Rainfall-induced lateral and vertical microplastic transport of varying sizes in agricultural fields

Lancaster Environment Centre

Text available via DOI:

https://doi.org/10.1039/d5em00304k
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Research output: Contribution to Journal/Magazine › Journal article › peer-review

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Rainfall-induced lateral and vertical microplastic transport of varying sizes in agricultural fields. / Severe, Emilee; Sinha Ray, Saunak; Li, Wang et al.
In: Environmental Science: Processes and Impacts, 28.08.2025.

Research output: Contribution to Journal/Magazine › Journal article › peer-review

Harvard

Severe, E, Sinha Ray, S, Li, W, Zumr, D, Dostál, T, Surridge, BWJ, Krasa, J, Wilken, F, Fiener, P, Stumpp, C, Maqbool, A, Gómez, JA, Zafiu, C & Quinton, J 2025, 'Rainfall-induced lateral and vertical microplastic transport of varying sizes in agricultural fields', Environmental Science: Processes and Impacts. https://doi.org/10.1039/d5em00304k

APA

Severe, E., Sinha Ray, S., Li, W., Zumr, D., Dostál, T., Surridge, B. W. J., Krasa, J., Wilken, F., Fiener, P., Stumpp, C., Maqbool, A., Gómez, J. A., Zafiu, C., & Quinton, J. (2025). Rainfall-induced lateral and vertical microplastic transport of varying sizes in agricultural fields. Environmental Science: Processes and Impacts. Advance online publication. https://doi.org/10.1039/d5em00304k

Vancouver

Severe E, Sinha Ray S, Li W, Zumr D, Dostál T, Surridge BWJ et al. Rainfall-induced lateral and vertical microplastic transport of varying sizes in agricultural fields. Environmental Science: Processes and Impacts. 2025 Aug 28. Epub 2025 Aug 28. doi: 10.1039/d5em00304k

Author

Severe, Emilee ; Sinha Ray, Saunak ; Li, Wang et al. / Rainfall-induced lateral and vertical microplastic transport of varying sizes in agricultural fields. In: Environmental Science: Processes and Impacts. 2025.

Bibtex

@article{523366596cca4ea5bf59ffab1c0666a1,

title = "Rainfall-induced lateral and vertical microplastic transport of varying sizes in agricultural fields",

abstract = "Agricultural soils, particularly those utilizing plastic products for crop production, are increasingly recognized as sources of microplastics (MPs) to aquatic ecosystems. In this research, we investigate the transport of polyethylene MPs of three different size ranges (53–63 μm, 125–150 μm and 425–500 μm) in an agricultural soil during a plot-based rainfall simulation. Using a combination of fluorescent particles and high-frequency photography, we tracked the number of MPs on the soil surface throughout the rainfall simulation, measured the depth MPs migrated into the soil profile and the number of MPs which were transported in surface runoff. Our results show that MPs had dynamic movement on the soil surface throughout the rainfall simulation. Approximately 20% of MPs sized 125–150 μm and 425–500 μm were exported from the plot in surface runoff with the remaining 80% of MPs thought to be retained in the soil. No significant differences were found in the number of MPs transported in surface runoff between MPs sized 125–150 μm and 425–500 μm. Microplastics were found to be enriched in eroded sediments. Microplastics of all sizes 53–63 μm, 125–150 μm and 425–500 μm were found in soil as deep as 8 cm with the majority of MPs found in the 0–2 cm soil depth. Results from this research not only indicate that MPs are quite mobile both vertically and laterally during rainfall events but also show that soils effectively retain and accumulate a sizeable proportion of MPs during heavy rainfall events.",

author = "Emilee Severe and {Sinha Ray}, Saunak and Wang Li and David Zumr and Tom{\'a}{\v s} Dost{\'a}l and Surridge, {Ben W. J.} and Josef Krasa and Florian Wilken and Peter Fiener and Christine Stumpp and Ahsan Maqbool and G{\'o}mez, {Jos{\'e} Alfonso} and Christian Zafiu and John Quinton",

year = "2025",

month = aug,

day = "28",

doi = "10.1039/d5em00304k",

language = "English",

journal = "Environmental Science: Processes and Impacts",

issn = "2050-7887",

publisher = "Royal Society of Chemistry",

}

RIS

TY - JOUR

T1 - Rainfall-induced lateral and vertical microplastic transport of varying sizes in agricultural fields

