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(Referência obtida automaticamente do Web of Science, por meio da informação sobre o financiamento pela FAPESP e o número do processo correspondente, incluída na publicação pelos autores.)

Ground-based aerosol characterization during the South American Biomass Burning Analysis (SAMBBA) field experiment

Texto completo
Autor(es):
Brito, J. [1] ; Rizzo, L. V. [2] ; Morgan, W. T. [3] ; Coe, H. [3] ; Johnson, B. [4] ; Haywood, J. [4, 5] ; Longo, K. [6] ; Freitas, S. [6] ; Andreae, M. O. [7] ; Artaxo, P. [1]
Número total de Autores: 10
Afiliação do(s) autor(es):
[1] Univ Sao Paulo, Inst Phys, Sao Paulo - Brazil
[2] Univ Fed Sao Paulo, Dept Earth & Exact Sci, Diadema - Brazil
[3] Univ Manchester, Sch Earth Atmospher & Environm Sci, Ctr Atmospher Sci, Manchester, Lancs - England
[4] UK Met Off, Exeter, Devon - England
[5] Univ Exeter, Coll Engn Maths & Phys Sci, Exeter, Devon - England
[6] Natl Inst Space Res INPE, Sao Jose Dos Campos - Brazil
[7] Max Planck Inst Chem, Biogeochem Dept, D-55128 Mainz - Germany
Número total de Afiliações: 7
Tipo de documento: Artigo Científico
Fonte: Atmospheric Chemistry and Physics; v. 14, n. 22, p. 12069-12083, 2014.
Citações Web of Science: 44
Resumo

This paper investigates the physical and chemical characteristics of aerosols at ground level at a site heavily impacted by biomass burning. The site is located near Porto Velho, Rondonia, in the southwestern part of the Brazilian Amazon rainforest, and was selected for the deployment of a large suite of instruments, among them an Aerosol Chemical Speciation Monitor. Our measurements were made during the South American Biomass Burning Analysis (SAMBBA) field experiment, which consisted of a combination of aircraft and ground-based measurements over Brazil, aimed to investigate the impacts of biomass burning emissions on climate, air quality, and numerical weather prediction over South America. The campaign took place during the dry season and the transition to the wet season in September/October 2012. During most of the campaign, the site was impacted by regional biomass burning pollution (average CO mixing ratio of 0.6 ppm), occasionally superimposed by intense (up to 2 ppm of CO), freshly emitted biomass burning plumes. Aerosol number concentrations ranged from similar to 1000 cm(-3) to peaks of up to 35 000 cm(-3) (during biomass burning (BB) events, corresponding to an average submicron mass mean concentrations of 13.7 mu g m(-3) and peak concentrations close to 100 mu g m-3. Organic aerosol strongly dominated the submicron non-refractory composition, with an average concen-tration of 11.4 mu g m(-3). The inorganic species, NH4, SO4, NO3, and Cl, were observed, on average, at concentrations of 0.44, 0.34, 0.19, and 0.01 mu g m(-3), respectively. Equivalent black carbon (BCe) ranged from 0.2 to 5.5 mu g m(-3), with an average concentration of 1.3 mu g m(-3). During BB peaks, organics accounted for over 90% of total mass (submicron non-refractory plus BCe), among the highest values described in the literature. We examined the ageing of biomass burning organic aerosol (BBOA) using the changes in the H : C and O : C ratios, and found that throughout most of the aerosol processing (O : C congruent to D 0 : 25 to O : C congruent to D 0 : 6), no remarkable change is observed in the H : C ratio (similar to 1 : 35). Such a result contrasts strongly with previous observations of chemical ageing of both urban and Amazonian biogenic aerosols. At higher levels of processing (O : C > 0 : 6), the H : C ratio changes with a H : C / O : C slope of -0.5, possibly due to the development of a combination of BB (H : C / O : C slope D 0) and biogenic (H : C / O : C slope D 1) organic aerosol (OA). An analysis of the Delta OA / Delta CO mass ratios yields very little enhancement in the OA loading with atmospheric processing, consistent with previous observations. These results indicate that negligible secondary organic aerosol (SOA) formation occurs throughout the observed BB plume processing, or that SOA formation is almost entirely balanced by OA volatilization. Positive matrix factorization (PMF) of the organic aerosol spectra resulted in three factors: fresh BBOA, aged BBOA, and low-volatility oxygenated organic aerosol (LV-OOA). Analysis of the diurnal patterns and correlation with external markers indicates that during the first part of the campaign, OA concentrations are impacted by local fire plumes with some chemical processing occurring in the near-surface layer. During the second part of the campaign, long-range transport of BB plumes above the surface layer, as well as potential SOAs formed aloft, dominates OA concentrations at our ground-based sampling site. This manuscript describes the first ground-based deployment of the aerosol mass spectrometry at a site heavily impacted by biomass burning in the Amazon region, allowing a deeper understanding of aerosol life cycle in this important ecosystem. (AU)

Processo FAPESP: 13/05014-0 - GoAmazon: interação da pluma urbana de Manaus com emissões biogênicas da Floresta Amazônica
Beneficiário:Paulo Eduardo Artaxo Netto
Linha de fomento: Auxílio à Pesquisa - Programa de Pesquisa sobre Mudanças Climáticas Globais - Temático
Processo FAPESP: 12/14437-9 - Estudo de propriedades físico-químicas de aerossóis de queimadas e forçante radiativa no experimento SAMBBA - the South American Biomass Burning Analysis
Beneficiário:Paulo Eduardo Artaxo Netto
Linha de fomento: Auxílio à Pesquisa - Programa de Pesquisa sobre Mudanças Climáticas Globais - Regular