A validation of back trajectories of air masses by principal component analysis of ion concentrations in cloud water

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Abstract

The chemical characteristics of polluted marine, polluted continental, and highly polluted air masses were studied by applying principal component analysis (PCA) to the cloud water data collected during held studies at a site located in Mt. Mitchell (2038 m msl, 35°44'05'N, 82°17'15'W) State Park, NC. The site intercepts air masses arriving from the East (polluted marine), the West (polluted continental), and the Northwest (highly polluted). The PCA was used to study the relationship between the ionic constituents of the cloud water and the type of air mass in which the cloud formed. By applying PCA to the cloud water chemistry, a set of highly intercorrelated variables (ions) was replaced with a set of uncorrelated principal components. Using PCA, we can identify the most significant acids and salts dissolved in the cloud water. For instance, sulfuric acid was found to be most influential in clouds formed in highly polluted air masses. Sea salt particles were present in the majority of the polluted marine cloud events. Calcium was found to be the most important ion in the polluted continental cloud events. The type of the air mass was determined by 48-h back trajectory analysis using Hybrid Single-Particle Lagrangian Integrated Trajectories (HYSPLIT) model. The results of the HYSPLIT model were confirmed by the PCA of the ionic composition of cloud water collected at the mountain top site.

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Deininger, C. K., & Saxena, V. K. (1997). A validation of back trajectories of air masses by principal component analysis of ion concentrations in cloud water. Atmospheric Environment, 31(2), 295–300. https://doi.org/10.1016/1352-2310(96)00152-5

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