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61,005 resultsShowing papers similar to Investigating plastic in organic fertilizers: A 2-year comparative study
ClearQuantification and identification of microplastics in organic fertilizers: the implication for the manufacture and safe application
Researchers measured microplastic contamination in 23 commercial organic fertilizers, finding widespread presence at levels that could meaningfully contribute to agricultural soil pollution when fertilizers are applied. The results raise concerns about organic fertilizers as an underappreciated pathway for microplastics entering farm soils and the food system.
Microplastic contamination of organic fertilisers applied to agricultural soils
This study examined microplastic contamination in organic fertilizers applied to agricultural soils, finding plastic particles in multiple fertilizer types. Organic fertilizers derived from sewage sludge or compost can introduce microplastics into farmland, potentially contaminating crops and groundwater.
Occurrence and distribution of microplastics in organic fertilizers in China
Researchers surveyed microplastic contamination in organic fertilizers across China, finding widespread plastic particles in compost, manure, and biosolids, identifying fertilizer application as an emerging pathway for microplastic accumulation in agricultural soils.
Unveiling the abundance and potential impacts of microplastic contamination in commercial organic fertilizers/compost produced from different solid waste
Researchers analyzed commercial organic fertilizers made from different waste sources and found microplastics in 80% of the samples, with compost from mixed municipal waste containing the highest levels. The estimated amounts of microplastics being introduced into agricultural soils through these fertilizers exceeded previous reports. The study highlights the need for stricter regulations on organic fertilizer quality to prevent microplastic contamination of farmland.
Unraveling the characteristics of microplastics in agricultural soils upon long-term organic fertilizer application: A comprehensive study using diversity indices
Researchers analyzed microplastic contamination in agricultural soils that had received organic fertilizers (pig manure, chicken manure, and sewage sludge compost) for 12 years. All three fertilizer types introduced significant microplastic pollution, with risk levels classified as high across all treatments. This study shows that organic fertilizers, often considered environmentally friendly, are a major pathway for microplastics to enter the soil and potentially the food we grow in it.
Estimation of microplastics entering agricultural soil through the use of biofertilizers
Scientists found that organic fertilizers made from food waste contain tiny plastic particles called microplastics, which end up in farm soil when the fertilizers are applied. These microscopic plastic bits can potentially enter our food chain through crops grown in that soil. This research helps us understand another way that plastic pollution might affect the food we eat, though more studies are needed to determine the actual health risks.
Organic fertilizer as a vehicle for the entry of microplastic into the environment
Researchers analyzed organic fertilizers produced from biowaste composting and fermentation and found microplastic particles in all samples tested. The contamination likely enters the fertilizer through improperly sorted household waste that includes plastic packaging and other synthetic materials. The study identifies organic fertilizer application as a previously overlooked pathway for introducing microplastics into agricultural soils, which could have implications for soil health and food safety.
Organic fertilizer facilitates the soil microplastic surface degradation and enriches the diversity of bacterial biofilm
Researchers found that organic fertilizer application facilitates surface degradation of microplastics in soil and enriches the diversity of bacterial biofilms on plastic surfaces, suggesting fertilizer use influences microplastic behavior and fate in agricultural soils.
From organic fertilizer to the soils: What happens to the microplastics? A critical review
This review traces how microplastics enter agricultural soil through organic fertilizers made from municipal waste, sewage sludge, and animal manure. During the composting process, the microplastics undergo physical and chemical changes that can make them better at absorbing other pollutants from the soil. The review highlights that applying organic fertilizer to farmland is a major but often overlooked pathway for microplastics to contaminate the food supply.
The potential contribution of microplastic pollution by organic fertilizers in agricultural soils of Bangladesh: quantification, characterization, and risk appraisals
Researchers found an average of 1,530 microplastic particles per kilogram of commercial organic fertilizer in Bangladesh, estimating that annual fertilizer application could introduce up to 1,387 metric tons of microplastics to agricultural soils nationwide.
Amount, distribution and composition of large microplastics in typical agricultural soils in Northern Germany
Researchers surveyed agricultural soils in Northern Germany for large microplastics and found contamination across all sampled fields, with polyethylene and polypropylene being the most common polymer types. Concentrations varied widely depending on farming practices, with fields receiving compost and sewage sludge showing higher contamination levels. The study provides important baseline data on microplastic pollution in European agricultural soils and identifies fertilization practices as a key contamination pathway.
Microplastic contamination in farmyard manures: implications for sustainable agriculture
Researchers investigated microplastic abundance and characteristics in non-commercial farmyard manures - a largely understudied pathway for microplastic entry into agricultural soils. The study assessed how manure application may serve as a source of microplastic contamination in farmland, contributing to understanding of plastic pollution cycles in terrestrial agricultural ecosystems.
