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Oxalic Acid in Root Exudates Enhances Accumulation of Perfluorooctanoic Acid in Lettuce

Lei Xiang, Xiao-Ting Chen, Pengfei Yu, Xinhong Li, Hai-Ming Zhao, Nai-Xian Feng, Yan-Wen Li, Hui Li, Quan-Ying Cai, Ce-Hui Mo, Qing X. Li

2020Environmental Science & Technology92 citationsDOI

Abstract

< 0.05). Root exudates and their LMWOAs components exert great influences on the linear sorption-desorption isotherms of PFOA in soils, thus activating PFOA and enhancing its bioavailability. Among root exudate components, oxalic acid is identified to play a key role in activating PFOA uptake, with >80% attribution. Oxalic acid at rhizospheric concentrations (0.02-0.5 mM) can effectively inhibit PFOA sorption to soils by decreasing hydrophobic force, electrostatic attraction, ligand exchange, and cation-bridge effect. Oxalic acid enhances dissolution of metallic ions, iron/aluminum oxides, and organic matters from soils and forms oxalate-metal complexes, based on nuclear magnetic resonance spectra, ultraviolet spectra, and analyses of metal ions, iron/aluminum organometallic complexes, and dissolved organic carbon. The findings not only reveal the activation process of PFOA in soils by root exudates, particularly oxalic acid at rhizospheric concentrations, but also give an insight into the mechanism of enhancing PFOA accumulation in lettuce varieties.

Topics & Concepts

Perfluorooctanoic acidOxalic acidChemistryBioaccumulationEnvironmental chemistryBioavailabilitySoil waterSorptionExudateDissolutionDissolved organic carbonOrganic acidHumic acidInorganic chemistryBotanyAdsorptionBiochemistryOrganic chemistryEnvironmental scienceFertilizerBioinformaticsSoil scienceBiologyPer- and polyfluoroalkyl substances researchFluoride Effects and RemovalChemical Analysis and Environmental Impact