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AIRUSE-LIFE+: a harmonized PM speciation and source apportionment in five southern European cities

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Zeitschriftentitel: Atmospheric Chemistry and Physics
Personen und Körperschaften: Amato, Fulvio, Alastuey, Andrés, Karanasiou, Angeliki, Lucarelli, Franco, Nava, Silvia, Calzolai, Giulia, Severi, Mirko, Becagli, Silvia, Gianelle, Vorne L., Colombi, Cristina, Alves, Celia, Custódio, Danilo, Nunes, Teresa, Cerqueira, Mario, Pio, Casimiro, Eleftheriadis, Konstantinos, Diapouli, Evangelia, Reche, Cristina, Minguillón, María Cruz, Manousakas, Manousos-Ioannis, Maggos, Thomas, Vratolis, Stergios, Harrison, Roy M., Querol, Xavier
In: Atmospheric Chemistry and Physics, 16, 2016, 5, S. 3289-3309
Format: E-Article
Sprache: Englisch
veröffentlicht:
Copernicus GmbH
Schlagwörter:
Atmospheric Science
author_facet Amato, Fulvio
Alastuey, Andrés
Karanasiou, Angeliki
Lucarelli, Franco
Nava, Silvia
Calzolai, Giulia
Severi, Mirko
Becagli, Silvia
Gianelle, Vorne L.
Colombi, Cristina
Alves, Celia
Custódio, Danilo
Nunes, Teresa
Cerqueira, Mario
Pio, Casimiro
Eleftheriadis, Konstantinos
Diapouli, Evangelia
Reche, Cristina
Minguillón, María Cruz
Manousakas, Manousos-Ioannis
Maggos, Thomas
Vratolis, Stergios
Harrison, Roy M.
Querol, Xavier
Amato, Fulvio
Alastuey, Andrés
Karanasiou, Angeliki
Lucarelli, Franco
Nava, Silvia
Calzolai, Giulia
Severi, Mirko
Becagli, Silvia
Gianelle, Vorne L.
Colombi, Cristina
Alves, Celia
Custódio, Danilo
Nunes, Teresa
Cerqueira, Mario
Pio, Casimiro
Eleftheriadis, Konstantinos
Diapouli, Evangelia
Reche, Cristina
Minguillón, María Cruz
Manousakas, Manousos-Ioannis
Maggos, Thomas
Vratolis, Stergios
Harrison, Roy M.
Querol, Xavier
author Amato, Fulvio
Alastuey, Andrés
Karanasiou, Angeliki
Lucarelli, Franco
Nava, Silvia
Calzolai, Giulia
Severi, Mirko
Becagli, Silvia
Gianelle, Vorne L.
Colombi, Cristina
Alves, Celia
Custódio, Danilo
Nunes, Teresa
Cerqueira, Mario
Pio, Casimiro
Eleftheriadis, Konstantinos
Diapouli, Evangelia
Reche, Cristina
Minguillón, María Cruz
Manousakas, Manousos-Ioannis
Maggos, Thomas
Vratolis, Stergios
Harrison, Roy M.
Querol, Xavier
spellingShingle Amato, Fulvio
Alastuey, Andrés
Karanasiou, Angeliki
Lucarelli, Franco
Nava, Silvia
Calzolai, Giulia
Severi, Mirko
Becagli, Silvia
Gianelle, Vorne L.
Colombi, Cristina
Alves, Celia
Custódio, Danilo
Nunes, Teresa
Cerqueira, Mario
Pio, Casimiro
Eleftheriadis, Konstantinos
Diapouli, Evangelia
Reche, Cristina
Minguillón, María Cruz
Manousakas, Manousos-Ioannis
Maggos, Thomas
Vratolis, Stergios
Harrison, Roy M.
