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1. The aging of polyethylene mulch films in the presence of cadmium.

Author

Wang, Teng, Liu, Lin, Zhao, Qingsong, Meng, Zhaofu, and Li, Wenbin

Subjects

PLASTIC marine debris, POLYETHYLENE films, ATTENUATED total reflectance, POLYETHYLENE, ELECTRON paramagnetic resonance, X-ray photoelectron spectroscopy, PERSISTENT pollutants

Abstract

To determine the fates of the persistent pollutants cadmium (Cd) and micro-plastics in agricultural soils, an in-depth understanding of the interactions between Cd and mulching film is required. In the present work, pot experiments are conducted under natural conditions to study the influence of various Cd concentrations on the aging process of polyethylene mulching film in soil collected from Changzhi, Shanxi Province. The results indicate that during 150 days, the aging degree of the mulch film increases gradually as the increased Cd concentration in the soil. Further, the results of attenuated total reflectance Fourier transform infrared (ATR-FTIR) spectrometry and X-ray photoelectron spectroscopy (XPS) demonstrate that the average vinyl index (VI) of the aging mulch film increases from 1.29 to 1.82, while the oxygen-to-carbon (O/C) ratio of the mulch film decreases significantly from 0.344 to 0.045, as the Cd concentration is increased from 0 to 10 mg kg–1. When the aging time exceeds 90 days, the oxygen-containing functional groups (C–O and C O) generated consumed by the adsorbed Cd. In addition, electron paramagnetic resonance (EPR) measurements indicate that Cd both enhances the formation of hydroxyl radical (· OH) on the surface of the mulch film and prevents the combination of · OH and electrons, thereby accelerating the aging of the mulch. Hence, the present study indicates that the presence of Cd will hasten the decomposition of mulch, which will inevitably result in the faster release of micro-plastics from the mulch into the soil environment. [Display omitted] • Cd accelerates the aging of polyethylene mulch films. • Cd consumes the available C-O/C O groups. • DMPO-OH signal intensity increases with the Cd concentration. [ABSTRACT FROM AUTHOR]

Published

2023