Artigo

Impact of the biomass burning on methane variability during dry years in the Amazon measured from an aircraft and the AIRS sensor

The present study examines the spatiotemporal variability and interrelations of the atmospheric methane (CH4), carbon monoxide (CO) and biomass burning (BB) outbreaks retrieved from satellite data over the Amazon region during the 2003–2012 period. In the climatological context, we found consistent...

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Autor principal: Ribeiro, Igor Oliveira
Outros Autores: Andreoli, Rita Valéria, Kayano, Mary Toshie, Sousa, Thaiane Rodrigues de, Medeiros, Adan Sady S., Guimarães, Patrícia Costa, Barbosa, Cybelli G.G., Godoi, Ricardo Henrique Moreton, Martin, Scot T., Souza, Rodrigo Augusto Ferreira de
Grau: Artigo
Idioma: English
Publicado em: Science of the Total Environment 2020
Assuntos:
Air Pollution
Atmospheric Chemistry
Carbon
Carbon Monoxide
Climate Change
Deforestation
Greenhouse Gases
Methane
Remote Sensing
Aircraft Measurement
Atmospheric Methanes
Biomass-burning
Climate
Interannual Climate Variability
Interannual Variability
Lower Troposphere
Spatiotemporal Variability
Drought
Carbon Monoxide
Methane
Airborne Survey
Airs
Annual Variation
Atmospheric Pollution
Biomass-burning
Climate Variation
Drought
Greenhouse Gas
Methane
Remote Sensing
Spatial Variation
Temporal Variation
Troposphere
Aircraft
Biomass
Climate Change
Combustion
Deforestation
Drought
Priority Journal
Season
Spatio-temporal Analysis
Amazonia
Acesso em linha: https://repositorio.inpa.gov.br/handle/1/16925
id oai:repositorio:1-16925
recordtype dspace
spelling oai:repositorio:1-16925 Impact of the biomass burning on methane variability during dry years in the Amazon measured from an aircraft and the AIRS sensor Ribeiro, Igor Oliveira Andreoli, Rita Valéria Kayano, Mary Toshie Sousa, Thaiane Rodrigues de Medeiros, Adan Sady S. Guimarães, Patrícia Costa Barbosa, Cybelli G.G. Godoi, Ricardo Henrique Moreton Martin, Scot T. Souza, Rodrigo Augusto Ferreira de Air Pollution Atmospheric Chemistry Carbon Carbon Monoxide Climate Change Deforestation Greenhouse Gases Methane Remote Sensing Aircraft Measurement Atmospheric Methanes Biomass-burning Climate Interannual Climate Variability Interannual Variability Lower Troposphere Spatiotemporal Variability Drought Carbon Monoxide Methane Airborne Survey Airs Annual Variation Atmospheric Pollution Biomass-burning Climate Variation Drought Greenhouse Gas Methane Remote Sensing Spatial Variation Temporal Variation Troposphere Aircraft Biomass Climate Change Combustion Deforestation Drought Priority Journal Season Spatio-temporal Analysis Amazonia The present study examines the spatiotemporal variability and interrelations of the atmospheric methane (CH4), carbon monoxide (CO) and biomass burning (BB) outbreaks retrieved from satellite data over the Amazon region during the 2003–2012 period. In the climatological context, we found consistent seasonal cycles of BB outbreaks and CO in the Amazon, both variables showing a peak during the dry season. The dominant CO variability mode features the largest positive loadings in the southern Amazon, and describes the interannual CO variations related to BB outbreaks along the deforestation arc during the dry season. In line with CO variability and BB outbreaks, the results show strong correspondence with the spatiotemporal variability of CH4 in the southern Amazon during years of intense drought. Indeed, the areas with the largest positive CH4 anomalies in southern Amazon overlap the areas with high BB outbreaks and positive CO anomalies. The analyses also showed that high (low) BB outbreaks in the southern Amazon occur during dry (wet) years. In consequence, the interannual climate variability modulates the BB outbreaks in the southern Amazon, which in turn have considerable impacts on CO and CH4 interannual variability in the region. Therefore, the BB outbreaks might play a major role in modulating the CH4 and CO variations, at least in the southern Amazon. This study also provides a comparison between the estimate of satellite and aircraft measurements for the CH4 over the southern Amazon, which indicates relatively small differences from the aircraft measurements in the lower troposphere, with errors ranging from 0.18% to 1.76%. © 2017 Elsevier B.V. 2020-06-15T21:37:22Z 2020-06-15T21:37:22Z 2018 Artigo https://repositorio.inpa.gov.br/handle/1/16925 10.1016/j.scitotenv.2017.12.147 en Volume 624, Pags. 509-516 Restrito Science of the Total Environment
institution Instituto Nacional de Pesquisas da Amazônia - Repositório Institucional
collection INPA-RI
language English
topic Air Pollution
Atmospheric Chemistry
Carbon
Carbon Monoxide
Climate Change
Deforestation
Greenhouse Gases
Methane
Remote Sensing
Aircraft Measurement
Atmospheric Methanes
Biomass-burning
Climate
Interannual Climate Variability
Interannual Variability
Lower Troposphere
Spatiotemporal Variability
Drought
Carbon Monoxide
Methane
Airborne Survey
