Agricultural soils and microplastics: are biosolids the problem?
Agricultural soils and microplastics: are biosolids the problem?
Biosolids are the solid by-product of the wastewater treatment system. They are regularly applied to agricultural land in the UK to fertilize and increase crop yields, but they have been shown to contain high concentrations of microplastics. Here we sampled a selection of agricultural soils in the Southeast of England which had received or never received biosolid treatment. Sites were sampled on two occasions in the summer and winter. Microplastic (MP) numbers were high in both the biosolid treated fields (874
MP/kg) and the untreated fields (664 MP/kg) and a wide variety of polymers were found across sites. However, there was a lack of significant difference between treated and untreated soils. This suggests the influence of other microplastic sources e.g. agricultural plastic and general littering, and external conditions e.g. farm management and rainfall. Microplastic concentrations were higher in the summer suggesting that erosion, runoff, and wind transport may be removing microplastics from these systems. The dynamic
nature of the agricultural soils may result in them becoming a vector for microplastics into the wider environment. The high variability in results seen here highlights the complexity of microplastic concentrations in heterogeneous agricultural soils. This study suggests that biosolids, whilst are likely a contributor, are not the sole source of microplastics in agricultural soils.
Further research is required to determine source and sink dynamics in these systems. Understanding the sources of microplastic contamination in soils is imperative for future mitigation strategies to be effective.
Biosolids, Microplastics, agricultural pollution, contamination, soils, agricultural, microplastics, biosolids
Radford, Freya
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Horton, Alice
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Hudson, Malcolm
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Shaw, Peter
935dfebf-9fb6-483c-86da-a21dba8c1989
Williams, Ian
c9d674ac-ee69-4937-ab43-17e716266e22
19 January 2023
Radford, Freya
f43f5d73-b100-424a-9021-8f17f7715e35
Horton, Alice
3b4dfc8c-2a5d-48c9-8c63-8a113a2a1bfe
Hudson, Malcolm
1ae18506-6f2a-48af-8c72-83ab28679f55
Shaw, Peter
935dfebf-9fb6-483c-86da-a21dba8c1989
Williams, Ian
c9d674ac-ee69-4937-ab43-17e716266e22
Radford, Freya, Horton, Alice, Hudson, Malcolm, Shaw, Peter and Williams, Ian
(2023)
Agricultural soils and microplastics: are biosolids the problem?
Frontiers in Soil Science, 2, [941837].
(doi:10.3389/fsoil.2022.941837).
Abstract
Biosolids are the solid by-product of the wastewater treatment system. They are regularly applied to agricultural land in the UK to fertilize and increase crop yields, but they have been shown to contain high concentrations of microplastics. Here we sampled a selection of agricultural soils in the Southeast of England which had received or never received biosolid treatment. Sites were sampled on two occasions in the summer and winter. Microplastic (MP) numbers were high in both the biosolid treated fields (874
MP/kg) and the untreated fields (664 MP/kg) and a wide variety of polymers were found across sites. However, there was a lack of significant difference between treated and untreated soils. This suggests the influence of other microplastic sources e.g. agricultural plastic and general littering, and external conditions e.g. farm management and rainfall. Microplastic concentrations were higher in the summer suggesting that erosion, runoff, and wind transport may be removing microplastics from these systems. The dynamic
nature of the agricultural soils may result in them becoming a vector for microplastics into the wider environment. The high variability in results seen here highlights the complexity of microplastic concentrations in heterogeneous agricultural soils. This study suggests that biosolids, whilst are likely a contributor, are not the sole source of microplastics in agricultural soils.
Further research is required to determine source and sink dynamics in these systems. Understanding the sources of microplastic contamination in soils is imperative for future mitigation strategies to be effective.
Text
fsoil-02-941837
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More information
Accepted/In Press date: 12 December 2022
Published date: 19 January 2023
Additional Information:
Funding: This work was supported by Engineering and Physical Sciences Research Council funded Centre for Doctoral Training in Sustainable Infrastructure Systems (‘Managing emerging pollutants in wastewater systems’, grant number EP/L01582X/1), and Southern Water.
Keywords:
Biosolids, Microplastics, agricultural pollution, contamination, soils, agricultural, microplastics, biosolids
Identifiers
Local EPrints ID: 474698
URI: http://eprints.soton.ac.uk/id/eprint/474698
ISSN: 2673-8619
PURE UUID: ad61a62c-a33a-4714-bc8a-9dea14bbe772
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Date deposited: 01 Mar 2023 17:59
Last modified: 17 Mar 2024 03:01
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Author:
Freya Radford
Author:
Alice Horton
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