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Katrina Binaku Timothy O’Brien Martina Schmeling Tinamarie Fosco 《Environmental monitoring and assessment》2013,185(9):7295-7308
Both canonical correlation analysis (CCA) and principal component analysis (PCA) were applied to atmospheric aerosol and trace gas concentrations and meteorological data collected in Chicago during the summer months of 2002, 2003, and 2004. Concentrations of ammonium, calcium, nitrate, sulfate, and oxalate particulate matter, as well as, meteorological parameters temperature, wind speed, wind direction, and humidity were subjected to CCA and PCA. Ozone and nitrogen oxide mixing ratios were also included in the data set. The purpose of statistical analysis was to determine the extent of existing linear relationship(s), or lack thereof, between meteorological parameters and pollutant concentrations in addition to reducing dimensionality of the original data to determine sources of pollutants. In CCA, the first three canonical variate pairs derived were statistically significant at the 0.05 level. Canonical correlation between the first canonical variate pair was 0.821, while correlations of the second and third canonical variate pairs were 0.562 and 0.461, respectively. The first canonical variate pair indicated that increasing temperatures resulted in high ozone mixing ratios, while the second canonical variate pair showed wind speed and humidity’s influence on local ammonium concentrations. No new information was uncovered in the third variate pair. Canonical loadings were also interpreted for information regarding relationships between data sets. Four principal components (PCs), expressing 77.0 % of original data variance, were derived in PCA. Interpretation of PCs suggested significant production and/or transport of secondary aerosols in the region (PC1). Furthermore, photochemical production of ozone and wind speed’s influence on pollutants were expressed (PC2) along with overall measure of local meteorology (PC3). In summary, CCA and PCA results combined were successful in uncovering linear relationships between meteorology and air pollutants in Chicago and aided in determining possible pollutant sources. 相似文献
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A field study was established to investigate the chemical composition of atmospheric aerosols in Chicago, IL. One goal of
this study was to determine the influence of precursor trace gases and local meteorology on concentrations of secondary aerosol
ionic species. This paper describes the method details, shows the method is analytically valid, and reports overall as well
as some specific results found during the field study. Two particulate air samples were collected per day onto quartz fiber
filters at the Loyola University Chicago Air Station during the summer months in 2002–2004. In parallel, mixing ratios of
ozone and nitrogen oxides were monitored and weather parameters were recorded. Particulates were extracted from the filter
substrates and the subsequent solutions were analyzed by ion chromatography for anions, including low molecular weight organic
acids, and cations. A washing procedure was implemented to reduce the high background values of the quartz fiber filters.
Method validation showed that the collection method was efficient for all ions with exception of nitrate, whose efficiency
of 70% indicated losses caused by volatilization. The extraction method also proved efficient for both field and laboratory
samples, and the repeatability of the method was high with relative standard deviations less than 10% for all ions. Reproducibility
of the results was determined by comparison of sulfate to sulfur analyzed by total reflection X-ray fluorescence spectrometry
and proved to be high as well. Concentrations differed significantly between the three summer studies due to varying levels
of precursor species as a consequence of distinct temperatures and wind direction profiles. 相似文献
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