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Environmental Sources
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Agricultural application of microplastic-rich sewage sludge leads to further uncontrolled contamination
The Science of The Total Environment2021
103 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 50
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Josef Brandt,
Josef Brandt,
Dieter Fischer,
Alexander S. Tagg,
Alexander S. Tagg,
Dieter Fischer,
Alexander S. Tagg,
Elke Brandes,
Alexander S. Tagg,
Alexander S. Tagg,
Alexander S. Tagg,
Alexander S. Tagg,
Alexander S. Tagg,
Elke Brandes,
Alexander S. Tagg,
Alexander S. Tagg,
Elke Brandes,
Matthias Labrenz
Elke Brandes,
Elke Brandes,
Elke Brandes,
Dieter Fischer,
Josef Brandt,
Dieter Fischer,
Elke Brandes,
Elke Brandes,
Matthias Labrenz
Elke Brandes,
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Elke Brandes,
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Alexander S. Tagg,
Alexander S. Tagg,
Alexander S. Tagg,
Alexander S. Tagg,
Franziska Fischer,
Franziska Fischer,
Franziska Fischer,
Franziska Fischer,
Dieter Fischer,
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Dieter Fischer,
Dieter Fischer,
Dieter Fischer,
Dieter Fischer,
Dieter Fischer,
Franziska Fischer,
Franziska Fischer,
Franziska Fischer,
Franziska Fischer,
Franziska Fischer,
Franziska Fischer,
Franziska Fischer,
Franziska Fischer,
Franziska Fischer,
Franziska Fischer,
Josef Brandt,
Josef Brandt,
Matthias Labrenz
Matthias Labrenz
Josef Brandt,
Alexander S. Tagg,
Josef Brandt,
Josef Brandt,
Dieter Fischer,
Matthias Labrenz
Josef Brandt,
Dieter Fischer,
Alexander S. Tagg,
Matthias Labrenz
Dieter Fischer,
Dieter Fischer,
Dieter Fischer,
Franziska Fischer,
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Dieter Fischer,
Dieter Fischer,
Dieter Fischer,
Dieter Fischer,
Dieter Fischer,
Matthias Labrenz
Dieter Fischer,
Dieter Fischer,
Josef Brandt,
Matthias Labrenz
Dieter Fischer,
Josef Brandt,
Franziska Fischer,
Franziska Fischer,
Josef Brandt,
Matthias Labrenz
Alexander S. Tagg,
Dieter Fischer,
Dieter Fischer,
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Dieter Fischer,
Dieter Fischer,
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Dieter Fischer,
Dieter Fischer,
Matthias Labrenz
Dieter Fischer,
Dieter Fischer,
Dieter Fischer,
Dieter Fischer,
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Dieter Fischer,
Dieter Fischer,
Dieter Fischer,
Dieter Fischer,
Franziska Fischer,
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Dieter Fischer,
Franziska Fischer,
Elke Brandes,
Franziska Fischer,
Dieter Fischer,
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Dieter Fischer,
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Dieter Fischer,
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Matthias Labrenz
Summary
Researchers found that 44% of microplastics from sewage sludge applied to agricultural land migrated to nearby untreated areas, demonstrating that this common fertilizer practice leads to further uncontrolled contamination of surrounding soils.
Municipal sewage sludge has been shown to be high in microplastics (MP) and is applied to agricultural land as fertiliser in many countries. The authors recently proposed in a viewpoint article that MP applied to land in this way may well contaminate other areas in an uncontrolled way. This study examined experimental plots with known history of application of sewage sludge. Results showed that 44% of the MP load found on sludge-applied land was found on nearby land never directly applied with sludge. Examination of polymer type compositions demonstrated marked similarity between the two fields indicating the sludge-applied field was a source of contamination for surrounding areas. Furthermore, MP was detected at a depth of 60-90 cm in the sludge-applied soil indicating that MP may also penetrate deep enough to reach agricultural drainage systems, although this effect is slight (1.6% of surface load). These results show that application of municipal sewage sludge on agricultural land can lead to further uncontrolled contamination, paving the way for future research to improve understanding of the extents of such effects on real farms to better inform future agricultural policy.