Antony G. Wiatr scite author profile

Antony G. Wiatr

2Publications

43Citation Statements Received

22Citation Statements Given

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Affiliations

University of Birmingham, Universidade Estadual Paulista (Unesp), University of Cambridge

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Influence of intensive agriculture on dry deposition of aerosol nutrients

Allen

Cardoso

Wiatr

et al. 2010

J. Braz. Chem. Soc.

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É apresentado um modelo para quantificação de fontes e deposição de espécies nutrientes que contribuem com a formação e concentração do aerossol atmosférico. Para este procedimento foram utilizadas ferramentas estatísticas como: a análise de componentes principais (PCA) e análise de regressão linear múltipla (MLRA) associadas a modelos de deposição de partículas segregadas por tamanho. Em região rural do sudeste do Brasil, a queima de biomassa, produtos de reações secundárias, e re-suspensão de poeira do solo possibilitaram explicar 43%, 31% e 21% da massa do MP 2.5 , respectivamente. A re-suspensão de poeira e a queima de biomassa contribuíram com 22% e 19%, respectivamente, da massa do MP 10 . A re-suspensão possibilitou explicar cerca da metade da massa das partículas grossas. Cerca de 40% de NO 3 --N, 20% de fósforo e 55% de potássio depositados tem origem nas emissões relacionadas com a agricultura. Atualmente a deposição sobre a floresta tropical é aumentada pelos fatores de 12.2 (N), 6.2 (P) e 2.6 (K) com relação a aqueles que existiam nas condições naturais do passado.A procedure is presented for quantification of sources contributing to atmospheric aerosol chemical nutrient concentrations and dry deposition fluxes. Source apportionment using principal component analysis (PCA) and multiple linear regression analysis (MLRA) was followed by application of a size-segregated particle dry deposition model. In a rural region of southeast Brazil, biomass burning, products of secondary reactions, and soil dust re-suspension explained 43%, 31% and 21% of PM 2.5 mass, respectively. Re-suspension and biomass burning contributed 22% and 19%, respectively, to PM 10 mass, and re-suspension accounted for approximately half of the mass of coarse particles. At least 40% of NO 3 --N, 20% of phosphorus and 55% of potassium deposited originated from agriculture-related emissions. Deposition to tropical forest is currently higher than the minimum under natural conditions by factors of 12.2 (N), 6.2 (P) and 2.6 (K).

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NO₂ Emissions from Agricultural Burning in São Paulo, Brazil

Oppenheimer

Tsanev

Allen

et al. 2004

Environ. Sci. Technol.

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We report here on the application of a compact ultraviolet spectrometer to measurement of NO2 emissions from sugar cane field burns in São Paulo, Brazil. The time-resolved NO2 emission from a 10 ha plot peaked at about 240 g (NO2) s(-1), and amounted to a total yield of approximately 50 kg of N, or about 0.5 g (N) m(-2). Emission of N as NOx (i.e., NO + NO2) was estimated at 2.5 g (N) m(-2), equivalent to 30% of applied fertilizer nitrogen. The corresponding annual emission of NOx nitrogen from São Paulo State sugar cane burning was >45 Gg N. In contrast to mechanized harvesting, which does not require prior burning of the crop, manual harvesting with burning acts to recycle nitrogen into surface soils and ecosystems.

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Antony G. Wiatr

Influence of intensive agriculture on dry deposition of aerosol nutrients

NO₂ Emissions from Agricultural Burning in São Paulo, Brazil

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Antony G. Wiatr

Influence of intensive agriculture on dry deposition of aerosol nutrients

NO2 Emissions from Agricultural Burning in São Paulo, Brazil

Contact Info

Product

Resources

About

NO₂ Emissions from Agricultural Burning in São Paulo, Brazil