Geochemical characterization and health risk assessment of surface and green barrier deposited PM particles in the proximity of a kindergarten

Authors

 

Gevorg Tepanosyan,

Chiara Baldacchini,

Shushanik Asmaryan,

Lilit Sahakyan

Abstract

 

The particulate matter (PM) is a key health risk factor in urban areas. Different approaches have been developed worldwide to deal with PM pollution, including nature-based solutions (NBSs). This study presents the results of the geochemical characterization of a green barrier established between a kindergarten and a street. In 2018 and 2019, PM deposits on green barrier and tree leaves were investigated to reveal particle size distribution and geochemical composition. In addition, the contents of potentially toxic elements (PTEs) found in kindergarten outdoor and street dust were determined to assess the imposed health risk. The results showed that based on the chemical composition, the studied PM deposits had grouped into two clusters of major elements: carbonates and aluminosilicates clustered with Fe oxides/hydroxides.

 

However, the presence of several PTE, including Mo, Cu, Mn, Cr and Ba was also highlighted. The efficiency of the green barrier in impeding Cu-containing particles diffusion was proven, since street dust Cu contents increased during the study period, while the Cu content in kindergarten outdoor dust displayed a decreasing trend. The non-carcinogenic risk associated to PTE in the street and outdoor dust suggested that the multi-elemental risk level in the study area was above the allowable limit, with the highest share in risk level attributed to Cr which had the tendency to decrease due to the presence of the barrier. The results of this study can serve as a basis for green barrier PM capturing efficiency monitoring and securing a healthy environment for kindergarten children.

 

https://doi.org/10.1016/j.buildenv.2023.110234