Artigo

Observations of particulate matter, NO2, SO2, O3, H2S and selected VOCs at a semi-urban environment in the Amazon region

This research aims to assess air quality in a transitional location between city and forest in the Amazon region. Located downwind of the Manaus metropolitan region, this study is part of the large-scale experiment GoAmazon2014/5. Based on their pollutant potential, inhalable particulate matter (PM2...

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Autor principal: Paralovo, Sarah L.
Outros Autores: Barbosa, Cybelli G.G., Carneiro, Isabela P.S., Kurzlop, Priscila, Borillo, Guilherme C., Schiochet, Maria Fernanda C., Godoi, Ana Flávia Locateli, Yamamoto, Carlos Itsuo, Souza, Rodrigo Augusto Ferreira de, Andreoli, Rita Valéria, Ribeiro, Igor Oliveira, Manzi, Antônio Ocimar, Kourtchev, Ivan N., Bustillos, José Oscar Viega, Martin, Scot T., Godoi, Ricardo Henrique Moreton
Grau: Artigo
Idioma: English
Publicado em: Science of the Total Environment 2020
Assuntos:
Air Quality
Deforestation
Drought
Fog
Sulfur Dioxide
Amazon Region
Biomass Burning Emissions
Green Oceans
Large Scale Experiments
Mass Concentration
Metropolitan Regions
Particulate Matter
Spatial Heterogeneity
Nitrogen Oxides
Benzene
Ethylbenzene
Hydrogen Sulfide
Meta Xylene
Nitrogen Dioxide
Ortho Xylene
Ozone
Para Xylene
Sulfur Dioxide
Toluene
Volatile Organic Compound
Btex
Concentration (composition)
Forest Fires
Hydrogen Sulfide
Nitrogen Dioxide
Ozone
Particulate Matter
Pollution Monitoring
Spatial Analysis
Sulfur Dioxide
Time Series
Volatile Organic Compound
Air Pollution
Air Quality
Amazonas
Biomass
Concentration (parameters)
Controlled Study
Forest
Forest Fires
Geographic Distribution
Particle Size
Particulate Matter
Priority Journal
Sampling
Seasonal Variation
Spatial Analysis
Time Series Analysis
Urban Area
Amazonas
Amazonia
Brasil
Manaus
Acesso em linha: https://repositorio.inpa.gov.br/handle/1/16742
id oai:repositorio:1-16742
recordtype dspace
spelling oai:repositorio:1-16742 Observations of particulate matter, NO2, SO2, O3, H2S and selected VOCs at a semi-urban environment in the Amazon region Paralovo, Sarah L. Barbosa, Cybelli G.G. Carneiro, Isabela P.S. Kurzlop, Priscila Borillo, Guilherme C. Schiochet, Maria Fernanda C. Godoi, Ana Flávia Locateli Yamamoto, Carlos Itsuo Souza, Rodrigo Augusto Ferreira de Andreoli, Rita Valéria Ribeiro, Igor Oliveira Manzi, Antônio Ocimar Kourtchev, Ivan N. Bustillos, José Oscar Viega Martin, Scot T. Godoi, Ricardo Henrique Moreton Air Quality Deforestation Drought Fog Sulfur Dioxide Amazon Region Biomass Burning Emissions Green Oceans Large Scale Experiments Mass Concentration Metropolitan Regions Particulate Matter Spatial Heterogeneity Nitrogen Oxides Benzene Ethylbenzene Hydrogen Sulfide Meta Xylene Nitrogen Dioxide Ortho Xylene Ozone Para Xylene Sulfur Dioxide Toluene Volatile Organic Compound Btex Concentration (composition) Forest Fires Hydrogen Sulfide Nitrogen Dioxide Ozone Particulate Matter Pollution Monitoring Spatial Analysis Sulfur Dioxide Time Series Volatile Organic Compound Air Pollution Air Quality Amazonas Biomass Concentration (parameters) Controlled Study Forest Forest Fires Geographic Distribution Particle Size Particulate Matter Priority Journal Sampling Seasonal Variation Spatial Analysis Time Series Analysis Urban Area Amazonas Amazonia Brasil Manaus This research aims to assess air quality in a