Abstract
Elemental characterization of fine particulate matter was undertaken at schools and residences in three low income neighborhoods in Quito, Ecuador. The three zones were located in the northern (Cotocollao), south central (El Camal), and south east (Los Chillos) neighborhoods and were classified as zones 1–3, respectively. Forty elements were quantified via ICP-MS analysis. Amongst the geogenic elements, the concentration of Si was the most abundant followed by S, Al, and Ca. Elements with predominantly anthropogenic sources such as Zn, V, and Ni were higher in zone 3 school followed by zone 2 and zone 1 schools. Enrichment factors were calculated to study the role of crustal sources in the elemental concentrations. Geogenic elements, except K, all had values <10 and anthropogenic elements such as Ni, V, Zn, Pb, As, Cr had >10. Principal Component Analysis suggested that Ni and V concentrations were strongly attributable to pet coke and heavy oil combustion. Strong associations between As and Pb could be attributed to traffic and other industrial emissions. Resuspended dust, soil erosion, vehicular emissions (tailpipe, brake and tire wear, and engine abrasion), pet coke, heavy oil combustion, and heavy industrial operations were major contributors to air pollution.
Highlights
Air pollution in urban environments is a major cause of health concern, especially for sensitive populations like young school children
Amongst the anthropogenic subgroup elements, the concentrations of Zn were the highest followed by V across the three zones for the schools and residences both indoors and outdoors
We present findings from the elemental characterization of PM2.5 at schools and residences impacted by different traffic densities at three low income neighborhoods in Quito, Ecuador
Summary
Air pollution in urban environments is a major cause of health concern, especially for sensitive populations like young school children. Fine particulate matter (PM2.5 ), i.e., particles less than 2.5 μm in aerodynamic diameter, is a major component of urban air pollution and has the potential to reach the small airways and alveoli-gas exchange portion of the lungs. PM2.5 is a complex and heterogeneous mix of constituents comprising of solid and liquid phase aerosols suspended in air [1], exhibiting a wide. Res. Public Health 2017, 14, 674; doi:10.3390/ijerph14070674 www.mdpi.com/journal/ijerph
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