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Understanding aerosol composition in an inter-Andean valley impacted by sugarcane intensive agriculture and urban emissions
Atmospheric Chemistry and Physics ( IF 5.2 ) Pub Date : 2021-08-03 , DOI: 10.5194/acp-2021-601 Lady Mateus-Fontecha , Angela Vargas-Burbano , Rodrigo Jimenez , Nestor Y. Rojas , German Rueda-Saa , Dominik van Pinxteren , Manuela van Pinxteren , Khanneh Wadinga Fomba , Hartmut Herrmann
Atmospheric Chemistry and Physics ( IF 5.2 ) Pub Date : 2021-08-03 , DOI: 10.5194/acp-2021-601 Lady Mateus-Fontecha , Angela Vargas-Burbano , Rodrigo Jimenez , Nestor Y. Rojas , German Rueda-Saa , Dominik van Pinxteren , Manuela van Pinxteren , Khanneh Wadinga Fomba , Hartmut Herrmann
Abstract. Agro-industrial areas are frequently affected by various sources of atmospheric pollutants that negatively impact public health and ecosystems. However, air quality in these areas is infrequently monitored because of their lower population density compared to large cities, especially in developing countries. The Cauca River Valley (CRV) is an agro-industrial region in Southwest Colombia, where a large fraction of the area is devoted to sugarcane and derivatives production. CRV is also affected by road traffic and industrial emissions. This study aims to elucidate the chemical composition of particulate matter fine mode (PM2.5) and to identify the main pollutant sources before source attribution. For this, a sampling campaign was carried out at a representative site of the CRV region, where daily-averaged mass concentrations of PM2.5 and the concentrations of water-soluble ions, trace metals, organic and elemental carbon, and various fractions of organic compounds (carbohydrates, n-alkanes, and polycyclic aromatic hydrocarbons – PAHs) were measured. Mean PM2.5 was 14.38 ± 4.35 ug m−3, and the most abundant constituent was organic material (52.99 % ± 17.79 %), followed by ammonium sulfate (16.12 % ± 3.98 %), and elemental carbon (6.95 % ± 2.52 %), which indicates secondary aerosol formation and incomplete combustion. Levoglucosan was present in all samples with a mean concentration of (113.8 ± 147.2 ng m−3) revealing biomass burning as a persistent source. The diagnostic ratios applied to organic compounds revealed the influence of petrogenic and pyrogenic sources. Principal component analysis identified the influence of traffic-generated road dust, secondary aerosol formation, gasoline and diesel combustion vehicle exhaust, vegetative detritus, and resuspended agriculture soil. However, no single component was dominant nor explained the CRV PM2.5 chemical species variance. Many components had equally important roles instead. Likewise, sugarcane pre-harvest burning, a frequent activity in CRV, was not identified as an independent component. This aerosol and trace gas source contributed to various components and was correlated to the formation of secondary aerosols.
更新日期:2021-08-03
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