transitional location between city and forest in the Amazon region. Located downwind of the Manaus metropolitan region, this study is part of the large-scale experiment GoAmazon2014/5. Based on their pollutant potential, inhalable particulate matter (PM2.5), nitrogen dioxide (NO2), sulfur dioxide (SO2), ozone (O3), hydrogen sulfide (H2S), benzene, toluene, ethylbenzene and meta-, orto-, para-xylene (BTEX) were selected for analysis. Sampling took place during the wet season (March–April 2014) and dry season (August–October 2014). The number of forest fires in the surroundings was higher during the dry wet season. Results show significant increase during the dry season in mass concentration (wet: <0.01–10 μg m−3; dry: 9.8–69 μg m−3), NH4 + soluble content (wet: 13–125 μg m−3; dry: 86–323 μg m−3) and K+ soluble content (wet: 11–168 μg m−3; dry 60–356 μg m−3) of the PM2.5, and O3 levels (wet: 1.4–14 μg m−3; dry: 1.0–40 μg m−3), indicating influence of biomass burning emissions. BTEX concentrations were low in both periods, but also increased during the dry season. A weak correlation in the time series of the organic and inorganic gaseous pollutants indicates a combination of different sources in both seasons and NO2 results suggest a spatial heterogeneity in gaseous pollutants levels beyond initial expectations. © 2018 2020-06-15T21:36:04Z 2020-06-15T21:36:04Z 2019 Artigo https://repositorio.inpa.gov.br/handle/1/16742 10.1016/j.scitotenv.2018.09.073 en Volume 650, Pags. 996-1006 Restrito Science of the Total Environment
institution Instituto Nacional de Pesquisas da Amazônia - Repositório Institucional
collection INPA-RI
language English
topic Air Quality
Deforestation
Drought
Fog
Sulfur Dioxide
Amazon Region
Biomass Burning Emissions
Green Oceans
Large Scale Experiments
Mass Concentration
Metropolitan Regions
Particulate Matter
Spatial Heterogeneity
Nitrogen Oxides
Benzene
Ethylbenzene
Hydrogen Sulfide
Meta Xylene
Nitrogen Dioxide
Ortho Xylene
Ozone
Para Xylene
Sulfur Dioxide
Toluene
Volatile Organic Compound
Btex
Concentration (composition)
Forest Fires
Hydrogen Sulfide
Nitrogen Dioxide
Ozone
Particulate Matter
Pollution Monitoring
Spatial Analysis
Sulfur Dioxide
Time Series
Volatile Organic Compound
Air Pollution
Air Quality
Amazonas
Biomass
Concentration (parameters)
Controlled Study
Forest
Forest Fires
Geographic Distribution
Particle Size
Particulate Matter
Priority Journal
Sampling
Seasonal Variation
Spatial Analysis
Time Series Analysis
Urban Area
Amazonas
Amazonia
Brasil
Manaus
spellingShingle Air Quality
Deforestation
Drought
Fog
Sulfur Dioxide
Amazon Region
Biomass Burning Emissions
Green Oceans
Large Scale Experiments
Mass Concentration
Metropolitan Regions
Particulate Matter
Spatial Heterogeneity
Nitrogen Oxides
Benzene
Ethylbenzene
Hydrogen Sulfide
Meta Xylene
Nitrogen Dioxide
Ortho Xylene
Ozone
Para Xylene
Sulfur Dioxide
Toluene
Volatile Organic Compound
Btex
Concentration (composition)
Forest Fires
Hydrogen Sulfide
Nitrogen Dioxide
Ozone
Particulate Matter
Pollution Monitoring
Spatial Analysis
Sulfur Dioxide
Time Series
Volatile Organic Compound
Air Pollution
Air Quality
Amazonas
Biomass
Concentration (parameters)
Controlled Study
Forest
Forest Fires
Geographic Distribution
Particle Size
Particulate Matter
Priority Journal
Sampling
Seasonal Variation
Spatial Analysis
Time Series Analysis
Urban Area
Amazonas
Amazonia
Brasil
Manaus
Paralovo, Sarah L.
