CCN activity and organic hygroscopicity of aerosols downwind of an urban region in central Amazonia: Seasonal and diel variations and impact of anthropogenic emissions
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2017 |
| Outros Autores: | , , , , , , , , , , , , , , , , , , , , , , |
| Tipo de documento: | Artigo |
| Idioma: | eng |
| Título da fonte: | Repositório Institucional do INPA |
| Texto Completo: | https://repositorio.inpa.gov.br/handle/1/15362 |
Resumo: | During the Observations and Modeling of the Green Ocean Amazon (GoAmazon2014/5) campaign, size-resolved cloud condensation nuclei (CCN) spectra were characterized at a research site (T3) 60 km downwind of the city of Manaus, Brazil, in central Amazonia for 1 year (12 March 2014 to 3 March 2015). Particle hygroscopicity (κCCN) and mixing state were derived from the size-resolved CCN spectra, and the hygroscopicity of the organic component of the aerosol (κorg) was then calculated from κCCN and concurrent chemical composition measurements. The annual average κCCN increased from 0.13 at 75 nm to 0.17 at 171 nm, and the increase was largely due to an increase in sulfate volume fraction. During both wet and dry seasons, κCCN, κorg, and particle composition under background conditions exhibited essentially no diel variations. The constant κorg of -1/4 0. 15 is consistent with the largely uniform and high O : C value (-1/4 0. 8), indicating that the aerosols under background conditions are dominated by the aged regional aerosol particles consisting of highly oxygenated organic compounds. For air masses strongly influenced by urban pollution and/or local biomass burning, lower values of κorg and organic O : C atomic ratio were observed during night, due to accumulation of freshly emitted particles, dominated by primary organic aerosol (POA) with low hygroscopicity, within a shallow nocturnal boundary layer. The O : C, κorg, and κCCN increased from the early morning hours and peaked around noon, driven by the formation and aging of secondary organic aerosol (SOA) and dilution of POA emissions into a deeper boundary layer, while the development of the boundary layer, which leads to mixing with aged particles from the residual layer aloft, likely also contributed to the increases. The hygroscopicities associated with individual organic factors, derived from PMF (positive matrix factorization) analysis of AMS (aerosol mass spectrometry) spectra, were estimated through multivariable linear regression. For the SOA factors, the variation of the κ value with O : C agrees well with the linear relationship reported from earlier laboratory studies of SOA hygroscopicity. On the other hand, the variation in O : C of ambient aerosol organics is largely driven by the variation in the volume fractions of POA and SOA factors, which have very different O : C values. As POA factors have hygroscopicity values well below the linear relationship between SOA hygroscopicity and O : C, mixtures with different POA and SOA fractions exhibit a steeper slope for the increase in κorg with O : C, as observed during this and earlier field studies. This finding helps better understand and reconcile the differences in the relationships between κorg and O : C observed in laboratory and field studies, therefore providing a basis for improved parameterization in global models, especially in a tropical context. |
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Thalman, Ryan M.Sá, Suzane S. dePalm, Brett B.Barbosa, H. M. J.Pöhlker, Mira L.Alexander, Michael LizabethBrito, Joel F.Carbone, SamaraCastillo, PauloDay, Douglas A.Kuang, ChongaiManzi, Antônio OcimarNg, Nga LeeSedlacek, Arthur J.Souza, Rodrigo Augusto Ferreira deSpringston, Stephen R.Watson, Thomas B.Pöhlker, ChristopherPöschl, UlrichAndreae, Meinrat O.Artaxo, PauloJi?enez, José LuisMartin, Scot T.Wang, Jian2020-05-08T20:34:55Z2020-05-08T20:34:55Z2017https://repositorio.inpa.gov.br/handle/1/1536210.5194/acp-17-11779-2017During the Observations and Modeling of the Green Ocean Amazon (GoAmazon2014/5) campaign, size-resolved cloud condensation nuclei (CCN) spectra were characterized at a research site (T3) 60 km downwind of the city of Manaus, Brazil, in central Amazonia for 1 year (12 March 2014 to 3 March 2015). Particle hygroscopicity (κCCN) and mixing state were derived from the size-resolved CCN spectra, and the hygroscopicity of the organic component of the aerosol (κorg) was then calculated from κCCN and concurrent chemical composition measurements. The annual average κCCN increased from 0.13 at 75 nm to 0.17 at 171 nm, and the increase was largely due to an increase in sulfate volume fraction. During both wet and dry seasons, κCCN, κorg, and particle composition under background conditions exhibited essentially no diel variations. The constant κorg of -1/4 0. 15 is consistent with the largely uniform and high O : C value (-1/4 0. 