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61,005 resultsShowing papers similar to A Review of Microplastic Contamination in Agriculture: Sources, Impacts, and Solutions
ClearMicroplastics as pollutants in agricultural soils
This review examines how microplastics end up in agricultural soils through sewage sludge application, wastewater irrigation, plastic mulch films, and atmospheric deposition. Researchers found that microplastics interact with soil organisms and can alter soil structure and microbial communities, but standardized detection methods are still lacking. The study highlights the need for research on how microplastics move through soil, their effects on crop health, and global policies to address this growing agricultural concern.
Microplastics in Agricultural Soil and Their Impact: A Review
This review examines how microplastics accumulate in agricultural soils through sources like plastic mulch films, sewage sludge, and fertilizers. The particles can affect soil structure, microbial activity, and plant health, with common polymer types including polyethylene, polypropylene, and polystyrene found across farmland. The study emphasizes the need for better plastic waste management to protect agricultural ecosystems from growing microplastic contamination.
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.
Analysis and Effects of Microplastics in the Agricultural Soils
This review summarizes current knowledge about microplastic contamination in agricultural soils, including how it gets there (mulch films, sewage sludge, irrigation) and what effects it has on soil health. The authors highlight the lack of standardized methods for sampling and testing soil, which limits understanding of the true extent of the problem.
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.
Microplastics in Agricultural Soils
This review covers the presence of microplastics in agricultural soils, examining how plastic mulches, irrigation water, sewage sludge, and atmospheric deposition contribute to farmland contamination. It discusses effects on soil organisms and the risk of microplastics entering the food chain through crops.
Microplastics in agricultural soils: sources, impacts, and mitigation strategies
This review summarizes how microplastics enter agricultural soils through wastewater irrigation, plastic mulch breakdown, and atmospheric deposition, where they alter soil structure, microbial communities, and water retention. The particles can also carry heavy metals and organic pollutants into the food chain, threatening both crop productivity and human health, making it important to reduce plastic use in farming and improve waste management.
Current research trends on microplastics pollution and impacts on agro-ecosystems: A short review
This review summarizes current research on microplastic pollution in agricultural ecosystems, covering sources, effects, toxicity, and potential solutions. Researchers found that while most microplastic studies have focused on marine environments, agricultural soils are also significantly contaminated through sources like plastic mulch film, sewage sludge, and irrigation water, with potential impacts on soil health and crop production.
Plastic Pollution in Agriculture as a Threat to Food Security, the Ecosystem, and the Environment: An Overview
This review examines how plastic products used in agriculture -- from mulch films to greenhouse covers -- contribute to microplastic pollution in soil, water, and crops. While plastics help boost crop production and food quality, their breakdown releases microplastics that can be taken up by plants and enter the food chain. The paper discusses strategies to reduce plastic pollution in farming, which is important because agricultural microplastics represent a direct pathway to human dietary exposure.
Microplastic pollution in agriculture soil: An updated review
This review provides an updated overview of microplastic contamination in agricultural soils, covering sources including plastic mulching, sewage irrigation, contaminated rainwater, and atmospheric deposition. Researchers highlight how microplastics alter soil structure, fertility, and microbial diversity, with potential implications for crop health and food safety. The study calls for development of cost-effective detection methods for rapid identification of microplastics in soil systems.
Regulatory and Mitigation Strategies to Combat Microplastic Pollution in Agricultural Ecosystems
This review examined regulatory and mitigation strategies for controlling microplastic pollution in agricultural ecosystems, covering sources from mulch films, sewage sludge, and irrigation water. The authors identified gaps in current regulations and proposed a framework combining source reduction, treatment technologies, and monitoring to protect agricultural soil health.
Origin, Occurrence and Threats of Microplastics in Agricultural Soils: A Comprehensive Review
This comprehensive review examines how microplastics enter and accumulate in agricultural soils through plastic mulch films, sewage sludge, and fertilizers. Researchers found that polypropylene and polyethylene are the dominant polymers in farmland soils, and that microplastics negatively affect soil microbial communities, harm soil invertebrates, and can induce oxidative stress and cell damage in plants.