Querol, Xavier
Atmospheric Chemistry and Physics
AIRUSE-LIFE+: a harmonized PM speciation and source apportionment in five southern European cities
Atmospheric Science
author_sort amato, fulvio
spelling Amato, Fulvio Alastuey, Andrés Karanasiou, Angeliki Lucarelli, Franco Nava, Silvia Calzolai, Giulia Severi, Mirko Becagli, Silvia Gianelle, Vorne L. Colombi, Cristina Alves, Celia Custódio, Danilo Nunes, Teresa Cerqueira, Mario Pio, Casimiro Eleftheriadis, Konstantinos Diapouli, Evangelia Reche, Cristina Minguillón, María Cruz Manousakas, Manousos-Ioannis Maggos, Thomas Vratolis, Stergios Harrison, Roy M. Querol, Xavier 1680-7324 Copernicus GmbH Atmospheric Science http://dx.doi.org/10.5194/acp-16-3289-2016 <jats:p>Abstract. The AIRUSE-LIFE+ project aims at characterizing similarities and heterogeneities in particulate matter (PM) sources and contributions in urban areas from southern Europe. Once the main PMx sources are identified, AIRUSE aims at developing and testing the efficiency of specific and non-specific measures to improve urban air quality. This article reports the results of the source apportionment of PM10 and PM2.5 conducted at three urban background sites (Barcelona, Florence and Milan, BCN-UB, FI-UB and MLN-UB), one suburban background site (Athens, ATH-SUB) and one traffic site (Porto, POR-TR). After collecting 1047 PM10 and 1116 PM2.5 24 h samples during 12 months (from January 2013 on) simultaneously at the five cities, these were analysed for the contents of OC, EC, anions, cations, major and trace elements and levoglucosan. The USEPA PMF5 receptor model was applied to these data sets in a harmonized way for each city. The sum of vehicle exhaust (VEX) and non-exhaust (NEX) contributes between 3.9 and 10.8 µg m−3 (16–32 %) to PM10 and 2.3 and 9.4 µg m−3 (15–36 %) to PM2.5, although a fraction of secondary nitrate is also traffic-related but could not be estimated. Important contributions arise from secondary particles (nitrate, sulfate and organics) in PM2.5 (37–82 %) but also in PM10 (40–71 %), mostly at background sites, revealing the importance of abating gaseous precursors in designing air quality plans. Biomass burning (BB) contributions vary widely, from 14–24 % of PM10 in POR-TR, MLN-UB and FI-UB, 7 % in ATH-SUB, to &lt; 2 % in BCN-UB. In PM2.5, BB is the second most important source in MLN-UB (21 %) and in POR-TR (18 %), the third one in FI-UB (21 %) and ATH-SUB (11 %), but is again negligible (&lt; 2 %) in BCN-UB. This large variability among cities is mostly due to the degree of penetration of biomass for residential heating. In Barcelona natural gas is very well supplied across the city and is used as fuel in 96 % of homes, while in other cities, PM levels increase on an annual basis by 1–9 µg m−3 due to biomass burning influence. Other significant sources are the following. – Local dust, 7–12 % of PM10 at SUB and UB sites and 19 % at the TR site, revealing a contribution from road dust resuspension. In PM2.5 percentages decrease to 2–7 % at SUB-UB sites and 15 % at the TR site. – Industry, mainly metallurgy, contributing 4–11 % of PM10 (5–12 % in PM2.5), but only at BCN-UB, POR-TR and MLN-UB. No clear impact of industrial emissions was found in FI-UB and ATH-SUB. – Natural contributions from sea salt (13 % of PM10 in POR-TR, but only 2–7 % in the other cities) and Saharan dust (14 % in ATH-SUB, but less than 4 % in the other cities). During high pollution days, the largest sources (i.e. excluding secondary aerosol factors) of PM10 and PM2.5 are VEX + NEX in BCN-UB (27–22 %) and POR-TR (31–33 %), BB in FI-UB (30–33 %) and MLN-UB (35–26 %) and Saharan dust in ATH-SUB (52–45 %). During those days, there are also quite important industrial contributions in BCN-UB (17–18 %) and local dust in POR-TR (28–20 %). </jats:p> AIRUSE-LIFE+: a harmonized PM speciation and source apportionment in five southern European cities Atmospheric Chemistry and Physics
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title AIRUSE-LIFE+: a harmonized PM speciation and source apportionment in five southern European cities
title_unstemmed AIRUSE-LIFE+: a harmonized PM speciation and source apportionment in five southern European cities
title_full AIRUSE-LIFE+: a harmonized PM speciation and source apportionment in five southern European cities
title_fullStr AIRUSE-LIFE+: a harmonized PM speciation and source apportionment in five southern European cities