Macro- and microplastic accumulation in soil after 32 years of plastic film mulching
Researchers quantified plastic accumulation in an agricultural field after 32 continuous years of plastic mulch film use. They found roughly 10 times more macroplastic fragments in fertilized plots than non-fertilized plots, likely because plant roots and stems became entangled with the film making removal difficult. The study found that plastic mulch contributed 33% to 56% of total microplastics detected down to one meter of soil depth, demonstrating substantial long-term accumulation from agricultural plastic use.
Agricultural fertilisers contribute substantially to microplastic concentrations in UK soils
Researchers analyzed soil samples from UK agricultural fields collected between 1966 and 2022, finding that microplastic concentrations increased significantly faster in soils treated with fertilizers — both organic and inorganic — compared to untreated soils. The findings identify agricultural fertilizers as a major, often overlooked source of microplastic buildup in farmland soils.
Influence of soil characteristics and agricultural practices on microplastic concentrations in sandy soils and their association with heavy metal contamination
Researchers studied microplastic contamination in agricultural soils that use plastic mulch in arid regions and found significantly higher concentrations in mulched fields compared to control sites. They identified eight different polymer types and found that microplastic levels increased with the duration of mulching use, with heavy metals like iron and nickel accumulating on the plastic particles. The study highlights how agricultural plastic use contributes to long-term soil contamination and the potential for microplastics to serve as carriers of metal pollutants in farmland.
Microplastic pollution and the related ecological risks of organic composts from different raw materials
Researchers analyzed microplastic contamination in 124 organic compost samples made from livestock manure, poultry waste, crop straw, and solid waste, finding that all types contained significant microplastic loads. Solid waste compost had the highest levels while crop straw compost had the lowest, and the particles showed signs of weathering and mineral attachment. The findings suggest that applying organic compost to farmland may be an underappreciated source of microplastic pollution entering agricultural soils.
Quantification and analysis of surface macroplastic contamination on arable areas
Researchers quantified macroplastic contamination on German farmland, finding that fields fertilized with compost had 42 times more plastic particles per hectare than unfertilized fields, indicating that compost application and roadside littering are major pathways for plastic entering agricultural soils.
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.
Plastics and other extraneous matter in municipal solid waste compost: A systematic review of sources, occurrence, implications, and fate in amended soils
Researchers reviewed contamination in municipal compost made from household organic waste, finding plastics are the most prevalent pollutant — with some batches containing enough plastic to deposit over 500 kg per hectare of farmland each year. Repeated use of contaminated compost builds up microplastics in soil, threatening soil health and potentially moving plastic particles into crops and food.
Organic fertilizers as a vector of microplastics: A comprehensive review of sources, dispersion, and environmental consequences
This review synthesized evidence on how organic fertilizers — including sewage sludge and composts — act as vectors for microplastic transport into agricultural soils. The authors document how MPs from degraded plastics, textiles, and personal care products enter farming systems and affect soil health, plant growth, and the broader food chain.
Microplastic pollution in organic farming development cannot be ignored in China: Perspective of commercial organic fertilizer
Researchers found that commercial organic fertilizers used across China contain high levels of microplastics, ranging from thousands to tens of thousands of particles per kilogram, with most being very small particles under 100 micrometers. After five years of fertilizer application, enormous quantities of microplastics are predicted to accumulate in orchard soils. This means that organic farming, often considered the healthier choice, may actually be introducing significant microplastic contamination into food-producing soil.
Macro and microplastics in agricultural soils after use of conventional and biodegradable plastics
Researchers sampled 38 agricultural fields where conventional polyethylene mulching films, polypropylene weed fabrics, biodegradable PBAT films, and frost covers had been used, quantifying macro- and microplastic contamination in soils to assess how different agricultural plastic products contribute to soil plastic pollution.
Impact of Plastic Residues on Soil Properties and Crop Productivity: A Comprehensive Research Study
This agricultural field study assessed how plastic residues at varying contamination levels affect soil physical, chemical, and biological properties and crop productivity, finding that higher microplastic concentrations disrupted soil structure, reduced microbial activity, and lowered plant growth.
Do contaminants compromise the use of recycled nutrients in organic agriculture? A review and synthesis of current knowledge on contaminant concentrations, fate in the environment and risk assessment
This review examines whether recycled nutrients from waste streams, such as sewage sludge and compost, introduce harmful contaminants including microplastics into organic farmland. While levels of heavy metals and many pollutants have decreased in European waste streams, microplastic contamination in agricultural soil remains widespread and poorly understood. The review highlights that spreading waste-derived fertilizers on farmland is a significant pathway for microplastics to enter the food production system.