionment of ultrafine particles in urban Europe. Environment international, 194, Artículo 109149. https://doi.org/10.1016/j.envint.2024.109149

@article{3f0bcdab1967462fb457b308c2e2fe94,

title = "Source apportionment of ultrafine particles in urban Europe",

abstract = "There is a body of evidence that ultrafine particles (UFP, those with diameters ≤ 100 nm) might have significant impacts on health. Accordingly, identifying sources of UFP is essential to develop abatement policies. This study focuses on urban Europe, and aims at identifying sources and quantifying their contributions to particle number size distribution (PNSD) using receptor modelling (Positive Matrix Factorization, PMF), and evaluating long-term trends of these source contributions using the non-parametric Theil-Sen's method. Datasets evaluated include 14 urban background (UB), 5 traffic (TR), 4 suburban background (SUB), and 1 regional background (RB) sites, covering 18 European and 1 USA cities, over the period, when available, from 2009 to 2019. Ten factors were identified (4 road traffic factors, photonucleation, urban background, domestic heating, 2 regional factors and long-distance transport), with road traffic being the primary contributor at all UB and TR sites (56–95 \%), and photonucleation being also significant in many cities. The trends analyses showed a notable decrease in traffic-related UFP ambient concentrations, with statistically significant decreasing trends for the total traffic-related factors of −5.40 and −2.15 \% yr−1 for the TR and UB sites, respectively. This abatement is most probably due to the implementation of European emissions standards, particularly after the introduction of diesel particle filters (DPFs) in 2011. However, DPFs do not retain nucleated particles generated during the dilution of diesel exhaust semi-volatile organic compounds (SVOCs). Trends in photonucleation were more diverse, influenced by a reduction in the condensation sink potential facilitating new particle formation (NPF) or by a decrease in the emissions of UFP precursors. The decrease of primary PM emissions and precursors of UFP also contributed to the reduction of urban and regional background sources.",

keywords = "Air quality, New particle formation, Particle number size distributions, Positive matrix factorization, Traffic emissions, Ultrafine particles",

author = "Meritxell Garcia-Marl{\`e}s and Rosa Lara and Cristina Reche and Noem{\'i} P{\'e}rez and Aurelio Tob{\'i}as and Marjan Savadkoohi and David Beddows and Imre Salma and M{\'a}t{\'e} V{\"o}r{\"o}smarty and Tam{\'a}s Weidinger and Christoph Hueglin and Nikos Mihalopoulos and Georgios Grivas and Panayiotis Kalkavouras and Jakub Ondracek and Nadezda Zikova and Niemi, \{Jarkko V.\} and Manninen, \{Hanna E.\} and Green, \{David C.\} and Tremper, \{Anja H.\} and Michael Norman and Stergios Vratolis and Evangelia Diapouli and Konstantinos Eleftheriadis and G{\'o}mez-Moreno, \{Francisco J.\} and Elisabeth Alonso-Blanco and Alfred Wiedensohler and Kay Weinhold and Maik Merkel and Susanne Bastian and Barbara Hoffmann and Hicran Altug and Petit, \{Jean Eudes\} and Prodip Acharja and Olivier Favez and Santos, \{Sebastiao Martins Dos\} and Putaud, \{Jean Philippe\} and Adelaide Dinoi and Daniele Contini and Andrea Casans and Casquero-Vera, \{Juan Andr{\'e}s\} and Suzanne Crumeyrolle and Eric Bourrianne and Poppel, \{Martine Van\} and Dreesen, \{Freja E.\} and Sami Harni and Hilkka Timonen and Janne Lampilahti and Tuukka Pet{\"a}j{\"a} and Marco Pandolfi and Hopke, \{Philip K.\} and Harrison, \{Roy M.\} and Andr{\'e}s Alastuey and Xavier Querol",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s)",

year = "2024",

month = dec,

doi = "10.1016/j.envint.2024.109149",

language = "English",

volume = "194",

journal = "Environment international",

issn = "0160-4120",

publisher = "Elsevier Ltd.",

}

Garcia-Marlès, M, Lara, R, Reche, C, Pérez, N, Tobías, A, Savadkoohi, M, Beddows, D, Salma, I, Vörösmarty, M, Weidinger, T, Hueglin, C, Mihalopoulos, N, Grivas, G, Kalkavouras, P, Ondracek, J, Zikova, N, Niemi, JV, Manninen, HE, Green, DC, Tremper, AH, Norman, M, Vratolis, S, Diapouli, E, Eleftheriadis, K, Gómez-Moreno, FJ, Alonso-Blanco, E, Wiedensohler, A, Weinhold, K, Merkel, M, Bastian, S, Hoffmann, B, Altug, H, Petit, JE, Acharja, P, Favez, O, Santos, SMD, Putaud, JP, Dinoi, A, Contini, D, Casans, A, Casquero-Vera, JA, Crumeyrolle, S, Bourrianne, E, Poppel, MV, Dreesen, FE, Harni, S, Timonen, H, Lampilahti, J, Petäjä, T, Pandolfi, M, Hopke, PK, Harrison, RM, Alastuey, A & Querol, X 2024, 'Source apportionment of ultrafine particles in urban Europe', Environment international, vol. 194, 109149. https://doi.org/10.1016/j.envint.2024.109149

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T1 - Source apportionment of ultrafine particles in urban Europe

AU - Garcia-Marlès, Meritxell

AU - Lara, Rosa

AU - Reche, Cristina

AU - Pérez, Noemí

AU - Tobías, Aurelio

AU - Savadkoohi, Marjan

AU - Beddows, David

AU - Salma, Imre

AU - Vörösmarty, Máté

AU - Weidinger, Tamás

AU - Hueglin, Christoph

AU - Mihalopoulos, Nikos

AU - Grivas, Georgios

AU - Kalkavouras, Panayiotis

AU - Ondracek, Jakub

AU - Zikova, Nadezda

AU - Niemi, Jarkko V.

