Daily and hourly sourcing of metallic and mineral dust in urban air contaminated by traffic and coal-burning emissions

Daily and hourly sourcing of metallic and mineral dust in urban air contaminated by traffic and coal-burning emissions

A multi-analytical approach to chemical analysis of inhalable urban atmospheric particulate matter (PM), integrating particle induced X-ray emission, inductively coupled plasma mass spectrometry/atomic emission spectroscopy, chromatography and thermal-optical transmission methods, allows comparison between hourly (Streaker) and 24-h (High volume sampler) data and consequently improved PM chemical characterization and source identification. In a traffic hot spot monitoring site in Madrid (Spain) the hourly data reveal metallic emissions (Zn, Cu, Cr, Fe) and resuspended mineral dust (Ca, Al, Si) to be closely associated with traffic flow. These pollutants build up during the day, emphasizing evening rush hour peaks, but decrease (especially their coarser fraction PM 2.5-10 ) after nocturnal road washing. Positive matrix factorization (PMF) analysis of a large Streaker database additionally reveals two other mineral dust components (siliceous and sodic), marine aerosol, and minor, transient events which we attribute to biomass burning (K-rich) and industrial (incinerator?) Zn, Pb plumes. Chemical data on 24-h filters allows the measurement of secondary inorganic compounds and carbon concentrations and offers PMF analysis based on a limited number of samples but using fuller range of trace elements which, in the case of Madrid, identifies the continuing minor presence of a coal combustion source traced by As, Se, Ge and Organic Carbon. This coal component is more evident in the city air after the change to the winter heating season in November. Trace element data also allow use of discrimination diagrams such as V/Rb vs. La/Ce and ternary plots to illustrate variations in atmospheric chemistry (such as the effect of Ce-emissions from catalytic converters), with Madrid being an example of a city with little industrial pollution, recently reduced coal emissions, but serious atmospheric contamination by traffic emissions. © 2012 Elsevier Ltd.