AU - Severe, Emilee

AU - Sinha Ray, Saunak

AU - Li, Wang

AU - Zumr, David

AU - Dostál, Tomáš

AU - Surridge, Ben W. J.

AU - Krasa, Josef

AU - Wilken, Florian

AU - Fiener, Peter

AU - Stumpp, Christine

AU - Maqbool, Ahsan

AU - Gómez, José Alfonso

AU - Zafiu, Christian

AU - Quinton, John

PY - 2025/8/28

Y1 - 2025/8/28

N2 - Agricultural soils, particularly those utilizing plastic products for crop production, are increasingly recognized as sources of microplastics (MPs) to aquatic ecosystems. In this research, we investigate the transport of polyethylene MPs of three different size ranges (53–63 μm, 125–150 μm and 425–500 μm) in an agricultural soil during a plot-based rainfall simulation. Using a combination of fluorescent particles and high-frequency photography, we tracked the number of MPs on the soil surface throughout the rainfall simulation, measured the depth MPs migrated into the soil profile and the number of MPs which were transported in surface runoff. Our results show that MPs had dynamic movement on the soil surface throughout the rainfall simulation. Approximately 20% of MPs sized 125–150 μm and 425–500 μm were exported from the plot in surface runoff with the remaining 80% of MPs thought to be retained in the soil. No significant differences were found in the number of MPs transported in surface runoff between MPs sized 125–150 μm and 425–500 μm. Microplastics were found to be enriched in eroded sediments. Microplastics of all sizes 53–63 μm, 125–150 μm and 425–500 μm were found in soil as deep as 8 cm with the majority of MPs found in the 0–2 cm soil depth. Results from this research not only indicate that MPs are quite mobile both vertically and laterally during rainfall events but also show that soils effectively retain and accumulate a sizeable proportion of MPs during heavy rainfall events.

AB - Agricultural soils, particularly those utilizing plastic products for crop production, are increasingly recognized as sources of microplastics (MPs) to aquatic ecosystems. In this research, we investigate the transport of polyethylene MPs of three different size ranges (53–63 μm, 125–150 μm and 425–500 μm) in an agricultural soil during a plot-based rainfall simulation. Using a combination of fluorescent particles and high-frequency photography, we tracked the number of MPs on the soil surface throughout the rainfall simulation, measured the depth MPs migrated into the soil profile and the number of MPs which were transported in surface runoff. Our results show that MPs had dynamic movement on the soil surface throughout the rainfall simulation. Approximately 20% of MPs sized 125–150 μm and 425–500 μm were exported from the plot in surface runoff with the remaining 80% of MPs thought to be retained in the soil. No significant differences were found in the number of MPs transported in surface runoff between MPs sized 125–150 μm and 425–500 μm. Microplastics were found to be enriched in eroded sediments. Microplastics of all sizes 53–63 μm, 125–150 μm and 425–500 μm were found in soil as deep as 8 cm with the majority of MPs found in the 0–2 cm soil depth. Results from this research not only indicate that MPs are quite mobile both vertically and laterally during rainfall events but also show that soils effectively retain and accumulate a sizeable proportion of MPs during heavy rainfall events.

U2 - 10.1039/d5em00304k

DO - 10.1039/d5em00304k

M3 - Journal article

JO - Environmental Science: Processes and Impacts

JF - Environmental Science: Processes and Impacts

SN - 2050-7887

ER -

Research

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