Urban influence on the concentration and composition of submicron particulate matter in central Amazonia
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2018 |
| Outros Autores: | , , , , , , , , , , , , , , , , , , , , , , , , , |
| Tipo de documento: | Artigo |
| Idioma: | eng |
| Título da fonte: | Repositório Institucional do INPA |
| Texto Completo: | https://repositorio.inpa.gov.br/handle/1/15612 |
Resumo: | An understanding of how anthropogenic emissions affect the concentrations and composition of airborne particulate matter (PM) is fundamental to quantifying the influence of human activities on climate and air quality. The central Amazon Basin, especially around the city of Manaus, Brazil, has experienced rapid changes in the past decades due to ongoing urbanization. Herein, changes in the concentration and composition of submicron PM due to pollution downwind of the Manaus metropolitan region are reported as part of the GoAmazon2014/5 experiment. A high-resolution time-of-flight aerosol mass spectrometer (HR-ToF-AMS) and a suite of other gas- and particle-phase instruments were deployed at the "T3" research site, 70 km downwind of Manaus, during the wet season. At this site, organic components represented 79±7% of the non-refractory PM1 mass concentration on average, which was in the same range as several upwind sites. However, the organic PM1 was considerably more oxidized at T3 compared to upwind measurements. Positive-matrix factorization (PMF) was applied to the time series of organic mass spectra collected at the T3 site, yielding three factors representing secondary processes (73±15% of total organic mass concentration) and three factors representing primary anthropogenic emissions (27±15 %). Fuzzy c-means clustering (FCM) was applied to the afternoon time series of concentrations of NOy , ozone, total particle number, black carbon, and sulfate. Four clusters were identified and characterized by distinct air mass origins and particle compositions. Two clusters, Bkgd-1 and Bkgd- 2, were associated with background conditions. Bkgd-1 appeared to represent near-field atmospheric PM production and oxidation of a day or less. Bkgd-2 appeared to represent material transported and oxidized for two or more days, often with out-of-basin contributions. Two other clusters, Pol-1 and Pol-2, represented the Manaus influence, one apparently associated with the northern region of Manaus and the other with the southern region of the city. A composite of the PMF and FCM analyses provided insights into the anthropogenic effects on PM concentration and composition. The increase in mass concentration of submicron PM ranged from 25% to 200% under polluted compared with background conditions, including contributions from both primary and secondary PM. Furthermore, a comparison of PMF factor loadings for different clusters suggested a shift in the pathways of PM production under polluted conditions. Nitrogen oxides may have played a critical role in these shifts. Increased concentrations of nitrogen oxides can shift pathways of PM production from HO2-dominant to NO-dominant as well as increase the concentrations of oxidants in the atmosphere. Consequently, the oxidation of biogenic and anthropogenic precursor gases as well as the oxidative processing of preexisting atmospheric PM can be accelerated. This combined set of results demonstrates the susceptibility of atmospheric chemistry, air quality, and associated climate forcing to anthropogenic perturbations over tropical forests. © Author(s) 2018. |
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Sá, Suzane S. dePalm, Brett B.Campuzano-Jost, PedroDay, Douglas A.Hu, WeiweiIsaacman-VanWertz, Gabriel A.Yee, Lindsay D.Brito, Joel F.Carbone, SamaraRibeiro, Igor OliveiraCirino, Glauber G.Liu, YingjunThalman, Ryan M.Sedlacek, Arthur J.Funk, AaronSchumacher, Courtney J.Shilling, John E.Schneider, JohannesArtaxo, PauloGoldstein, Allen H.Souza, Rodrigo Augusto Ferreira deWang, JianMcKinney, Karena A.Barbosa, H. M. J.Lizabeth Alexander, M.Ji?enez, José LuisMartin, Scot T.2020-05-15T14:59:45Z2020-05-15T14:59:45Z2018https://repositorio.inpa.gov.br/handle/1/1561210.5194/acp-18-12185-2018An understanding of how anthropogenic emissions affect the concentrations and composition of airborne particulate matter (PM) is fundamental to quantifying the influence of human activities on climate and air quality. The central Amazon Basin, especially around the city of Manaus, Brazil, has experienced rapid changes in the past decades due to ongoing urbanization. Herein, changes in the concentration and composition of submicron PM due to pollution downwind of the Manaus metropolitan region are reported as part of the GoAmazon2014/5 experiment. A high-resolution time-of-flight aerosol mass spectrometer (HR-ToF-AMS) and a suite of other gas- and particle-phase instruments were deployed at the "T3" research site, 70 km downwind of Manaus, during the wet season. At this site, organic components represented 79±7% of the non-refractory PM1 mass concentration on average, which was in the same range as several upwind sites. However, the organic PM1 was considerably more oxidized at T3 compared to upwind measurements. Positive-matrix factorization (PMF) was applied