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Source Identification of Episodic Rain Pollutants by a New Approach: Combining Satellite Observations and Backward Air Mass Trajectories

摘要


In this study, various source apportionment methods, viz., enrichment factor, relative source contribution, and factor analysis in addition to cluster analysis coupled with satellite observations, were used to investigate the origin of rainwater pollutants in an arid urban area of Saudi Arabia. The rainwater samples were collected by an automatic wet-only sequential rain sampler and analyzed for their pH, electrical conductivity (EC), and major ions (Cl^-, NO_3^-, SO_4^(2-), HCO_3^-, Na^+, K^+,NH_4^+, Ca^(2+), and Mg^(2+)). The results revealed that the chemical composition was dominated by Ca^(2+), SO_4^(2-), Cl^-, HCO_3^-, and Na^+, which represented 80% of the total ionic equivalent concentration. Ca^(2+), the most abundant ion, exhibited a mean concentration of 480 μeq L^(-1) and accounted for 30% of the total ionic equivalent concentration. The study area received a total ionic wet deposition flux (F_(WD)) of 4.07 tons km^(-2) y^(-1), and SO_4^(2-) and NO_3^- contributed 76% and 24%, respectively, of the rainwater acidity. Ca^(2+) was responsible for 80% of the rainwater's neutralization. The source apportionment indicated that intense local human activity and medium- to long-range transport from Kuwait, Iraq, Qatar, Riyadh, and the Western Province produced the majority of the anthropogenic components (SO_4^(2-), NO_3^-, and NH_4^+), which represented 47% of the total ionic FWD. However, moderate to high particulate matter loads over the southern part of Saudi Arabia and long-range transport from Iraq and Kuwait contributed the crustal components (Ca^(2+), HCO_3^-, K^+, and Mg^(2+)), which accounted for 36% of the total ionic FWD, whereas the Arabian Gulf was the primary source of the marine components (Na^+ and Cl^-). We found combining satellite observations and cluster analysis of backward air mass trajectories to be an effective new approach for assessing the source-receptor relationships for atmospheric air pollutants.

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