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Papers
16 resultsShowing papers similar to Role of tillage measures in mitigating waterlogging damage in rapeseed
ClearResearch on Soil Management and Conservation
Not relevant to microplastics — this is a brief editorial introduction to a journal special issue on soil management and conservation, with no substantive content about microplastic pollution.
Plant-driven strategies for mitigating microplastic pollution in agricultural ecosystems
Researchers review how microplastics damage agricultural soils and crops — disrupting soil structure, starving plants of nutrients, and triggering oxidative stress — and explore plant- and microbe-based strategies like root-associated bacteria and biochar amendments as promising but underexplored tools for cleaning up plastic-contaminated farmland.
A comprehensive review of impacts of soil management practices and climate adaptation strategies on soil thermal conductivity in agricultural soils
This review examines how farming practices like tillage, crop rotation, and mulching affect how well soil conducts heat, which influences crop growth and water availability. While not directly about microplastics, the paper highlights that disrupted soil structure from various agricultural inputs can alter important soil properties, which is relevant as microplastic contamination of farmland soils continues to grow.
Microplastics accumulation in agricultural soil: Evidence for the presence, potential effects, extraction, and current bioremediation approaches
This review examines the accumulation of microplastics in agricultural soils from sources like plastic mulching and irrigation, discussing their effects on soil properties and crop growth, along with current bioremediation approaches for removing soil microplastics.
A field experiment on macroplastic redistribution and fragmentation by soil tillage
Researchers conducted a field experiment using magnetically tagged macroplastic pieces and RFID transponders to trace the redistribution and fragmentation of plastic waste during non-inversion chisel and inversion disk soil tillage operations, providing novel data on macroplastic fate and displacement depth in arable land.
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.
Impact 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.
Plastic mulching in agriculture. Trading short-term agronomic benefits for long-term soil degradation?
This study examined plastic mulch use in agriculture, arguing that short-term crop benefits come with long-term costs as mulch fragments accumulate in soil as microplastics and disrupt soil structure, biology, and water dynamics.
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.
[Adverse Effects and Underlying Mechanisms of Soil Microplastics on Crops and Its Preventive Strategies].
This review summarizes the pollution status of microplastics in agricultural soils and their adverse effects on crops, including mechanical damage, oxidative stress, and genotoxicity leading to disrupted plant growth and metabolism. Researchers also examined how hazardous substances released from microplastics and contaminants adsorbed onto their surfaces contribute to soil ecosystem harm. The study identifies source control and biodegradation as the most promising strategies for reducing microplastic risks to crop production.
Macro and microplastics in the soil: abundance, characterization, identification, and interactions under different land uses in an agricultural sub-basin
Researchers examined the abundance, characterization, identification, and interactions of macro- and microplastics in soils under different land uses within an agricultural sub-basin, assessing how land-use patterns influence plastic pollution distribution and potential interactions with the soil environment.
Microplastic Pollution: An Emerging Threat to Terrestrial Plants and Insights into Its Remediation Strategies
This review highlights the emerging threat of microplastic pollution to terrestrial plants and agroecosystems, summarizing sources, interactions with soil and crops, and potential remediation strategies for safe agricultural practices.
Assess the Sustainability of Intercropping Systems in the Transgangetic Plains of Punjab, Specially Focusing on the Intercropping of Maize (Zea mays L.) with Black Gram (Vigna mungo) and French Bean (Phaseolus vulgaris)
An intercropping experiment in Punjab found that growing maize with black gram or French bean improved overall land productivity and nitrogen transfer from legumes to cereals. While not related to microplastics, the study evaluates sustainable farming practices that could reduce reliance on synthetic inputs, including plastic-based agricultural materials.
Microplastics in Agriculture- a Review
This review examines the growing presence of microplastics in agricultural environments, covering their sources from plastic mulch films and irrigation water, their effects on soil health and crop quality, and the implications for food safety and sustainable agriculture.
Microbial synergies in phytoremediation: A comprehensive review
Not relevant to microplastics — this is a review of how soil microorganisms (bacteria, fungi) assist plants in removing pollutants like heavy metals and hydrocarbons through phytoremediation; while the study addresses environmental contamination broadly, it does not examine microplastic pollution or its effects.
Effect of microplastics used in agronomic practices on agricultural soil properties and plant functions: Potential contribution to the circular economy of rural areas
Researchers measured the effects of microplastics used in common agricultural practices — including mulch film residues and irrigation-delivered particles — on soil physical, chemical, and biological properties. Microplastic presence altered soil aggregation, water retention, and microbial community composition, with effects depending on plastic concentration, polymer type, and soil texture.