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Characterization of microplastics and the association of heavy metals with microplastics in suburban soil of central China

The Science of The Total Environment 2019 572 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Yanfei Zhou, Yanfei Zhou, Yanfei Zhou, Yanfei Zhou, Yanfei Zhou, Jun Wang Jun Wang Jun Wang Yanfei Zhou, Yanfei Zhou, Yanfei Zhou, Yanfei Zhou, Yanfei Zhou, Xiaoning Liu, Xiaoning Liu, Yanfei Zhou, Yanfei Zhou, Xiaoning Liu, Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Yanfei Zhou, Yanfei Zhou, Xiaoning Liu, Xiaoning Liu, Xiaoning Liu, Xiaoning Liu, Xiaoning Liu, Xiaoning Liu, Xiaoning Liu, Jun Wang Jun Wang Jun Wang Xiaoning Liu, Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Xiaoning Liu, Xiaoning Liu, Jun Wang Jun Wang Xiaoning Liu, Jun Wang Xiaoning Liu, Jun Wang Jun Wang Xiaoning Liu, Xiaoning Liu, Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Xiaoning Liu, Jun Wang Jun Wang Jun Wang Xiaoning Liu, Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Yanfei Zhou, Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Xiaoning Liu, Xiaoning Liu, Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Xiaoning Liu, Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Xiaoning Liu, Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang Jun Wang

Summary

Microplastics in suburban soils of central China were characterized across three land-use types, with woodland containing the highest concentrations (4.1×10³ particles/kg) and 81.7% of particles under 100 μm, while XRF analysis confirmed heavy metals were enriched on plastic surfaces compared to surrounding soil. The study confirms that smaller microplastics are the dominant form and can act as carriers for heavy metal contamination in urban-adjacent soils.

Polymers

PA PE PP PS PVC

Microplastics (MPs) are ubiquitous in the aquatic and terrestrial environment and can absorb other kinds of pollutants on surfaces due to strong hydrophobicity and higher specific surface area. This study investigated the occurrence and distribution of MPs and the interaction of MPs and heavy metals in three different land types of central China. Results showed that the abundance of MPs ranged from 2.2 × 10 to 6.9 × 10 particle·kg, and 81.7% of particles measured ranged from 10 to 100 μm. The smaller sized particles made up the greater proportion of MPs in the study area. In woodland, the abundance of MPs (4.1 × 10 particle·kg) was significantly higher than that in vegetable plots (1.6 × 10 particle·kg) and vacant land (1.2 × 10 particle·kg). The most prevalent form of MP particles was fragments (53%), followed by fiber (15.2%). Polyethylene, polypropylene, polystyrene, polyamide, and polyvinyl chloride were commonly found at each sampling site, with polyethylene as the dominant form (36.1%). It was inferred that industrial production activities, litter, and sewage sludge might be the main sources of the MPs pollution. Moreover, MP particles in the soil environment contained different levels of heavy metals, including Cd, Cr, Pb, Ag, Cu, Sb, Hg, Fe, and Mn. The concentration of heavy metals in MPs, particularly Cd, Pb, Mn, and Hg, was closely related to the extent of heavy metal contamination in the soil environment, inferring that MPs in the soil can be vectors for transporting heavy metals. The synergistic effect of MPs and heavy metals might pose greater risks to soil organisms and soil safety.

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