AU - Manninen, Hanna E.

AU - Green, David C.

AU - Tremper, Anja H.

AU - Norman, Michael

AU - Vratolis, Stergios

AU - Diapouli, Evangelia

AU - Eleftheriadis, Konstantinos

AU - Gómez-Moreno, Francisco J.

AU - Alonso-Blanco, Elisabeth

AU - Wiedensohler, Alfred

AU - Weinhold, Kay

AU - Merkel, Maik

AU - Bastian, Susanne

AU - Hoffmann, Barbara

AU - Altug, Hicran

AU - Petit, Jean Eudes

AU - Acharja, Prodip

AU - Favez, Olivier

AU - Santos, Sebastiao Martins Dos

AU - Putaud, Jean Philippe

AU - Dinoi, Adelaide

AU - Contini, Daniele

AU - Casans, Andrea

AU - Casquero-Vera, Juan Andrés

AU - Crumeyrolle, Suzanne

AU - Bourrianne, Eric

AU - Poppel, Martine Van

AU - Dreesen, Freja E.

AU - Harni, Sami

AU - Timonen, Hilkka

AU - Lampilahti, Janne

AU - Petäjä, Tuukka

AU - Pandolfi, Marco

AU - Hopke, Philip K.

AU - Harrison, Roy M.

AU - Alastuey, Andrés

AU - Querol, Xavier

PY - 2024/12

Y1 - 2024/12

N2 - There is a body of evidence that ultrafine particles (UFP, those with diameters ≤ 100 nm) might have significant impacts on health. Accordingly, identifying sources of UFP is essential to develop abatement policies. This study focuses on urban Europe, and aims at identifying sources and quantifying their contributions to particle number size distribution (PNSD) using receptor modelling (Positive Matrix Factorization, PMF), and evaluating long-term trends of these source contributions using the non-parametric Theil-Sen's method. Datasets evaluated include 14 urban background (UB), 5 traffic (TR), 4 suburban background (SUB), and 1 regional background (RB) sites, covering 18 European and 1 USA cities, over the period, when available, from 2009 to 2019. Ten factors were identified (4 road traffic factors, photonucleation, urban background, domestic heating, 2 regional factors and long-distance transport), with road traffic being the primary contributor at all UB and TR sites (56–95 %), and photonucleation being also significant in many cities. The trends analyses showed a notable decrease in traffic-related UFP ambient concentrations, with statistically significant decreasing trends for the total traffic-related factors of −5.40 and −2.15 % yr−1 for the TR and UB sites, respectively. This abatement is most probably due to the implementation of European emissions standards, particularly after the introduction of diesel particle filters (DPFs) in 2011. However, DPFs do not retain nucleated particles generated during the dilution of diesel exhaust semi-volatile organic compounds (SVOCs). Trends in photonucleation were more diverse, influenced by a reduction in the condensation sink potential facilitating new particle formation (NPF) or by a decrease in the emissions of UFP precursors. The decrease of primary PM emissions and precursors of UFP also contributed to the reduction of urban and regional background sources.

AB - There is a body of evidence that ultrafine particles (UFP, those with diameters ≤ 100 nm) might have significant impacts on health. Accordingly, identifying sources of UFP is essential to develop abatement policies. This study focuses on urban Europe, and aims at identifying sources and quantifying their contributions to particle number size distribution (PNSD) using receptor modelling (Positive Matrix Factorization, PMF), and evaluating long-term trends of these source contributions using the non-parametric Theil-Sen's method. Datasets evaluated include 14 urban background (UB), 5 traffic (TR), 4 suburban background (SUB), and 1 regional background (RB) sites, covering 18 European and 1 USA cities, over the period, when available, from 2009 to 2019. Ten factors were identified (4 road traffic factors, photonucleation, urban background, domestic heating, 2 regional factors and long-distance transport), with road traffic being the primary contributor at all UB and TR sites (56–95 %), and photonucleation being also significant in many cities. The trends analyses showed a notable decrease in traffic-related UFP ambient concentrations, with statistically significant decreasing trends for the total traffic-related factors of −5.40 and −2.15 % yr−1 for the TR and UB sites, respectively. This abatement is most probably due to the implementation of European emissions standards, particularly after the introduction of diesel particle filters (DPFs) in 2011. However, DPFs do not retain nucleated particles generated during the dilution of diesel exhaust semi-volatile organic compounds (SVOCs). Trends in photonucleation were more diverse, influenced by a reduction in the condensation sink potential facilitating new particle formation (NPF) or by a decrease in the emissions of UFP precursors. The decrease of primary PM emissions and precursors of UFP also contributed to the reduction of urban and regional background sources.

KW - Air quality

KW - New particle formation

KW - Particle number size distributions

KW - Positive matrix factorization

KW - Traffic emissions

KW - Ultrafine particles

UR - https://www.scopus.com/pages/publications/85209538915

U2 - 10.1016/j.envint.2024.109149

DO - 10.1016/j.envint.2024.109149

M3 - Article

C2 - 39566442

AN - SCOPUS:85209538915

SN - 0160-4120

VL - 194

JO - Environment international

JF - Environment international

M1 - 109149

ER -

Source apportionment of ultrafine particles in urban Europe

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