to the time series of organic mass spectra collected at the T3 site, yielding three factors representing secondary processes (73±15% of total organic mass concentration) and three factors representing primary anthropogenic emissions (27±15 %). Fuzzy c-means clustering (FCM) was applied to the afternoon time series of concentrations of NOy , ozone, total particle number, black carbon, and sulfate. Four clusters were identified and characterized by distinct air mass origins and particle compositions. Two clusters, Bkgd-1 and Bkgd- 2, were associated with background conditions. Bkgd-1 appeared to represent near-field atmospheric PM production and oxidation of a day or less. Bkgd-2 appeared to represent material transported and oxidized for two or more days, often with out-of-basin contributions. Two other clusters, Pol-1 and Pol-2, represented the Manaus influence, one apparently associated with the northern region of Manaus and the other with the southern region of the city. A composite of the PMF and FCM analyses provided insights into the anthropogenic effects on PM concentration and composition. The increase in mass concentration of submicron PM ranged from 25% to 200% under polluted compared with background conditions, including contributions from both primary and secondary PM. Furthermore, a comparison of PMF factor loadings for different clusters suggested a shift in the pathways of PM production under polluted conditions. Nitrogen oxides may have played a critical role in these shifts. Increased concentrations of nitrogen oxides can shift pathways of PM production from HO2-dominant to NO-dominant as well as increase the concentrations of oxidants in the atmosphere. Consequently, the oxidation of biogenic and anthropogenic precursor gases as well as the oxidative processing of preexisting atmospheric PM can be accelerated. This combined set of results demonstrates the susceptibility of atmospheric chemistry, air quality, and associated climate forcing to anthropogenic perturbations over tropical forests. © Author(s) 2018.Volume 18, Número 16, Pags. 12185-12206Attribution-NonCommercial-NoDerivs 3.0 Brazilhttp://creativecommons.org/licenses/by-nc-nd/3.0/br/info:eu-repo/semantics/openAccessAir QualityAnthropogenic EffectChemical CompositionConcentration (composition)Nitrogen OxidesParticulate MatterUrbanizationAmazon BasinAmazonasBrasilManausUrban influence on the concentration and composition of submicron particulate matter in central Amazoniainfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articleAtmospheric Chemistry and Physicsengreponame:Repositório Institucional do INPAinstname:Instituto Nacional de Pesquisas da Amazônia (INPA)instacron:INPAORIGINALartigo-inpa.pdfartigo-inpa.pdfapplication/pdf6307187https://repositorio.inpa.gov.br/bitstream/1/15612/1/artigo-inpa.pdf4102ec62120661f1125233f10f60a413MD511/156122020-05-15 11:50:33.378oai:repositorio:1/15612Repositório de PublicaçõesPUBhttps://repositorio.inpa.gov.br/oai/requestopendoar:2020-05-15T15:50:33Repositório Institucional do INPA - Instituto Nacional de Pesquisas da Amazônia (INPA)false |
| dc.title.en.fl_str_mv |
Urban influence on the concentration and composition of submicron particulate matter in central Amazonia |
| title |
Urban influence on the concentration and composition of submicron particulate matter in central Amazonia |
| spellingShingle |
Urban influence on the concentration and composition of submicron particulate matter in central Amazonia Sá, Suzane S. de Air Quality Anthropogenic Effect Chemical Composition Concentration (composition) Nitrogen Oxides Particulate Matter Urbanization Amazon Basin Amazonas Brasil Manaus |
| title_short |
Urban influence on the concentration and composition of submicron particulate matter in central Amazonia |
| title_full |
Urban influence on the concentration and composition of submicron particulate matter in central Amazonia |
| title_fullStr |
Urban influence on the concentration and composition of submicron particulate matter in central Amazonia |
| title_full_unstemmed |
Urban influence on the concentration and composition of submicron particulate matter in central Amazonia |
| title_sort |
Urban influence on the concentration and composition of submicron particulate matter in central Amazonia |
| author |
Sá, Suzane S. de |
| author_facet |
Sá, Suzane S. de Palm, Brett B. Campuzano-Jost, Pedro Day, Douglas A. Hu, Weiwei Isaacman-VanWertz, Gabriel A. Yee, Lindsay D. Brito, Joel F. Carbone, Samara Ribeiro, Igor Oliveira Cirino, Glauber G. Liu, Yingjun Thalman, Ryan M. Sedlacek, Arthur J. Funk, Aaron Schumacher, Courtney J. Shilling, John E. Schneider, Johannes Artaxo, Paulo Goldstein, Allen H. Souza, Rodrigo Augusto Ferreira de Wang, Jian McKinney, Karena A. Barbosa, H. M. J. Lizabeth Alexander, M. Ji?enez, José Luis Martin, Scot T. |
| author_role |
author |
| author2 |
Palm, Brett B. Campuzano-Jost, Pedro Day, Douglas A. Hu, Weiwei Isaacman-VanWertz, Gabriel A. Yee, Lindsay D. Brito, Joel F. Carbone, Samara Ribeiro, Igor Oliveira Cirino, Glauber G. Liu, Yingjun Thalman, Ryan M. Sedlacek, Arthur J. Funk, Aaron Schumacher, Courtney J. Shilling, John E. Schneider, Johannes Artaxo, Paulo Goldstein, Allen H. Souza, Rodrigo Augusto Ferreira de Wang, Jian McKinney, Karena A. Barbosa, H. M. J. Lizabeth Alexander, M. Ji?enez, José Luis Martin, Scot T. |