8), indicating that the aerosols under background conditions are dominated by the aged regional aerosol particles consisting of highly oxygenated organic compounds. For air masses strongly influenced by urban pollution and/or local biomass burning, lower values of κorg and organic O : C atomic ratio were observed during night, due to accumulation of freshly emitted particles, dominated by primary organic aerosol (POA) with low hygroscopicity, within a shallow nocturnal boundary layer. The O : C, κorg, and κCCN increased from the early morning hours and peaked around noon, driven by the formation and aging of secondary organic aerosol (SOA) and dilution of POA emissions into a deeper boundary layer, while the development of the boundary layer, which leads to mixing with aged particles from the residual layer aloft, likely also contributed to the increases. The hygroscopicities associated with individual organic factors, derived from PMF (positive matrix factorization) analysis of AMS (aerosol mass spectrometry) spectra, were estimated through multivariable linear regression. For the SOA factors, the variation of the κ value with O : C agrees well with the linear relationship reported from earlier laboratory studies of SOA hygroscopicity. On the other hand, the variation in O : C of ambient aerosol organics is largely driven by the variation in the volume fractions of POA and SOA factors, which have very different O : C values. As POA factors have hygroscopicity values well below the linear relationship between SOA hygroscopicity and O : C, mixtures with different POA and SOA fractions exhibit a steeper slope for the increase in κorg with O : C, as observed during this and earlier field studies. This finding helps better understand and reconcile the differences in the relationships between κorg and O : C observed in laboratory and field studies, therefore providing a basis for improved parameterization in global models, especially in a tropical context.Volume 17, Número 19, Pags. 11779-11801Attribution-NonCommercial-NoDerivs 3.0 Brazilhttp://creativecommons.org/licenses/by-nc-nd/3.0/br/info:eu-repo/semantics/openAccessAerosolAnthropogenic EffectBiomass-burningBoundary LayerChemical CompositionCloud Condensation NucleusHygroscopicityMixingSeasonal VariationSlopeUrban AtmosphereAmazonasAmazoniaBrasilManausCCN activity and organic hygroscopicity of aerosols downwind of an urban region in central Amazonia: Seasonal and diel variations and impact of anthropogenic emissionsinfo: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/pdf1561184https://repositorio.inpa.gov.br/bitstream/1/15362/1/artigo-inpa.pdf34c84c50f04b0807cbdcbe7ba8a2b075MD511/153622020-07-14 11:05:00.72oai:repositorio:1/15362Repositório de PublicaçõesPUBhttps://repositorio.inpa.gov.br/oai/requestopendoar:2020-07-14T15:05Repositório Institucional do INPA - Instituto Nacional de Pesquisas da Amazônia (INPA)false |
| dc.title.en.fl_str_mv |
CCN activity and organic hygroscopicity of aerosols downwind of an urban region in central Amazonia: Seasonal and diel variations and impact of anthropogenic emissions |
| title |
CCN activity and organic hygroscopicity of aerosols downwind of an urban region in central Amazonia: Seasonal and diel variations and impact of anthropogenic emissions |
| spellingShingle |
CCN activity and organic hygroscopicity of aerosols downwind of an urban region in central Amazonia: Seasonal and diel variations and impact of anthropogenic emissions Thalman, Ryan M. Aerosol Anthropogenic Effect Biomass-burning Boundary Layer Chemical Composition Cloud Condensation Nucleus Hygroscopicity Mixing Seasonal Variation Slope Urban Atmosphere Amazonas Amazonia Brasil Manaus |
| title_short |
CCN activity and organic hygroscopicity of aerosols downwind of an urban region in central Amazonia: Seasonal and diel variations and impact of anthropogenic emissions |
| title_full |
CCN activity and organic hygroscopicity of aerosols downwind of an urban region in central Amazonia: Seasonal and diel variations and impact of anthropogenic emissions |
| title_fullStr |
CCN activity and organic hygroscopicity of aerosols downwind of an urban region in central Amazonia: Seasonal and diel variations and impact of anthropogenic emissions |
| title_full_unstemmed |
CCN activity and organic hygroscopicity of aerosols downwind of an urban region in central Amazonia: Seasonal and diel variations and impact of anthropogenic emissions |
| title_sort |
CCN activity and organic hygroscopicity of aerosols downwind of an urban region in central Amazonia: Seasonal and diel variations and impact of anthropogenic emissions |
| author |
Thalman, Ryan M. |
| author_facet |
Thalman, Ryan M. Sá, Suzane S. de Palm, Brett B. Barbosa, H. M. J. Pöhlker, Mira L. Alexander, Michael Lizabeth Brito, Joel F. Carbone, Samara Castillo, Paulo Day, Douglas A. Kuang, Chongai Manzi, Antônio Ocimar Ng, Nga Lee Sedlacek, Arthur J. Souza, Rodrigo Augusto Ferreira de Springston, Stephen R. Watson, Thomas B. Pöhlker, Christopher Pöschl, Ulrich Andreae, Meinrat O. Artaxo, Paulo Ji?enez, José Luis Martin, Scot T. Wang, Jian |
| author_role |
author |
| author2 |
