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20 resultsShowing papers similar to Organic boost or health risk? The dual impact of organic amendments in agriculture
ClearPotential Benefits and Risks for Soil Health Derived From the Use of Organic Amendments in Agriculture
This review examines the benefits and risks of using organic amendments like compost, manure, and sewage sludge in agriculture. Researchers highlight that while these amendments improve soil health and crop productivity, they can also introduce pollutants including heavy metals, antibiotic-resistant bacteria, and microplastics into agricultural soils. The study identifies sewage sludge as a particularly significant source of microplastic contamination in farmland and calls for strategies to mitigate these risks.
Selection of Suitable Organic Amendments to Balance Agricultural Economic Benefits and Carbon Sequestration
Researchers evaluated organic soil amendments for balancing agricultural productivity with soil health, finding that amendment type and application rate affect nutrient cycling, microbial activity, and the potential for microplastic introduction via compost or sludge.
How Valuable Are Organic Amendments as Tools for the Phytomanagement of Degraded Soils? The Knowns, Known Unknowns, and Unknowns
This review evaluates organic soil amendments — including sewage sludge, compost, and manure — as tools for restoring degraded soils, noting both benefits for soil health and risks from contaminant introduction. The discussion is relevant to microplastic research because many organic amendments are known vectors for microplastic contamination in agricultural soils.
Organic matter and microplastics nexus: A comprehensive understanding of the synergistic impact on soil health
This review examines how microplastics and organic matter interact in soil, finding that common soil additions like compost and sewage sludge are significant sources of microplastic contamination. The interplay between these substances can disrupt nutrient cycling, soil biology, and carbon storage, which ultimately affects the quality of food grown in contaminated soil.
Organic amendment in climate change mitigation: Challenges in an era of micro- and nanoplastics
This review examines how micro- and nanoplastics found in organic amendments like compost, manure, and sewage sludge may undermine their effectiveness as climate change mitigation tools. Researchers found that plastic contamination in these materials can alter soil carbon cycling, potentially reducing the carbon sequestration benefits of adding organic matter to soils. The study highlights a tension between using organic waste for soil health and inadvertently introducing plastic pollution.
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.
Microplastic contamination in agricultural soils from mulch films and organic amendments: Transformation mechanism, soil-Biota toxicity, and future perspectives
This review examines how agricultural soils are becoming increasingly contaminated with microplastics from plastic mulch films and organic amendments like compost, with land-based contamination being 4 to 23 times higher than in water. Microplastics in farmland can harm soil organisms, disrupt soil structure, and enter the food chain through crops, posing potential risks to human health.
Extent and impact of microplastics on soil nutrients and biota: a trade-off assessment
This review examines the extent of microplastic inputs from sewage sludge applied to agricultural soils, synthesizing evidence on how sludge-derived microplastics affect soil nutrient availability, soil biota, plant performance, and crop productivity, concluding that the benefits of sludge as a soil amendment must be weighed against its role as a vector for microplastic contamination.
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.
Organic amendments as vectors of micro and macro plastic pollution of terrestrial ecosystems
Researchers analyzed seven types of organic amendments commonly applied to farmland, including sewage sludge, manure, composts, and digestates, for microplastic contamination. They found microplastics in all samples, with sewage sludge containing the highest levels and a wide variety of polymer types. The study demonstrates that organic soil amendments are an important and underappreciated pathway through which both micro and macro plastics enter agricultural soils.
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.
Organic Fertilizers in Horticulture
This review examines the use of organic fertilizers in horticulture as an alternative to synthetic fertilizers, discussing their nutrient composition, soil health benefits, and potential drawbacks including microplastic contamination from compost and sewage sludge-based inputs.
Microplastics in agricultural soils: a new challenge not only for agro-environmental policy?
This review addresses microplastic pollution in agricultural soils, identifying farming practices like mulching and sludge application as significant sources and discussing potential impacts on soil health and food safety. It calls for both policy action and more research on microplastic behavior in terrestrial environments.
Microplastics in Agricultural Soils: An Emerging Threat to Soil Health, Microbial Ecology, Crop Productivity, and Food Safety
This review examines how microplastics accumulate in agricultural soils from sources like plastic mulch, sewage sludge, and atmospheric deposition. Researchers found that these particles can disrupt soil microbial communities, harm plant health, and potentially enter the human food chain. The study highlights the urgent need for mitigation strategies to address this growing but often overlooked form of pollution in farmland.
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 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.
Sewage sludge as a sustainable fertilizer: Promise, pitfalls, and future directions
This review examines both the promise and pitfalls of using sewage sludge as a fertilizer, finding that while it reduces agrochemical costs and provides nutrients for crops, it also introduces microplastics, pathogens, and heavy metals into agricultural soils with implications for food safety and public health.
Tiny toxins, big problems: the hidden threat of microplastic in agroecosystems
This review examines the impacts of microplastic contamination in agricultural soils, covering sources from plastic mulch and irrigation, effects on soil structure, water retention, microbial diversity, and nutrient cycling, and consequences for crop health and food safety.
Quantification 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.
Microplastics as an underestimated emerging contaminant in solid organic waste and their biological products: Occurrence, fate and ecological risks
This review identified solid organic waste streams including compost, sewage sludge, and food waste as important but underappreciated repositories of microplastics that can reintroduce particles into agricultural soils and water systems. The authors call for standardized monitoring of microplastics in organic waste before environmental application.