Micro and nanoplastics ravaging our agroecosystem: A review of occurrence, fate, ecological impacts, detection, remediation, and prospects
This review examines how micro and nanoplastics are infiltrating agricultural ecosystems through plastic mulch, irrigation water, sewage sludge, and other sources. Researchers found evidence that these particles harm soil organisms, reduce crop growth, and can carry toxic chemicals up the food chain to humans. The paper highlights the urgent need for better detection methods and remediation strategies to protect food production systems.
Microplastics in the agricultural soils: Pollution behavior and subsequent effects
This review summarizes existing research on how microplastics accumulate in farmland through fertilizers, irrigation, plastic mulch, and atmospheric fallout. Microplastics change soil structure, harm beneficial microbes, and can be taken up by crops, moving through the food chain to humans. The authors emphasize that more research is needed to understand the long-term health risks of eating food grown in microplastic-contaminated soil.
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.
Microplastic pollution in Farmland soils: A review on types, sources, analytical methods, environmental and human health risks
This review synthesizes research on microplastic pollution in farmland soils, covering polymer types, sources from mulch films and sewage sludge, analytical detection methods, and effects on soil ecosystems and crop productivity.
Microplastics in Agricultural Soils: A New Challenge Not Only for Agro-environmental Policy?
This review examines microplastic pollution in agricultural soils, identifying tire wear, mulch films, sewage sludge, and atmospheric deposition as major sources. Agriculture is both a victim and a polluter in the microplastic cycle, and the authors call for dedicated agro-environmental policies to address contamination of farmland soils.
Nanoplastics and Microplastics in Agricultural Systems: Effects on Plants and Implications for Human Consumption
This review summarizes existing research on how nanoplastics and microplastics enter agricultural soil through irrigation, plastic mulch, and sewage sludge, then accumulate in crops that people eat. The particles can also carry other harmful substances like pesticides and heavy metals into plants, raising concerns about long-term health effects from chronic dietary exposure.
Microplastic contamination in the agricultural soil—mitigation strategies, heavy metals contamination, and impact on human health: a review
This review examines how microplastics contaminate agricultural soil through plastic mulch, irrigation water, and fertilizers, then alter soil chemistry, harm beneficial microorganisms, and reduce crop productivity. The authors highlight that microplastics can accumulate in crops and enter the human food chain, posing risks to food safety and human health, particularly through daily food and water consumption.
Impact of plastic mulching as a major source of microplastics in agroecosystems
This review examines how plastic mulch films used in agriculture break down into microplastics over time, making farmland a major source of soil microplastic pollution. The accumulated microplastics can alter soil properties, affect plant growth, and be taken up by crops that humans eat. The study highlights the need for better end-of-life management of agricultural plastics and more research on how farm-sourced microplastics enter the food chain.
Traversing the prevalence of microplastics in soil-agro ecosystems: Origin, occurrence, and pollutants synergies
This review comprehensively examines microplastic contamination in soil and agricultural ecosystems, covering their origins from sources like plastic mulch, sewage sludge, and irrigation water. Researchers analyzed how microplastics interact synergistically with other pollutants including heavy metals and pesticides in soil environments. The study highlights that the long-term implications of microplastic accumulation in agricultural soils remain uncertain and warrant further investigation to protect food safety.
A comparative study of soil microplastic pollution sources: a review
This review compares the major sources of microplastics in agricultural soils, including plastic mulch films, fertilizers, irrigation water, sewage sludge, and atmospheric deposition. Researchers found that plastic mulch films and sewage sludge are the most significant contributors, though the relative importance varies by region and farming practices. The study highlights the need for standardized measurement methods to better compare microplastic levels across different soil environments.
Micro and nano plastics (MNPs) in agricultural soils: challenges for food security and environmental health
This review examined how micro- and nanoplastics enter agricultural soils through sources like plastic mulch, wastewater irrigation, and sewage sludge, reaching concentrations of up to 10,000 particles per kilogram. The study found that these plastics impair plant nutrient absorption, photosynthesis, and growth, while also carrying toxic pollutants that can transfer through the food chain to humans.
Activities of Microplastics (MPs) in Agricultural Soil: A Review of MPs Pollution from the Perspective of Agricultural Ecosystems
This review summarizes the origins, migration, and fate of microplastics in agricultural soil ecosystems, identifying plastic mulch film, irrigation water, and organic fertilizers as major sources. The study highlights that microplastic accumulation in farmland can affect soil structure, microbial communities, and crop growth, with potential implications for food safety through the terrestrial food chain.