Microphysical and radiative effects of aerosols on warm clouds during the Amazon biomass burning season as observed by MODIS: impacts of water vapor and land cover

Atmospheric Chemistry and Physics (ACP), Vol. 11. N° 7. Ten Hoeve J.E.; Remer L.A.; Jacobson M.Z. - Copernicus GmbH, 2011

Aerosol, cloud, water vapor, and temperature profile data from the Moderate Resolution Imaging Spectroradiometer (MODIS) are utilized to examine the impact of aerosols on clouds during the Amazonian biomass burning season in Rondônia, Brazil. It is found that increasing background column water vapor (CWV) throughout this transition season between the Amazon dry and wet seasons likely exerts a strong effect on cloud properties. As a result, proper analysis of aerosol-cloud relationships requires that data be stratified by CWV to account better for the influence of background meteorological vari ...

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Microphysical and radiative effects of aerosols on warm clouds during the Amazon biomass burning season as observed by MODIS: impacts of water vapor and land cover

  Available online: http://dx.doi.org/10.5194/acp-11-3021-2011

J.E. Ten Hoeve ; L.A. Remer ; M.Z. Jacobson

in Atmospheric Chemistry and Physics (ACP) > Vol. 11. N° 7 [04/01/2011] . - p.3021-3036

Aerosol, cloud, water vapor, and temperature profile data from the Moderate Resolution Imaging Spectroradiometer (MODIS) are utilized to examine the impact of aerosols on clouds during the Amazonian biomass burning season in Rondônia, Brazil. It is found that increasing background column water vapor (CWV) throughout this transition season between the Amazon dry and wet seasons likely exerts a strong effect on cloud properties. As a result, proper analysis of aerosol-cloud relationships requires that data be stratified by CWV to account better for the influence of background meteorological variation. Many previous studies of aerosol-cloud interactions over Amazonia have ignored the systematic changes to meteorological factors during the transition season, leading to possible misinterpretation of their results. Cloud fraction (CF) is shown to increase or remain constant with aerosol optical depth (AOD), depending on the value of CWV, whereas the relationship between cloud optical depth (COD) and AOD is quite different. COD increases with AOD until AOD ~ 0.3, which is assumed to be due to the first indirect (microphysical) effect. At higher values of AOD, COD is found to decrease with increasing AOD, which may be due to: (1) the inhibition of cloud development by absorbing aerosols (radiative effect/semi-direct effect) and/or (2) a possible retrieval artifact in which the measured reflectance in the visible is less than expected from a cloud top either from the darkening of clouds through the addition of carbonaceous biomass burning aerosols within or above clouds or subpixel dark surface contamination in the measured cloud reflectance. If (1) is a contributing mechanism, as we suspect, then an empirically-derived increasing function between cloud drop number and aerosol concentration, assumed in a majority of global climate models, is inaccurate since these models do not include treatment of aerosol absorption in and around clouds. The relationship between aerosols and both CWV and clouds over varying land surface types is also analyzed. The study finds that the difference in CWV between forested and deforested land is not correlated with aerosol loading, supporting the assumption that temporal variation of CWV is primarily a function of the larger-scale meteorology. However, a difference in the response of CF to increasing AOD is observed between forested and deforested land. This suggests that dissimilarities between other meteorological factors, such as atmospheric stability, may have an impact on aerosol-cloud correlations between different land cover types.

Language(s): English

Format: Digital (Free)

Tags: Aerosols ; Amazon ; Biomass ; Warm cloud ; Observations ; Water vapour ; Region III - South America Add tag

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Sources of carbonaceous aerosol in the Amazon basin

Atmospheric Chemistry and Physics (ACP), Vol. 11. N° 3. Gilardoni S.; Vignati E.; Marmer E.; et al. - Copernicus GmbH, 2011

The quantification of sources of carbonaceous aerosol is important to understand their atmospheric concentrations and regulating processes and to study possible effects on climate and air quality, in addition to develop mitigation strategies.

In the framework of the European Integrated Project on Aerosol Cloud Climate Interactions (EUCAARI) fine (Dp < 2.5 μm) and coarse (2.5 μm < Dp <10 μm) aerosol particles were sampled from February to June (wet season) and from August to September (dry season) 2008 in the central Amazon basin. The mass of fine particles averaged 2.4 μg m−3 duri ...

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Sources of carbonaceous aerosol in the Amazon basin

  Available online: http://dx.doi.org/10.5194/acp-11-2747-2011

S. Gilardoni ; E. Vignati ; E. Marmer ; F. Cavalli ; C. Belis ; V. Gianelle ; A. Loureiro ; P. Artaxo

in Atmospheric Chemistry and Physics (ACP) > Vol. 11. N° 3 [03/01/2011] . - p.2747-2764

The quantification of sources of carbonaceous aerosol is important to understand their atmospheric concentrations and regulating processes and to study possible effects on climate and air quality, in addition to develop mitigation strategies.