title_full_unstemmed AIRUSE-LIFE+: a harmonized PM speciation and source apportionment in five southern European cities
title_short AIRUSE-LIFE+: a harmonized PM speciation and source apportionment in five southern European cities
title_sort airuse-life+: a harmonized pm speciation and source apportionment in five southern european cities
topic Atmospheric Science
url http://dx.doi.org/10.5194/acp-16-3289-2016
publishDate 2016
physical 3289-3309
description <jats:p>Abstract. The AIRUSE-LIFE+ project aims at characterizing similarities and heterogeneities in particulate matter (PM) sources and contributions in urban areas from southern Europe. Once the main PMx sources are identified, AIRUSE aims at developing and testing the efficiency of specific and non-specific measures to improve urban air quality. This article reports the results of the source apportionment of PM10 and PM2.5 conducted at three urban background sites (Barcelona, Florence and Milan, BCN-UB, FI-UB and MLN-UB), one suburban background site (Athens, ATH-SUB) and one traffic site (Porto, POR-TR). After collecting 1047 PM10 and 1116 PM2.5 24 h samples during 12 months (from January 2013 on) simultaneously at the five cities, these were analysed for the contents of OC, EC, anions, cations, major and trace elements and levoglucosan. The USEPA PMF5 receptor model was applied to these data sets in a harmonized way for each city. The sum of vehicle exhaust (VEX) and non-exhaust (NEX) contributes between 3.9 and 10.8 µg m−3 (16–32 %) to PM10 and 2.3 and 9.4 µg m−3 (15–36 %) to PM2.5, although a fraction of secondary nitrate is also traffic-related but could not be estimated. Important contributions arise from secondary particles (nitrate, sulfate and organics) in PM2.5 (37–82 %) but also in PM10 (40–71 %), mostly at background sites, revealing the importance of abating gaseous precursors in designing air quality plans. Biomass burning (BB) contributions vary widely, from 14–24 % of PM10 in POR-TR, MLN-UB and FI-UB, 7 % in ATH-SUB, to  &lt;  2 % in BCN-UB. In PM2.5, BB is the second most important source in MLN-UB (21 %) and in POR-TR (18 %), the third one in FI-UB (21 %) and ATH-SUB (11 %), but is again negligible (&lt; 2 %) in BCN-UB. This large variability among cities is mostly due to the degree of penetration of biomass for residential heating. In Barcelona natural gas is very well supplied across the city and is used as fuel in 96 % of homes, while in other cities, PM levels increase on an annual basis by 1–9 µg m−3 due to biomass burning influence. Other significant sources are the following. – Local dust, 7–12 % of PM10 at SUB and UB sites and 19 % at the TR site, revealing a contribution from road dust resuspension. In PM2.5 percentages decrease to 2–7 % at SUB-UB sites and 15 % at the TR site. – Industry, mainly metallurgy, contributing 4–11 % of PM10 (5–12 % in PM2.5), but only at BCN-UB, POR-TR and MLN-UB. No clear impact of industrial emissions was found in FI-UB and ATH-SUB. – Natural contributions from sea salt (13 % of PM10 in POR-TR, but only 2–7 % in the other cities) and Saharan dust (14 % in ATH-SUB, but less than 4 % in the other cities). During high pollution days, the largest sources (i.e. excluding secondary aerosol factors) of PM10 and PM2.5 are VEX + NEX in BCN-UB (27–22 %) and POR-TR (31–33 %), BB in FI-UB (30–33 %) and MLN-UB (35–26 %) and Saharan dust in ATH-SUB (52–45 %). During those days, there are also quite important industrial contributions in BCN-UB (17–18 %) and local dust in POR-TR (28–20 %). </jats:p>
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author Amato, Fulvio, Alastuey, Andrés, Karanasiou, Angeliki, Lucarelli, Franco, Nava, Silvia, Calzolai, Giulia, Severi, Mirko, Becagli, Silvia, Gianelle, Vorne L., Colombi, Cristina, Alves, Celia, Custódio, Danilo, Nunes, Teresa, Cerqueira, Mario, Pio, Casimiro, Eleftheriadis, Konstantinos, Diapouli, Evangelia, Reche, Cristina, Minguillón, María Cruz, Manousakas, Manousos-Ioannis, Maggos, Thomas, Vratolis, Stergios, Harrison, Roy M., Querol, Xavier
