The harmful effects of micro(nano)plastics (MNPs) on agroecosystems are becoming more concerning. However, little is known about how MNP size and leaf features affect MNP bioaccumulation, cellular localisation, and translocation.In this study, foliar exposure to 80 nm and 500 nm polystyrene (PS) MNPs in soil-grown maize and soybean plants was studied. Trichomes and smaller sizes increased PS MNP deposition on crop leaf surfaces. 500 nm PS was mostly on the leaf epidermis and little in the apoplast or cytoplasm, regardless of crop species. 80 nm PS entered maize leaves via stomatal and cuticular routes, while soybean leaves were penetrated by a single cuticular pathway owing to trichomes. After that, 80 nm PS emerged in the apoplast and cytoplasm and entered the vasculature via apoplastic and symplastic routes. Interaction of 80 nm PS with n-alkanes and esters showed that placing 80 nm PS on leaves caused a remarkable ‘wax degradation’, i.e., phase transition of wax ultrastructure from crystalline to amorphous. These findings give a scientific basis for understanding MNPs’ environmental behaviours and physiological impacts in air-vegetation systems, which may be used to assess food safety hazards.
The current study examines the contamination of microplastics in three greenhouse types: abandoned, normal, and simple. The findings revealed that the abundance of microplastics was found to be the highest in the abandoned greenhouse, followed by the normal greenhouse and simple greenhouse. The mean abundance of microplastic organic fertilizer and irrigation water was also high.[…]
The study examines the distribution of residual film after eight years of film mulching in mid-April 2018. Results from the study revealed that eight years of mulching significantly increased the quantity of agricultural mulch film residues in the soil. The size of residual film fragments was found to vary from 0.25 cm2 to 109 cm2,[…]
A study in Yuanmou County, Yunnan Province, investigated microplastic pollution in different land uses, including facility farmland, traditional farmland, orchard, grassland, and woodland. Results showed a significant difference in microplastic abundance and characteristics between different land use types. Facility farmlands, traditional farmlands, and orchard lands had higher microplastic abundance than grasslands and woodlands. The main[…]
The study analysed 225 soil samples from maize planting zones in northern China, revealing that long-term plastic film mulching increases microplastic pollution in agricultural soils. The abundance of microplastics was significantly higher in mulched soils (754 ± 477 items kg-1) than in non-mulched soils (376 ± 149 items kg-1). The length of time with film[…]
The study examined the relative abundances and morphological distributions of microplastics (MPs) in water, sediments, and farmland soils in the Caohai Lake region. The estuary in the study area was considered a potential sink for MP transportation. Transparent and black MPs accounted for a large proportion of MPs in the five environments, with possible sources[…]