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Main Authors: Moreno, Teresa, Karanasiou, Angeliki, Amato, Fulvio, Lucarelli, Franco, Nava, Silvia, Calzolai, Giulia, Chiari, Massimo, Coz, Esther, Artíñano, Begoña, Lumbreras, Julio, Borge, Rafael, Boldo, E., Linares, Cristina, Alastuey, Andrés, Querol, Xavier, Gibbons, Wes
Other Authors: Moreno, Teresa [0000-0003-3235-1027]
Format: artículo biblioteca
Language:English
Published: Elsevier 2013-04
Subjects:Arsenic, Madrid, Atmospheric metal, Cerium, Mineral dust, PMF,
Online Access:http://hdl.handle.net/10261/185895
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spelling dig-idaea-es-10261-1858952020-07-03T10:32:04Z Daily and hourly sourcing of metallic and mineral dust in urban air contaminated by traffic and coal-burning emissions Moreno, Teresa Karanasiou, Angeliki Amato, Fulvio Lucarelli, Franco Nava, Silvia Calzolai, Giulia Chiari, Massimo Coz, Esther Artíñano, Begoña Lumbreras, Julio Borge, Rafael Boldo, E. Linares, Cristina Alastuey, Andrés Querol, Xavier Gibbons, Wes Moreno, Teresa [0000-0003-3235-1027] Karanasiou, A. [0000-0003-1224-6369] Amato, Fulvio [0000-0003-1546-9154] Alastuey, Andrés [0000-0002-5453-5495] Querol, Xavier [0000-0002-6549-9899] Arsenic Madrid Atmospheric metal Cerium Mineral dust PMF A multi-analytical approach to chemical analysis of inhalable urban atmospheric particulate matter (PM), integrating particle induced X-ray emission, inductively coupled plasma mass spectrometry/atomic emission spectroscopy, chromatography and thermal-optical transmission methods, allows comparison between hourly (Streaker) and 24-h (High volume sampler) data and consequently improved PM chemical characterization and source identification. In a traffic hot spot monitoring site in Madrid (Spain) the hourly data reveal metallic emissions (Zn, Cu, Cr, Fe) and resuspended mineral dust (Ca, Al, Si) to be closely associated with traffic flow. These pollutants build up during the day, emphasizing evening rush hour peaks, but decrease (especially their coarser fraction PM 2.5-10 ) after nocturnal road washing. Positive matrix factorization (PMF) analysis of a large Streaker database additionally reveals two other mineral dust components (siliceous and sodic), marine aerosol, and minor, transient events which we attribute to biomass burning (K-rich) and industrial (incinerator?) Zn, Pb plumes. Chemical data on 24-h filters allows the measurement of secondary inorganic compounds and carbon concentrations and offers PMF analysis based on a limited number of samples but using fuller range of trace elements which, in the case of Madrid, identifies the continuing minor presence of a coal combustion source traced by As, Se, Ge and Organic Carbon. This coal component is more evident in the city air after the change to the winter heating season in November. Trace element data also allow use of discrimination diagrams such as V/Rb vs. La/Ce and ternary plots to illustrate variations in atmospheric chemistry (such as the effect of Ce-emissions from catalytic converters), with Madrid being an example of a city with little industrial pollution, recently reduced coal emissions, but serious atmospheric contamination by traffic emissions. © 2012 Elsevier Ltd. This project was financed by the Spanish Ministry of Agriculture, Feeding and Environment ( SERCA-058/PC08/3-18.1 ) and a visiting grant (TM) from the Instituto Nazionale di Fisica Nucleare in Florence. Appendix A Peer reviewed 2019-07-11T07:43:21Z 2019-07-11T07:43:21Z 2013-04 artículo http://purl.org/coar/resource_type/c_6501 Atmospheric Environment 68: 33-44 (2013) http://hdl.handle.net/10261/185895 10.1016/j.atmosenv.2012.11.037 en Postprint https://doi.org/10.1016/j.atmosenv.2012.11.037 Sí open Elsevier
institution IDAEA ES
collection DSpace
country España
countrycode ES
component Bibliográfico
access En linea
databasecode dig-idaea-es
tag biblioteca
region Europa del Sur
libraryname Biblioteca del IDAEA España
language English
topic Arsenic
Madrid
Atmospheric metal
Cerium
Mineral dust
PMF
Arsenic
Madrid
Atmospheric metal
Cerium
Mineral dust
PMF
spellingShingle Arsenic
Madrid
Atmospheric metal
Cerium
Mineral dust
PMF
Arsenic
Madrid
Atmospheric metal
Cerium
Mineral dust
PMF
Moreno, Teresa
Karanasiou, Angeliki
Amato, Fulvio
Lucarelli, Franco
Nava, Silvia
Calzolai, Giulia
Chiari, Massimo
Coz, Esther
Artíñano, Begoña
Lumbreras, Julio
Borge, Rafael
Boldo, E.
Linares, Cristina
Alastuey, Andrés
Querol, Xavier
Gibbons, Wes
Daily and hourly sourcing of metallic and mineral dust in urban air contaminated by traffic and coal-burning emissions
description A multi-analytical approach to chemical analysis of inhalable urban atmospheric particulate matter (PM), integrating particle induced X-ray emission, inductively coupled plasma mass spectrometry/atomic emission spectroscopy, chromatography and thermal-optical transmission methods, allows comparison between hourly (Streaker) and 24-h (High volume sampler) data and consequently improved PM chemical characterization and source identification. In a traffic hot spot monitoring site in Madrid (Spain) the hourly data reveal metallic emissions (Zn, Cu, Cr, Fe) and resuspended mineral dust (Ca, Al, Si) to be closely associated with traffic flow. These pollutants build up during the day, emphasizing evening rush hour peaks, but decrease (especially their coarser fraction PM 2.5-10 ) after nocturnal road washing. Positive matrix factorization (PMF) analysis of a large Streaker database additionally reveals two other mineral dust components (siliceous and sodic), marine aerosol, and minor, transient events which we attribute to biomass burning (K-rich) and industrial (incinerator?) Zn, Pb plumes. Chemical data on 24-h filters allows the measurement of secondary inorganic compounds and carbon concentrations and offers PMF analysis based on a limited number of samples but using fuller range of trace elements which, in the case of Madrid, identifies the continuing minor presence of a coal combustion source traced by As, Se, Ge and Organic Carbon. This coal component is more evident in the city air after the change to the winter heating season in November. Trace element data also allow use of discrimination diagrams such as V/Rb vs. La/Ce and ternary plots to illustrate variations in atmospheric chemistry (such as the effect of Ce-emissions from catalytic converters), with Madrid being an example of a city with little industrial pollution, recently reduced coal emissions, but serious atmospheric contamination by traffic emissions. © 2012 Elsevier Ltd.
author2 Moreno, Teresa [0000-0003-3235-1027]
author_facet Moreno, Teresa [0000-0003-3235-1027]
Moreno, Teresa
Karanasiou, Angeliki
Amato, Fulvio
Lucarelli, Franco
Nava, Silvia
Calzolai, Giulia
Chiari, Massimo
Coz, Esther
Artíñano, Begoña
Lumbreras, Julio
Borge, Rafael
Boldo, E.
Linares, Cristina
Alastuey, Andrés
Querol, Xavier
Gibbons, Wes
format artículo
topic_facet Arsenic
Madrid
Atmospheric metal
Cerium
Mineral dust
PMF
author Moreno, Teresa
Karanasiou, Angeliki
Amato, Fulvio
Lucarelli, Franco
Nava, Silvia
Calzolai, Giulia
Chiari, Massimo
Coz, Esther
Artíñano, Begoña
Lumbreras, Julio
Borge, Rafael
Boldo, E.
Linares, Cristina
Alastuey, Andrés
Querol, Xavier
Gibbons, Wes
author_sort Moreno, Teresa
title Daily and hourly sourcing of metallic and mineral dust in urban air contaminated by traffic and coal-burning emissions
title_short Daily and hourly sourcing of metallic and mineral dust in urban air contaminated by traffic and coal-burning emissions
title_full Daily and hourly sourcing of metallic and mineral dust in urban air contaminated by traffic and coal-burning emissions
title_fullStr Daily and hourly sourcing of metallic and mineral dust in urban air contaminated by traffic and coal-burning emissions
title_full_unstemmed Daily and hourly sourcing of metallic and mineral dust in urban air contaminated by traffic and coal-burning emissions
title_sort daily and hourly sourcing of metallic and mineral dust in urban air contaminated by traffic and coal-burning emissions
publisher Elsevier
publishDate 2013-04
url http://hdl.handle.net/10261/185895
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