author_facet Amato, Fulvio, Alastuey, Andrés, Karanasiou, Angeliki, Lucarelli, Franco, Nava, Silvia, Calzolai, Giulia, Severi, Mirko, Becagli, Silvia, Gianelle, Vorne L., Colombi, Cristina, Alves, Celia, Custódio, Danilo, Nunes, Teresa, Cerqueira, Mario, Pio, Casimiro, Eleftheriadis, Konstantinos, Diapouli, Evangelia, Reche, Cristina, Minguillón, María Cruz, Manousakas, Manousos-Ioannis, Maggos, Thomas, Vratolis, Stergios, Harrison, Roy M., Querol, Xavier, Amato, Fulvio, Alastuey, Andrés, Karanasiou, Angeliki, Lucarelli, Franco, Nava, Silvia, Calzolai, Giulia, Severi, Mirko, Becagli, Silvia, Gianelle, Vorne L., Colombi, Cristina, Alves, Celia, Custódio, Danilo, Nunes, Teresa, Cerqueira, Mario, Pio, Casimiro, Eleftheriadis, Konstantinos, Diapouli, Evangelia, Reche, Cristina, Minguillón, María Cruz, Manousakas, Manousos-Ioannis, Maggos, Thomas, Vratolis, Stergios, Harrison, Roy M., Querol, Xavier
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description <jats:p>Abstract. The AIRUSE-LIFE+ project aims at characterizing similarities and heterogeneities in particulate matter (PM) sources and contributions in urban areas from southern Europe. Once the main PMx sources are identified, AIRUSE aims at developing and testing the efficiency of specific and non-specific measures to improve urban air quality. This article reports the results of the source apportionment of PM10 and PM2.5 conducted at three urban background sites (Barcelona, Florence and Milan, BCN-UB, FI-UB and MLN-UB), one suburban background site (Athens, ATH-SUB) and one traffic site (Porto, POR-TR). After collecting 1047 PM10 and 1116 PM2.5 24 h samples during 12 months (from January 2013 on) simultaneously at the five cities, these were analysed for the contents of OC, EC, anions, cations, major and trace elements and levoglucosan. The USEPA PMF5 receptor model was applied to these data sets in a harmonized way for each city. The sum of vehicle exhaust (VEX) and non-exhaust (NEX) contributes between 3.9 and 10.8 µg m−3 (16–32 %) to PM10 and 2.3 and 9.4 µg m−3 (15–36 %) to PM2.5, although a fraction of secondary nitrate is also traffic-related but could not be estimated. Important contributions arise from secondary particles (nitrate, sulfate and organics) in PM2.5 (37–82 %) but also in PM10 (40–71 %), mostly at background sites, revealing the importance of abating gaseous precursors in designing air quality plans. Biomass burning (BB) contributions vary widely, from 14–24 % of PM10 in POR-TR, MLN-UB and FI-UB, 7 % in ATH-SUB, to  &lt;  2 % in BCN-UB. In PM2.5, BB is the second most important source in MLN-UB (21 %) and in POR-TR (18 %), the third one in FI-UB (21 %) and ATH-SUB (11 %), but is again negligible (&lt; 2 %) in BCN-UB. This large variability among cities is mostly due to the degree of penetration of biomass for residential heating. In Barcelona natural gas is very well supplied across the city and is used as fuel in 96 % of homes, while in other cities, PM levels increase on an annual basis by 1–9 µg m−3 due to biomass burning influence. Other significant sources are the following. – Local dust, 7–12 % of PM10 at SUB and UB sites and 19 % at the TR site, revealing a contribution from road dust resuspension. In PM2.5 percentages decrease to 2–7 % at SUB-UB sites and 15 % at the TR site. – Industry, mainly metallurgy, contributing 4–11 % of PM10 (5–12 % in PM2.5), but only at BCN-UB, POR-TR and MLN-UB. No clear impact of industrial emissions was found in FI-UB and ATH-SUB. – Natural contributions from sea salt (13 % of PM10 in POR-TR, but only 2–7 % in the other cities) and Saharan dust (14 % in ATH-SUB, but less than 4 % in the other cities). During high pollution days, the largest sources (i.e. excluding secondary aerosol factors) of PM10 and PM2.5 are VEX + NEX in BCN-UB (27–22 %) and POR-TR (31–33 %), BB in FI-UB (30–33 %) and MLN-UB (35–26 %) and Saharan dust in ATH-SUB (52–45 %). During those days, there are also quite important industrial contributions in BCN-UB (17–18 %) and local dust in POR-TR (28–20 %). </jats:p>
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spelling Amato, Fulvio Alastuey, Andrés Karanasiou, Angeliki Lucarelli, Franco Nava, Silvia Calzolai, Giulia Severi, Mirko Becagli, Silvia Gianelle, Vorne L. Colombi, Cristina Alves, Celia Custódio, Danilo Nunes, Teresa Cerqueira, Mario Pio, Casimiro Eleftheriadis, Konstantinos Diapouli, Evangelia Reche, Cristina Minguillón, María Cruz Manousakas, Manousos-Ioannis Maggos, Thomas Vratolis, Stergios Harrison, Roy M. Querol, Xavier 1680-7324 Copernicus GmbH Atmospheric Science http://dx.doi.org/10.5194/acp-16-3289-2016 <jats:p>Abstract. The AIRUSE-LIFE+ project aims at characterizing similarities and heterogeneities in particulate matter (PM) sources and contributions in urban areas from southern Europe. Once the main PMx sources are identified, AIRUSE