Journal
SCIENCE OF THE TOTAL ENVIRONMENT
Volume 822, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.scitotenv.2022.153609
Keywords
Propiconazole; Soil pH; Microplastics; Degradation; Heavy metals
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With the increasing use of plastic films, microplastic pollution in agricultural soils has become a global environmental problem. In this study, it was found that propiconazole accelerated the degradation of microplastics and the adsorption and release of heavy metals. However, these effects were absent at high concentrations. Additionally, microplastics were more prone to degradation in acidic and alkaline soils. PBAT degraded faster and adsorbed and released more heavy metals than PE. The heavy metal contents in microplastics gradually approached those in soil.
With the rapid increase in the use of plastic films, microplastic (MP) pollution in agricultural soils has become a global environmental problem. Propiconazole is widely used in agriculture and horticulture; however, its role in plastic film degradation remains elusive. Butylene adipate-co-terephthalate (PBAT) and polyethylene (PE) films were used to analyze the effects of propiconazole on plastic film and MP degradation. We identified the surface morphologies of PBAT and PE at different propiconazole concentrations and soil pH values, as well as the adsorption and release characteristics of heavy metals during the degradation process via scanning electron microscopy, Fourier transform infrared spectroscopy and inductively coupled plasma mass spectrometry. Propiconazole accelerated the degradation of MPs, adsorption of heavy metals (Ni and Zn), and release of Sn at low concentrations (<_40 mg/kg); however, these effects were evidently absent at a high concentration (120 mg/kg). Furthermore, MPs were more prone to degradation in acidic or alkaline soils than in neutral soil when they coexisted with propiconazole. Hence, we suggest that PBAT and PE plastic films may not be suitable for application in acidic and alkaline soils with propiconazole, because of shorter rupture time and more heavy metal adsorption. PBAT degraded faster, absorbed and released more heavy metals than PE. Under all tested conditions, the heavy metal contents in MPs gradually approached those in soil, which proves that MPs are carriers of heavy metal pollutants. These results may help in assessing the impact of MPs on soil environments and provide a theoretical basis for the standardized propiconazole and plastic film usage.
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