Airs
Annual Variation
Atmospheric Pollution
Biomass-burning
Climate Variation
Drought
Greenhouse Gas
Methane
Remote Sensing
Spatial Variation
Temporal Variation
Troposphere
Aircraft
Biomass
Climate Change
Combustion
Deforestation
Drought
Priority Journal
Season
Spatio-temporal Analysis
Amazonia
spellingShingle Air Pollution
Atmospheric Chemistry
Carbon
Carbon Monoxide
Climate Change
Deforestation
Greenhouse Gases
Methane
Remote Sensing
Aircraft Measurement
Atmospheric Methanes
Biomass-burning
Climate
Interannual Climate Variability
Interannual Variability
Lower Troposphere
Spatiotemporal Variability
Drought
Carbon Monoxide
Methane
Airborne Survey
Airs
Annual Variation
Atmospheric Pollution
Biomass-burning
Climate Variation
Drought
Greenhouse Gas
Methane
Remote Sensing
Spatial Variation
Temporal Variation
Troposphere
Aircraft
Biomass
Climate Change
Combustion
Deforestation
Drought
Priority Journal
Season
Spatio-temporal Analysis
Amazonia
Ribeiro, Igor Oliveira
Impact of the biomass burning on methane variability during dry years in the Amazon measured from an aircraft and the AIRS sensor
topic_facet Air Pollution
Atmospheric Chemistry
Carbon
Carbon Monoxide
Climate Change
Deforestation
Greenhouse Gases
Methane
Remote Sensing
Aircraft Measurement
Atmospheric Methanes
Biomass-burning
Climate
Interannual Climate Variability
Interannual Variability
Lower Troposphere
Spatiotemporal Variability
Drought
Carbon Monoxide
Methane
Airborne Survey
Airs
Annual Variation
Atmospheric Pollution
Biomass-burning
Climate Variation
Drought
Greenhouse Gas
Methane
Remote Sensing
Spatial Variation
Temporal Variation
Troposphere
Aircraft
Biomass
Climate Change
Combustion
Deforestation
Drought
Priority Journal
Season
Spatio-temporal Analysis
Amazonia
description The present study examines the spatiotemporal variability and interrelations of the atmospheric methane (CH4), carbon monoxide (CO) and biomass burning (BB) outbreaks retrieved from satellite data over the Amazon region during the 2003–2012 period. In the climatological context, we found consistent seasonal cycles of BB outbreaks and CO in the Amazon, both variables showing a peak during the dry season. The dominant CO variability mode features the largest positive loadings in the southern Amazon, and describes the interannual CO variations related to BB outbreaks along the deforestation arc during the dry season. In line with CO variability and BB outbreaks, the results show strong correspondence with the spatiotemporal variability of CH4 in the southern Amazon during years of intense drought. Indeed, the areas with the largest positive CH4 anomalies in southern Amazon overlap the areas with high BB outbreaks and positive CO anomalies. The analyses also showed that high (low) BB outbreaks in the southern Amazon occur during dry (wet) years. In consequence, the interannual climate variability modulates the BB outbreaks in the southern Amazon, which in turn have considerable impacts on CO and CH4 interannual variability in the region. Therefore, the BB outbreaks might play a major role in modulating the CH4 and CO variations, at least in the southern Amazon. This study also provides a comparison between the estimate of satellite and aircraft measurements for the CH4 over the southern Amazon, which indicates relatively small differences from the aircraft measurements in the lower troposphere, with errors ranging from 0.18% to 1.76%. © 2017 Elsevier B.V.
format Artigo
author Ribeiro, Igor Oliveira
author2 Andreoli, Rita Valéria
Kayano, Mary Toshie
Sousa, Thaiane Rodrigues de
Medeiros, Adan Sady S.
Guimarães, Patrícia Costa
Barbosa, Cybelli G.G.
Godoi, Ricardo Henrique Moreton
Martin, Scot T.
Souza, Rodrigo Augusto Ferreira de
author2Str Andreoli, Rita Valéria
Kayano, Mary Toshie
Sousa, Thaiane Rodrigues de
Medeiros, Adan Sady S.
Guimarães, Patrícia Costa
Barbosa, Cybelli G.G.
Godoi, Ricardo Henrique Moreton
Martin, Scot T.
Souza, Rodrigo Augusto Ferreira de
title Impact of the biomass burning on methane variability during dry years in the Amazon measured from an aircraft and the AIRS sensor
title_short Impact of the biomass burning on methane variability during dry years in the Amazon measured from an aircraft and the AIRS sensor
title_full Impact of the biomass burning on methane variability during dry years in the Amazon measured from an aircraft and the AIRS sensor
title_fullStr Impact of the biomass burning on methane variability during dry years in the Amazon measured from an aircraft and the AIRS sensor
title_full_unstemmed Impact of the biomass burning on methane variability during dry years in the Amazon measured from an aircraft and the AIRS sensor
title_sort impact of the biomass burning on methane variability during dry years in the amazon measured from an aircraft and the airs sensor
publisher Science of the Total Environment
publishDate 2020
url https://repositorio.inpa.gov.br/handle/1/16925
_version_ 1787141319539294208
score 11.755432

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