Sá, Suzane S. de Palm, Brett B. Barbosa, H. M. J. Pöhlker, Mira L. Alexander, Michael Lizabeth Brito, Joel F. Carbone, Samara Castillo, Paulo Day, Douglas A. Kuang, Chongai Manzi, Antônio Ocimar Ng, Nga Lee Sedlacek, Arthur J. Souza, Rodrigo Augusto Ferreira de Springston, Stephen R. Watson, Thomas B. Pöhlker, Christopher Pöschl, Ulrich Andreae, Meinrat O. Artaxo, Paulo Ji?enez, José Luis Martin, Scot T. Wang, Jian |
| 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 |
| dc.contributor.author.fl_str_mv |
Thalman, Ryan M. Sá, Suzane S. de Palm, Brett B. Barbosa, H. M. J. Pöhlker, Mira L. Alexander, Michael Lizabeth Brito, Joel F. Carbone, Samara Castillo, Paulo Day, Douglas A. Kuang, Chongai Manzi, Antônio Ocimar Ng, Nga Lee Sedlacek, Arthur J. Souza, Rodrigo Augusto Ferreira de Springston, Stephen R. Watson, Thomas B. Pöhlker, Christopher Pöschl, Ulrich Andreae, Meinrat O. Artaxo, Paulo Ji?enez, José Luis Martin, Scot T. Wang, Jian |
| dc.subject.eng.fl_str_mv |
Aerosol Anthropogenic Effect Biomass-burning Boundary Layer Chemical Composition Cloud Condensation Nucleus Hygroscopicity Mixing Seasonal Variation Slope Urban Atmosphere Amazonas Amazonia Brasil Manaus |
| topic |
Aerosol Anthropogenic Effect Biomass-burning Boundary Layer Chemical Composition Cloud Condensation Nucleus Hygroscopicity Mixing Seasonal Variation Slope Urban Atmosphere Amazonas Amazonia Brasil Manaus |
| description |
During the Observations and Modeling of the Green Ocean Amazon (GoAmazon2014/5) campaign, size-resolved cloud condensation nuclei (CCN) spectra were characterized at a research site (T3) 60 km downwind of the city of Manaus, Brazil, in central Amazonia for 1 year (12 March 2014 to 3 March 2015). Particle hygroscopicity (κCCN) and mixing state were derived from the size-resolved CCN spectra, and the hygroscopicity of the organic component of the aerosol (κorg) was then calculated from κCCN and concurrent chemical composition measurements. The annual average κCCN increased from 0.13 at 75 nm to 0.17 at 171 nm, and the increase was largely due to an increase in sulfate volume fraction. During both wet and dry seasons, κCCN, κorg, and particle composition under background conditions exhibited essentially no diel variations. The constant κorg of -1/4 0. 15 is consistent with the largely uniform and high O : C value (-1/4 0. 8), indicating that the aerosols under background conditions are dominated by the aged regional aerosol particles consisting of highly oxygenated organic compounds. For air masses strongly influenced by urban pollution and/or local biomass burning, lower values of κorg and organic O : C atomic ratio were observed during night, due to accumulation of freshly emitted particles, dominated by primary organic aerosol (POA) with low hygroscopicity, within a shallow nocturnal boundary layer. The O : C, κorg, and κCCN increased from the early morning hours and peaked around noon, driven by the formation and aging of secondary organic aerosol (SOA) and dilution of POA emissions into a deeper boundary layer, while the development of the boundary layer, which leads to mixing with aged particles from the residual layer aloft, likely also contributed to the increases. The hygroscopicities associated with individual organic factors, derived from PMF (positive matrix factorization) analysis of AMS (aerosol mass spectrometry) spectra, were estimated through multivariable linear regression. For the SOA factors, the variation of the κ value with O : C agrees well with the linear relationship reported from earlier laboratory studies of SOA hygroscopicity. On the other hand, the variation in O : C of ambient aerosol organics is largely driven by the variation in the volume fractions of POA and SOA factors, which have very different O : C values. As POA factors have hygroscopicity values well below the linear relationship between SOA hygroscopicity and O : C, mixtures with different POA and SOA fractions exhibit a steeper slope for the increase in κorg with O : C, as observed during this and earlier field studies. This finding helps better understand and reconcile the differences in the relationships between κorg and O : C observed in laboratory and field studies, therefore providing a basis for improved parameterization in global models, especially in a tropical context. |
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2017 |
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2017 |
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2020-05-08T20:34:55Z |
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2020-05-08T20:34:55Z |
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10.5194/acp-17-11779-2017 |
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https://repositorio.inpa.gov.br/handle/1/15362 |
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eng |
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Volume 17, Número 19, Pags. 11779-11801 |
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Atmospheric Chemistry and Physics |
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Atmospheric Chemistry and Physics |
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