Litcius/Paper detail

Synergistic adsorption and degradation of sulfonylurea herbicides by biochar-supported nano zero-valent iron composites in in-situ soil remediation

Wenwen Xie, Cheng Peng, Anqi Chen, Haoran Wang, Mabinty Sarah Tholley, Rong Qian, Sinan Lu, Wei Zhang, Xiuping Zhan

2024Chemical Engineering Journal24 citationsDOIOpen Access PDF

Abstract

The extensive and continuous application of sulfonylurea herbicide is crucial for weed management but has resulted in widespread non-point source pollution. In this study, nano zero-valent iron/biochar (nZVI/BC) was synthesized by using FeCl 3 -impregnated corn stalks under anoxic pyrolysis conditions, which was applied in the in-situ remediation of bensulfuron methyl (BSFM) and sulfometuron methyl (SMTM) polluted soil. The results show that nZVI/BC with a 2.7 ratio of Fe/C had the highest efficiency in removing sulfonylurea herbicides. The removal efficiencies of BSFM and SMTM by nZVI/BC were negatively correlated to initial concentrations of sulfonylurea herbicides and positively correlated to nZVI/BC addition amount in the soil. Moreover, nZVI/BC could remove 53 % of BSFM and 72 % of SMTM at the concentration of 5 mg/kg after 21 d, which was much higher than that of BC. Notably, the removal efficiency of BSFM by nZVI/BC reached 36 % within 7 d, while the removal efficiency of SMTM by nZVI/BC was up to 68 % even within 3 d. The adsorption of herbicides by nZVI/BC was mainly driven by chemical processes involving multilayer adsorption. Furthermore, the removal mechanisms of BMTM and SMTM by nZVI/BC also involved C = O and C–O groups and oxidation of nZVI to FeO and Fe 3 O 4 along with the cleavage of the sulfonylurea bridge. This study provides a promising application of nZVI/BC in in-situ remediating sulfonylurea herbicide- polluted soil.

Topics & Concepts

BiocharZerovalent ironEnvironmental remediationSulfonylureaAdsorptionDegradation (telecommunications)In situNano-Materials scienceChemistryEnvironmental chemistryComposite materialContaminationOrganic chemistryPyrolysisEcologyInternal medicineBiologyTelecommunicationsComputer scienceInsulinMedicineEnvironmental remediation with nanomaterialsAdvanced oxidation water treatmentNanomaterials for catalytic reactions