| author2_role |
author author author author author author author author author author author author author author author author author author author author author author author author author author |
| dc.contributor.author.fl_str_mv |
Sá, Suzane S. de Palm, Brett B. Campuzano-Jost, Pedro Day, Douglas A. Hu, Weiwei Isaacman-VanWertz, Gabriel A. Yee, Lindsay D. Brito, Joel F. Carbone, Samara Ribeiro, Igor Oliveira Cirino, Glauber G. Liu, Yingjun Thalman, Ryan M. Sedlacek, Arthur J. Funk, Aaron Schumacher, Courtney J. Shilling, John E. Schneider, Johannes Artaxo, Paulo Goldstein, Allen H. Souza, Rodrigo Augusto Ferreira de Wang, Jian McKinney, Karena A. Barbosa, H. M. J. Lizabeth Alexander, M. Ji?enez, José Luis Martin, Scot T. |
| dc.subject.eng.fl_str_mv |
Air Quality Anthropogenic Effect Chemical Composition Concentration (composition) Nitrogen Oxides Particulate Matter Urbanization Amazon Basin Amazonas Brasil Manaus |
| topic |
Air Quality Anthropogenic Effect Chemical Composition Concentration (composition) Nitrogen Oxides Particulate Matter Urbanization Amazon Basin Amazonas Brasil Manaus |
| description |
An understanding of how anthropogenic emissions affect the concentrations and composition of airborne particulate matter (PM) is fundamental to quantifying the influence of human activities on climate and air quality. The central Amazon Basin, especially around the city of Manaus, Brazil, has experienced rapid changes in the past decades due to ongoing urbanization. Herein, changes in the concentration and composition of submicron PM due to pollution downwind of the Manaus metropolitan region are reported as part of the GoAmazon2014/5 experiment. A high-resolution time-of-flight aerosol mass spectrometer (HR-ToF-AMS) and a suite of other gas- and particle-phase instruments were deployed at the "T3" research site, 70 km downwind of Manaus, during the wet season. At this site, organic components represented 79±7% of the non-refractory PM1 mass concentration on average, which was in the same range as several upwind sites. However, the organic PM1 was considerably more oxidized at T3 compared to upwind measurements. Positive-matrix factorization (PMF) was applied to the time series of organic mass spectra collected at the T3 site, yielding three factors representing secondary processes (73±15% of total organic mass concentration) and three factors representing primary anthropogenic emissions (27±15 %). Fuzzy c-means clustering (FCM) was applied to the afternoon time series of concentrations of NOy , ozone, total particle number, black carbon, and sulfate. Four clusters were identified and characterized by distinct air mass origins and particle compositions. Two clusters, Bkgd-1 and Bkgd- 2, were associated with background conditions. Bkgd-1 appeared to represent near-field atmospheric PM production and oxidation of a day or less. Bkgd-2 appeared to represent material transported and oxidized for two or more days, often with out-of-basin contributions. Two other clusters, Pol-1 and Pol-2, represented the Manaus influence, one apparently associated with the northern region of Manaus and the other with the southern region of the city. A composite of the PMF and FCM analyses provided insights into the anthropogenic effects on PM concentration and composition. The increase in mass concentration of submicron PM ranged from 25% to 200% under polluted compared with background conditions, including contributions from both primary and secondary PM. Furthermore, a comparison of PMF factor loadings for different clusters suggested a shift in the pathways of PM production under polluted conditions. Nitrogen oxides may have played a critical role in these shifts. Increased concentrations of nitrogen oxides can shift pathways of PM production from HO2-dominant to NO-dominant as well as increase the concentrations of oxidants in the atmosphere. Consequently, the oxidation of biogenic and anthropogenic precursor gases as well as the oxidative processing of preexisting atmospheric PM can be accelerated. This combined set of results demonstrates the susceptibility of atmospheric chemistry, air quality, and associated climate forcing to anthropogenic perturbations over tropical forests. © Author(s) 2018. |
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2018 |
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2018 |
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2020-05-15T14:59:45Z |
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2020-05-15T14:59:45Z |
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10.5194/acp-18-12185-2018 |
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eng |
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Volume 18, Número 16, Pags. 12185-12206 |
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Attribution-NonCommercial-NoDerivs 3.0 Brazil http://creativecommons.org/licenses/by-nc-nd/3.0/br/ info:eu-repo/semantics/openAccess |
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Atmospheric Chemistry and Physics |
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Atmospheric Chemistry and Physics |
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