We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Papers
20 resultsShowing papers similar to Microplastic distribution and transport in agricultural soils : from field to burrow scale
ClearImpact of Different Soil Tillage Practices on Microplastic Particle Abundance and Distribution
Field experiments across different tillage and fertilization regimes quantified microplastic abundance and vertical distribution in agricultural soils, finding that tillage practices significantly influenced how deeply microplastics are mixed through the soil profile.
Earthworms transport microplastic fibres in soils
Laboratory experiments showed that earthworms actively transport microplastic fibers deeper into soil profiles, suggesting that bioturbation by earthworms represents an important pathway for vertical redistribution of microplastic contamination in agricultural soils.
Processes controlling the transportation of microplastics in agricultural soils
Researchers investigated the physical processes controlling microplastic transport through agricultural soils, examining how soil structure, water flow, bioturbation, and particle properties interact to move microplastics from surface application sites deeper into the soil profile or laterally toward aquatic systems. The study addressed the dual role of agricultural soils as both sinks and potential sources of microplastic pollution to surrounding environments.
Microplastic transport in soil by earthworms
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.
Influences of land use and depth profile on the characteristics of microplastics in agricultural soils
Researchers examined how land use and soil depth profile influence microplastic characteristics in agricultural soils, finding that wastewater and sludge application, plastic mulching, and atmospheric deposition are key sources, and that MP type and abundance vary with soil management practice and depth, highlighting the importance of vertical distribution in soil MP studies.
Bioturbation-driven transport of microplastic fibres in soil
This study found that earthworm activity transports microplastic fibers deeper into the soil profile, spreading contamination beyond surface deposits. Earthworm bioturbation can therefore expand the reach of microplastic pollution in agricultural and natural soils, with potential consequences for soil ecosystem health.
Evidence of microplastic accumulation in agricultural soils from sewage sludge disposal
Agricultural soils from 31 fields with different sludge application histories were analyzed for microplastics, finding significant accumulation in fields with repeated sludge applications and a positive correlation between application frequency and plastic particle counts. The study provides direct field evidence that sewage sludge fertilization is a major pathway for microplastic accumulation in agricultural soil.
Microplastic accumulation and transport in agricultural soils with long-term sewage sludge amendments
This study examined farmland that received sewage sludge applications for 16 years and found that microplastic levels in the topsoil were about five times higher than in untreated fields. Microplastics also migrated deeper into the soil over time, with migration rates 20 times greater in sludge-treated areas. The findings demonstrate that long-term use of sewage sludge as fertilizer is a significant pathway for microplastic accumulation in agricultural soils.
Origin, Occurrence and Threats of Microplastics in Agricultural Soils: A Comprehensive Review
This review examined microplastic sources, occurrence, and ecological impacts in agricultural soils globally, identifying mulching films, sewage sludge, and fertilizers as major input pathways. The authors document harmful effects on soil microbiota, earthworms, and plant growth, and call for better monitoring and mitigation strategies.
Microplastics and earthworms in soils: A case study on translocation, toxicity and fate
This conference abstract presents research on how earthworms in agricultural soils interact with microplastics, examining whether worms translocate particles deeper into soil, experience toxic effects, and alter the fate of microplastic contamination. Earthworms are key soil engineers, and their exposure to microplastics could have cascading effects on soil health.
Vertical transport of microplastic in agricultural soil in controlled irrigation plot experiments
Researchers conducted field plot experiments in agricultural soil and found that microplastics migrate vertically with irrigation water, with smaller particles (53–63 µm) penetrating up to 6 cm deep and larger particles remaining near the surface, indicating that water infiltration is a key driver of subsurface plastic transport.
Investigating the dispersal of macro- and microplastics on agricultural fields 30 years after sewage sludge application
Researchers investigated plastic dispersal on agricultural fields 30 years after sewage sludge application, finding that macro- and microplastics persisted and migrated both horizontally and vertically in soil, demonstrating the long-term contamination legacy of sludge-based fertilization.
Current research trends on plastic pollution and ecological impacts on the soil ecosystem: A review
This review examines the current state of research on plastic pollution in soil ecosystems, an area that has received far less attention than marine plastic contamination. Researchers found that agricultural practices, sewage sludge application, and plastic mulch use are major sources of soil microplastic pollution, with earthworms being the most commonly studied organisms for assessing ecological impacts. The study calls for more research into how microplastics affect soil biodiversity, nutrient cycling, and long-term soil health.
Vertical distribution and post-depositional translocation of microplastics in a Rhine floodplain soil
Researchers analyzed a 110-centimeter-deep soil profile from a German river floodplain and found microplastics at every depth, including in layers deposited before the 1950s, suggesting earthworms and plant roots transported particles downward over time. This vertical movement means small microplastics travel deeper into soils than previously thought and complicates using them as markers for recent human impact.
Leaching of microplastics by preferential flow in earthworm (Lumbricus terrestris) burrows
This study showed that earthworms can ingest microplastics from soil surfaces and transport them through their burrows into deeper soil layers via preferential flow pathways. The findings suggest earthworm activity contributes to the vertical movement of microplastics through soil profiles, with implications for groundwater contamination.
Incorporation of microplastics from litter into burrows of Lumbricus terrestris
Researchers investigated whether earthworms incorporate microplastics from surface litter into their burrows, finding that earthworm burrowing activity actively transports microplastics deeper into the soil profile.
Are Agricultural Soils Dumps for Microplastics of Urban Origin?
Researchers investigated whether agricultural soils serve as dumping grounds for urban-origin microplastics, finding evidence that sewage sludge application and atmospheric deposition deliver city-sourced plastics to farmland.
Impact of Different Soil Tillage Practices on Microplastic Particle Abundance and Distribution
Researchers compared microplastic particle abundance and depth distribution in agricultural soils under conventional tillage, minimum tillage, and no-till practices, finding that tillage intensity affected both total MP concentrations and the vertical mixing of particles through the soil profile.
Review of microplastic sources, transport pathways and correlations with other soil stressors: a journey from agricultural sites into the environment
Researchers reviewed how microplastics spread from farms into surrounding soils, waterways, and air through both biological processes (like earthworm movement) and physical ones (like wind and runoff), while also carrying along pesticides, fertilizers, and pathogens as hitchhikers. The review highlights major gaps in our understanding of microplastic transport across landscapes and calls for more field-scale research.
An Overlooked Entry Pathway of Microplastics into Agricultural Soils from Application of Sludge-Based Fertilizers
Researchers analyzed sludge-based fertilizers applied to agricultural soils and found high microplastic concentrations (hundreds to thousands per kilogram of dry weight) that were transferred to soils after application, identifying this as an important but overlooked pathway for terrestrial microplastic contamination.