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Microplastics exhibit lower carrying effects on the bioaccessibility and cytotoxicity of lead than montmorillonite clay particles

Journal of Hazardous Materials 2023 4 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 45 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Jiamin Dai, Xuetao Guo Xuetao Guo Peng Liu, Jiamin Dai, Xuetao Guo Xuetao Guo Jiamin Dai, Jiamin Dai, Xuetao Guo Haiyu Zhang, Jiamin Dai, Jiamin Dai, Haiyu Zhang, Jiamin Dai, Jiamin Dai, Xuetao Guo Xuetao Guo Jiamin Dai, Xuetao Guo Jiamin Dai, Xuetao Guo Jingxuan Liu, Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Jiamin Dai, Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Shixiang Gao, Xuetao Guo Xuetao Guo Xuetao Guo Haiyu Zhang, Jiamin Dai, Jiamin Dai, Shixiang Gao, Haiyu Zhang, Peng Liu, Xuetao Guo Jiamin Dai, Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Guowei Wang, Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Haiyu Zhang, Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Shixiang Gao, Shixiang Gao, Shixiang Gao, Xuetao Guo Xuetao Guo Xuetao Guo Shixiang Gao, Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Shixiang Gao, Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Shixiang Gao, Shixiang Gao, Shixiang Gao, Shixiang Gao, Shixiang Gao, Shixiang Gao, Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Shixiang Gao, Shixiang Gao, Xuetao Guo Shixiang Gao, Jiamin Dai, Shixiang Gao, Shixiang Gao, Shixiang Gao, Shixiang Gao, Shixiang Gao, Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Shixiang Gao, Xuetao Guo Xuetao Guo Xuetao Guo Shixiang Gao, Xuetao Guo Xuetao Guo Xuetao Guo Shixiang Gao, Jiamin Dai, Xuetao Guo Xuetao Guo Shixiang Gao, Shixiang Gao, Xuetao Guo Shixiang Gao, Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Guowei Wang, Guowei Wang, Xuetao Guo Xuetao Guo Xuetao Guo Shixiang Gao, Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Shixiang Gao, Shixiang Gao, Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Peng Liu, Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Xuetao Guo Shixiang Gao, Shixiang Gao, Xuetao Guo Xuetao Guo Xuetao Guo Shixiang Gao, Xuetao Guo Xuetao Guo Xuetao Guo

Summary

Researchers compared the ability of polypropylene and polystyrene microplastics versus montmorillonite clay particles to serve as carriers that affect the bioaccessibility and cytotoxicity of lead to human cells, finding that microplastics showed lower carrying effects than clay after microbial colonization. Preferential colonization of clay by microorganisms altered the surface chemistry and lead-carrying capacity of clay more than that of plastic particles.

Polymers

PP PS

Body Systems

Digestive

Models

Zebrafish

Microplastics (MPs) in the environment are always colonized by microbes, which may have implications for carrying effect of pollutants and exposure risk in organisms. We present the crucial impacts and mechanisms of microbial colonization on the bioaccessibility and toxicity of Pb(II) loaded in disposable box-derived polypropylene (PP) and polystyrene (PS) MPs and montmorillonite (MMT) clay particles. After 45 d incubation, higher biomass measured by crystal violet staining were detected in MMT (1.23) than in PP and PS (0.400 and 0.721) indicating preferential colonization of microbes in clay particles. Microbial colonization further enhanced the sorption ability toward Pb(II), but inhibited the desorption and bioaccessibility of enriched Pb(II) in zebrafish and decreased the toxicity to gastric epithelial cells in an order of MMT > PS ≈ PP. The crucial effects were mainly because microbe-colonized substrates possessed higher oxygen functional groups and specific surface area and exhibited stronger interactions with Pb(II) and digestive component (i.e., pepsin) than pure substrates. This decreased the available soluble pepsin for complexing with sorbed Pb(II). The findings highlight the role of microbial colonization in modulating the exposure risks of artificial and natural substrate-associated pollutants and suggest that the risks of MPs may be overestimated compared to clay particles.

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