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Microplastic transport in soil by earthworms

Scientific Reports 2017 857 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 60 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Lisa Ziersch, Lisa Ziersch, Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Stefan Hempel, Stefan Hempel, Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Stefan Hempel, Matthias C. Rillig Stefan Hempel, Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Stefan Hempel, Stefan Hempel, Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig Matthias C. Rillig

Summary

Researchers demonstrated that earthworms can transport microplastic particles from the soil surface deeper into the ground, with smaller particles being moved to greater depths. Using the common earthworm Lumbricus terrestris in greenhouse experiments, they showed that worm activity significantly increased the presence of microplastics in lower soil layers. The findings suggest that earthworms play an important role in burying microplastics in soil, potentially affecting other soil organisms and groundwater.

Polymers

Models

Invertebrate other

Despite great general benefits derived from plastic use, accumulation of plastic material in ecosystems, and especially microplastic, is becoming an increasing environmental concern. Microplastic has been extensively studied in aquatic environments, with very few studies focusing on soils. We here tested the idea that microplastic particles (polyethylene beads) could be transported from the soil surface down the soil profile via earthworms. We used Lumbricus terrestris L., an anecic earthworm species, in a factorial greenhouse experiment with four different microplastic sizes. Presence of earthworms greatly increased the presence of microplastic particles at depth (we examined 3 soil layers, each 3.5 cm deep), with smaller PE microbeads having been transported downward to a greater extent. Our study clearly shows that earthworms can be significant transport agents of microplastics in soils, incorporating this material into soil, likely via casts, burrows (affecting soil hydraulics), egestion and adherence to the earthworm exterior. This movement has potential consequences for exposure of other soil biota to microplastics, for the residence times of microplastic at greater depth, and for the possible eventual arrival of microplastics in the groundwater.

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