Observations of particulate matter, NO2, SO2, O3, H2S and selected VOCs at a semi-urban environment in the Amazon region
topic_facet Air Quality
Deforestation
Drought
Fog
Sulfur Dioxide
Amazon Region
Biomass Burning Emissions
Green Oceans
Large Scale Experiments
Mass Concentration
Metropolitan Regions
Particulate Matter
Spatial Heterogeneity
Nitrogen Oxides
Benzene
Ethylbenzene
Hydrogen Sulfide
Meta Xylene
Nitrogen Dioxide
Ortho Xylene
Ozone
Para Xylene
Sulfur Dioxide
Toluene
Volatile Organic Compound
Btex
Concentration (composition)
Forest Fires
Hydrogen Sulfide
Nitrogen Dioxide
Ozone
Particulate Matter
Pollution Monitoring
Spatial Analysis
Sulfur Dioxide
Time Series
Volatile Organic Compound
Air Pollution
Air Quality
Amazonas
Biomass
Concentration (parameters)
Controlled Study
Forest
Forest Fires
Geographic Distribution
Particle Size
Particulate Matter
Priority Journal
Sampling
Seasonal Variation
Spatial Analysis
Time Series Analysis
Urban Area
Amazonas
Amazonia
Brasil
Manaus
description This research aims to assess air quality in a transitional location between city and forest in the Amazon region. Located downwind of the Manaus metropolitan region, this study is part of the large-scale experiment GoAmazon2014/5. Based on their pollutant potential, inhalable particulate matter (PM2.5), nitrogen dioxide (NO2), sulfur dioxide (SO2), ozone (O3), hydrogen sulfide (H2S), benzene, toluene, ethylbenzene and meta-, orto-, para-xylene (BTEX) were selected for analysis. Sampling took place during the wet season (March–April 2014) and dry season (August–October 2014). The number of forest fires in the surroundings was higher during the dry wet season. Results show significant increase during the dry season in mass concentration (wet: <0.01–10 μg m−3; dry: 9.8–69 μg m−3), NH4 + soluble content (wet: 13–125 μg m−3; dry: 86–323 μg m−3) and K+ soluble content (wet: 11–168 μg m−3; dry 60–356 μg m−3) of the PM2.5, and O3 levels (wet: 1.4–14 μg m−3; dry: 1.0–40 μg m−3), indicating influence of biomass burning emissions. BTEX concentrations were low in both periods, but also increased during the dry season. A weak correlation in the time series of the organic and inorganic gaseous pollutants indicates a combination of different sources in both seasons and NO2 results suggest a spatial heterogeneity in gaseous pollutants levels beyond initial expectations. © 2018
format Artigo
author Paralovo, Sarah L.
author2 Barbosa, Cybelli G.G.
Carneiro, Isabela P.S.
Kurzlop, Priscila
Borillo, Guilherme C.
Schiochet, Maria Fernanda C.
Godoi, Ana Flávia Locateli
Yamamoto, Carlos Itsuo
Souza, Rodrigo Augusto Ferreira de
Andreoli, Rita Valéria
Ribeiro, Igor Oliveira
Manzi, Antônio Ocimar
Kourtchev, Ivan N.
Bustillos, José Oscar Viega
Martin, Scot T.
Godoi, Ricardo Henrique Moreton
author2Str Barbosa, Cybelli G.G.
Carneiro, Isabela P.S.
Kurzlop, Priscila
Borillo, Guilherme C.
Schiochet, Maria Fernanda C.
Godoi, Ana Flávia Locateli
Yamamoto, Carlos Itsuo
Souza, Rodrigo Augusto Ferreira de
Andreoli, Rita Valéria
Ribeiro, Igor Oliveira
Manzi, Antônio Ocimar
Kourtchev, Ivan N.
Bustillos, José Oscar Viega
Martin, Scot T.
Godoi, Ricardo Henrique Moreton
title Observations of particulate matter, NO2, SO2, O3, H2S and selected VOCs at a semi-urban environment in the Amazon region
title_short Observations of particulate matter, NO2, SO2, O3, H2S and selected VOCs at a semi-urban environment in the Amazon region
title_full Observations of particulate matter, NO2, SO2, O3, H2S and selected VOCs at a semi-urban environment in the Amazon region
title_fullStr Observations of particulate matter, NO2, SO2, O3, H2S and selected VOCs at a semi-urban environment in the Amazon region
title_full_unstemmed Observations of particulate matter, NO2, SO2, O3, H2S and selected VOCs at a semi-urban environment in the Amazon region
title_sort observations of particulate matter, no2, so2, o3, h2s and selected vocs at a semi-urban environment in the amazon region
publisher Science of the Total Environment
publishDate 2020
url https://repositorio.inpa.gov.br/handle/1/16742
_version_ 1787145267503431680
score 11.755432

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