Publication:
Concentrations, phase exchanges and source apportionment of polycyclic aromatic hydrocarbons (PAHs) in Bursa-Turkey

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Date

2023-06-09

Authors

Çelik, Semra
Joubi, Viam

Authors

Şanlı, Gizem
Çelik, Semra
Joubi, Viam
Taşdemir, Yücel

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Elsevier

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Abstract

The present study aimed to determine the pollution levels derived from polycyclic aromatic hydrocarbons (PAHs) in air, plant and soil samples and to reveal the PAH exchange at the soil-air, soil-plant and plant-air interfaces. In this context, air and soil samples were collected in approximately 10-day periods between June 2021 and February 2022 from a semi-urban area in Bursa, an industrial city with a dense population. Also, plant branch samples were collected for the last three months. Total PAH concentrations in the atmosphere (& sum;(16)PAH) and soil (& sum;(14)PAH) ranged from 4.03 to 64.6 ng/m(3) and 13-189.4 ng/g DM, respectively. PAH levels in the tree branches varied between 256.6 and 419.75 ng/g DM. In all air and soil samples, PAH levels were low in the summer and reached higher values in the winter. 3-ring PAHs were the dominant compounds, and their distribution in air and soil samples varied between 28.9%-71.9% and 22.8%-57.7%, respectively. According to the results of diagnostic ratios (DRs) and principal component analysis (PCA), both pyrolytic and petrogenic sources were found to be effective in PAH pollution in the sampling region. The fugacity fraction (ff) ratio and net flux (F-net) values indicated that the direction of movement of PAHs was from soil to air. In order to better understand the PAH movement in the environment, soil-plant exchange calculations were also achieved. The ratio of & sum;(14)PAH values measured to modeled concentrations (1.19<ratio<1.52) revealed that the model worked well for the sampling region and produced reasonable results. The ff and F-net levels showed that branches were saturated with PAHs and the direction of PAH movement was from plant to soil. The plant-air exchange results indicated that the direction of movement of PAHs was from plant to air for low molecular weight PAHs and the opposite was true for compounds with high molecular weight ones.

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Keywords

Air-soil exchange, Organic pollutants pops, Risk-assessment, Source identification, Seasonal-variations, Urban soils, Polychlorinated-biphenyls, Spatial-distribution, Atmospheric concentrations, Industrial region, Passive air sampler, Tree, Partitioning, Air-soil exchange, Air -plant exchage, Soil-plant exchange, Science & technology, Life sciences & biomedicine, Environmental sciences, Public, environmental & occupational health

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