aims at developing and testing the efficiency of specific and non-specific measures to improve urban air quality. This article reports the results of the source apportionment of PM10 and PM2.5 conducted at three urban background sites (Barcelona, Florence and Milan, BCN-UB, FI-UB and MLN-UB), one suburban background site (Athens, ATH-SUB) and one traffic site (Porto, POR-TR). After collecting 1047 PM10 and 1116 PM2.5 24 h samples during 12 months (from January 2013 on) simultaneously at the five cities, these were analysed for the contents of OC, EC, anions, cations, major and trace elements and levoglucosan. The USEPA PMF5 receptor model was applied to these data sets in a harmonized way for each city. The sum of vehicle exhaust (VEX) and non-exhaust (NEX) contributes between 3.9 and 10.8 µg m−3 (16–32 %) to PM10 and 2.3 and 9.4 µg m−3 (15–36 %) to PM2.5, although a fraction of secondary nitrate is also traffic-related but could not be estimated. Important contributions arise from secondary particles (nitrate, sulfate and organics) in PM2.5 (37–82 %) but also in PM10 (40–71 %), mostly at background sites, revealing the importance of abating gaseous precursors in designing air quality plans. Biomass burning (BB) contributions vary widely, from 14–24 % of PM10 in POR-TR, MLN-UB and FI-UB, 7 % in ATH-SUB, to &lt; 2 % in BCN-UB. In PM2.5, BB is the second most important source in MLN-UB (21 %) and in POR-TR (18 %), the third one in FI-UB (21 %) and ATH-SUB (11 %), but is again negligible (&lt; 2 %) in BCN-UB. This large variability among cities is mostly due to the degree of penetration of biomass for residential heating. In Barcelona natural gas is very well supplied across the city and is used as fuel in 96 % of homes, while in other cities, PM levels increase on an annual basis by 1–9 µg m−3 due to biomass burning influence. Other significant sources are the following. – Local dust, 7–12 % of PM10 at SUB and UB sites and 19 % at the TR site, revealing a contribution from road dust resuspension. In PM2.5 percentages decrease to 2–7 % at SUB-UB sites and 15 % at the TR site. – Industry, mainly metallurgy, contributing 4–11 % of PM10 (5–12 % in PM2.5), but only at BCN-UB, POR-TR and MLN-UB. No clear impact of industrial emissions was found in FI-UB and ATH-SUB. – Natural contributions from sea salt (13 % of PM10 in POR-TR, but only 2–7 % in the other cities) and Saharan dust (14 % in ATH-SUB, but less than 4 % in the other cities). During high pollution days, the largest sources (i.e. excluding secondary aerosol factors) of PM10 and PM2.5 are VEX + NEX in BCN-UB (27–22 %) and POR-TR (31–33 %), BB in FI-UB (30–33 %) and MLN-UB (35–26 %) and Saharan dust in ATH-SUB (52–45 %). During those days, there are also quite important industrial contributions in BCN-UB (17–18 %) and local dust in POR-TR (28–20 %). </jats:p> AIRUSE-LIFE+: a harmonized PM speciation and source apportionment in five southern European cities Atmospheric Chemistry and Physics
spellingShingle Amato, Fulvio, Alastuey, Andrés, Karanasiou, Angeliki, Lucarelli, Franco, Nava, Silvia, Calzolai, Giulia, Severi, Mirko, Becagli, Silvia, Gianelle, Vorne L., Colombi, Cristina, Alves, Celia, Custódio, Danilo, Nunes, Teresa, Cerqueira, Mario, Pio, Casimiro, Eleftheriadis, Konstantinos, Diapouli, Evangelia, Reche, Cristina, Minguillón, María Cruz, Manousakas, Manousos-Ioannis, Maggos, Thomas, Vratolis, Stergios, Harrison, Roy M., Querol, Xavier, Atmospheric Chemistry and Physics, AIRUSE-LIFE+: a harmonized PM speciation and source apportionment in five southern European cities, Atmospheric Science
title AIRUSE-LIFE+: a harmonized PM speciation and source apportionment in five southern European cities
title_full AIRUSE-LIFE+: a harmonized PM speciation and source apportionment in five southern European cities
title_fullStr AIRUSE-LIFE+: a harmonized PM speciation and source apportionment in five southern European cities
title_full_unstemmed AIRUSE-LIFE+: a harmonized PM speciation and source apportionment in five southern European cities
title_short AIRUSE-LIFE+: a harmonized PM speciation and source apportionment in five southern European cities
title_sort airuse-life+: a harmonized pm speciation and source apportionment in five southern european cities
title_unstemmed AIRUSE-LIFE+: a harmonized PM speciation and source apportionment in five southern European cities
topic Atmospheric Science
url http://dx.doi.org/10.5194/acp-16-3289-2016