In the framework of the European Integrated Project on Aerosol Cloud Climate Interactions (EUCAARI) fine (Dp < 2.5 μm) and coarse (2.5 μm < Dp <10 μm) aerosol particles were sampled from February to June (wet season) and from August to September (dry season) 2008 in the central Amazon basin. The mass of fine particles averaged 2.4 μg m−3 during the wet season and 4.2 μg m−3 during the dry season. The average coarse aerosol mass concentration during wet and dry periods was 7.9 and 7.6 μg m−3, respectively. The overall chemical composition of fine and coarse mass did not show any seasonality with the largest fraction of fine and coarse aerosol mass explained by organic carbon (OC); the average OC to mass ratio was 0.4 and 0.6 in fine and coarse aerosol modes, respectively. The mass absorbing cross section of soot was determined by comparison of elemental carbon and light absorption coefficient measurements and it was equal to 4.7 m2 g−1 at 637 nm. Carbon aerosol sources were identified by Positive Matrix Factorization (PMF) analysis of thermograms: 44% of fine total carbon mass was assigned to biomass burning, 43% to secondary organic aerosol (SOA), and 13% to volatile species that are difficult to apportion. In the coarse mode, primary biogenic aerosol particles (PBAP) dominated the carbonaceous aerosol mass. The results confirmed the importance of PBAP in forested areas.

The source apportionment results were employed to evaluate the ability of global chemistry transport models to simulate carbonaceous aerosol sources in a regional tropical background site. The comparison showed an overestimation of elemental carbon (EC) by the TM5 model during the dry season and OC both during the dry and wet periods. The overestimation was likely due to the overestimation of biomass burning emission inventories and SOA production over tropical areas.

Language(s): English

Format: Digital (Free)

Tags: Aerosols ; Amazon ; Carbon dioxide (CO2) ; Observations ; Air quality ; Region III - South America Add tag

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From forest to fork : how cattle, soy and sugar are destroying Brazil’s forests and damaging the climate. summary report

Schlesinger Sergio; Friends of the Earth Europe (FoEE); European Commission - FoEE, 2010

Brussels, January 25, 2011 – Growing demand for meat, animal feeds and agrofuels in Europe is contributing to the continued destruction of the Amazon and Cerrado habitats in Brazil, reveals a new report launched today by Friends of the Earth Europe.

The research comes at a time when Europe is debating the future of farming. [1] Friends of the Earth Europe is calling for the reform of the Common Agricultural Policy to reduce the EU’s dependence on imported soy animal feeds and meat.

English, Spanish

 From forest to fork: how cattle, soy and sugar are destroying Brazil’s forests and damaging the climate. summary report

  Available online: http://www.foeeurope.org/agriculture/FromForestToFork.pdf

Sergio Schlesinger ; Friends of the Earth Europe ; European Commission

Published by: FoEE ; 2010

Brussels, January 25, 2011 – Growing demand for meat, animal feeds and agrofuels in Europe is contributing to the continued destruction of the Amazon and Cerrado habitats in Brazil, reveals a new report launched today by Friends of the Earth Europe.

The research comes at a time when Europe is debating the future of farming. [1] Friends of the Earth Europe is calling for the reform of the Common Agricultural Policy to reduce the EU’s dependence on imported soy animal feeds and meat.

Language(s): English; Other Languages: Spanish

Format: Digital (Free) (ill., charts)

Tags: Environment and landscape ; Environmental Protection ; Forest ; Amazon ; Brazil Add tag

Translated under the title

 De la selva al plato : O cómo el ganado, la soja y el azúcar devastan los bosques de Brasil y perjudican el clima. Informe ejecutivo (2010)  

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De la selva al plato : O cómo el ganado, la soja y el azúcar devastan los bosques de Brasil y perjudican el clima. Informe ejecutivo

Schlesinger Sergio; Friends of the Earth Europe (FoEE); European Commission - FoEE, 2010

Spanish, English

 De la selva al plato: O cómo el ganado, la soja y el azúcar devastan los bosques de Brasil y perjudican el clima. Informe ejecutivo

  Available online: http://www.foeeurope.org/sites/default/files/publications/Spanish%20FOEE%20From% [...]

Sergio Schlesinger ; Friends of the Earth Europe ; European Commission

Published by: FoEE ; 2010

Language(s): Spanish; Other Languages: English

Format: Digital (Free) (ill., charts)

Tags: Environment and landscape ; Environmental Protection ; Forest ; Amazon ; Brazil Add tag

Translation from

 From forest to fork : how cattle, soy and sugar are destroying Brazil’s forests and damaging the climate. summary report (2010)  

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The Amazon Rain Forest and Climate Change

The University Corporation for Atmospheric Research, 2009

This module discusses global climate change that is occurring largely because of greenhouse gases emitted by human activities, and in particular the impact that tropical deforestation plays in the climate system. It also covers signs of climate change, the current thinking on future changes, and international agreements that are attempting to minimize the effects of climate change. The United Nations Collaborative Programme on Reducing Emissions from Deforestation and Forest Degradation in Developing Countries (UN-REDD Programme) is also discussed.

English

 The Amazon Rain Forest and Climate Change

 Available online: https://www.meted.ucar.edu/training_module.php?id=556

Published by: The University Corporation for Atmospheric Research ; 2009

This module discusses global climate change that is occurring largely because of greenhouse gases emitted by human activities, and in particular the impact that tropical deforestation plays in the climate system. It also covers signs of climate change, the current thinking on future changes, and international agreements that are attempting to minimize the effects of climate change. The United Nations Collaborative Programme on Reducing Emissions from Deforestation and Forest Degradation in Developing Countries (UN-REDD Programme) is also discussed.

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Language(s): English

Format: Digital (Standard Copyright)

Tags: Climate change ; Drought ; Meteorology ; Precipitation ; Global warming ; Kyoto Protocol ; Climate services ; Climate model ; Afforestation ; Deforestation ; Lesson/ Tutorial ; Amazon ; Brazil ; Competencies for Provision of Climate Services Add tag

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