Evaluation of Petroleum Hydrocarbon-Contaminated Soil Remediation Technologies and Their Effects on Soybean Growth.

The application of persulfate (PS) for the remediation of petroleum hydrocarbon contamination is among the most widely employed in situ chemical oxidation (ISCO) techniques, and it has received widespread attention due to its limited impact on soil integrity. This study employed a FeSO₄-activated PS oxidation method to investigate the feasibility of remediating soil contaminated with total petroleum hydrocarbons (TPHs). The factors tested included the TPH concentration, different PS:FeSO₄ ratios, the reaction time for remediation, soil physical and chemical property changes before and after remediation, and the effect of soil before and after remediation on soybean growth. The TPH degradation rate in soil was highest for high-, medium-, and low-TPHs soils—81.5%, 81.4%, and 72.9%, respectively, with minimal disruption to the soil's physicochemical properties—when PS:FeSO₄ = 1:1. The remediation verification results indicated that the condition of the soybeans was optimal when PS:FeSO₄ = 1:1. Under this condition, the net photosynthetic rate, stomatal conductance, intercellular CO₂ concentration, and transpiration rate all remained high. Therefore, the best remediation effect was achieved with PS:FeSO₄ = 1:1, which also minimized the damage to the soil and the effects on crop growth. [ABSTRACT FROM AUTHOR]