Effect of soil pollution with polycyclic aromatic hydrocarbons on the properties of humic acids

Magdalena Banach-Szott,Ewa Rosa,Bożena Debska

doi:10.1007/s11368-014-0873-9

Magdalena Banach-Szott, Ewa Rosa + Show 1 more

Open Access

https://doi.org/10.1007/s11368-014-0873-9

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Abstract

Interestingly, soil is the component of the natural environment in which most hydrophobic organic pollution including polycyclic aromatic hydrocarbons (PAHs) gets accumulated. The aim of the present paper was to determine the effect of soil pollution with PAHs on the elemental composition, spectral properties, and hydrophobic and hydrophilic properties of humic acids. The research was performed on different types of soil samples that were artificially polluted with selected PAHs (anthracene, pyrene, fluorene and chrysene). The soil samples were polluted with selected PAHs in an amount corresponding to 10 mg PAHs kg−1. The PAHs-polluted soil samples were incubated for 180 and 360 days at a temperature of 20–25 °C and fixed moisture (50 % of field water capacity). Humic acids (HAs) were extracted from the soil samples prior to the incubation (additionally, soils not polluted with PAHs) and after 180 and 360 days of incubation. For isolated HAs, the following analyses were performed: elemental composition, UV–Vis and IR spectra, susceptibility to oxidation, and hydrophilic (HIL) and hydrophobic (HOB) properties were determined using high-performance liquid chromatography. The research demonstrated that introducing anthracene, fluorene, pyrene and chrysene to soil samples resulted in a change in some of the quality parameters of humic acids. However, the intensity and the direction of those changes were determined by soil properties. The changes of the parameters, once PAHs were introduced, that did not depend on the soil properties were ΔA 665u and ΔA 465u (susceptibility to oxidation at wavelengths of 465 and 665 nm) as well as HIL/ΣHOB. The same tendency in changes in the structure of humic acids, once PAHs were introduced, was also observed based on the Fourier transform infrared spectra pattern. A single pollution of soils with PAHs that leads to changes in the quality parameters of humic acids shows that, as for the soils permanently exposed to pollution with those compounds, significant changes can occur in the properties of humic acids. As a result, it can lead to a change in the functions played by humic acids in the environment.

Highlights

More and more often, one realises the problem on soil environment pollution and the importance of soil protection as well as the prevention of soil degradation
The research demonstrated that introducing anthracene, fluorene, pyrene and chrysene to soil samples resulted in a change in some of the quality parameters of humic acids
A single pollution of soils with polycyclic aromatic hydrocarbons (PAHs) that leads to changes in the quality parameters of humic acids shows that, as for the soils permanently exposed to pollution with those compounds, significant changes can occur in the properties of humic acids

Summary

Introduction

One realises the problem on soil environment pollution and the importance of soil protection as well as the prevention of soil degradation. Soil is the component of the natural environment in which, most hydrophobic organic pollution, including polycyclic aromatic hydrocarbons (PAHs), gets accumulated. Pan et al (2006) stress that PAHs are definitely sorbed faster by humic and fulvic acids than humins. The type of organic matter fraction that PAHs are connected with affects their mobility in the soil profile. Humic acids limit the mobility of hydrocarbons deep down in the soil profile, whereas fulvic acids stimulate that process (Petruzzelli et al 2002). As was reported by Kim and Kwon (2010), the sorption properties of humic acids towards PAHs increase with an increase in the PAHs hydrophobicity

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