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Papers
61,005 resultsShowing papers similar to Strategies to Mitigate Microplastic (MP) and Nanoplastic (NP) Pollution in Soil
ClearPlant Stress Management Mitigating Micro/Nano Plastics Pollution
This review covers how microplastics and nanoplastics enter agricultural soils via mulching, compost, and atmospheric deposition, disrupt plant nutrient uptake and cause oxidative stress, and examines mitigation strategies including bioaugmentation, nanomaterials, and phytoremediation.
Micro/Nanoplastics in Agricultural Soils and Associated Hazard
This review surveys the sources, distribution, and hazards of micro- and nanoplastics in agricultural soils, with particular attention to how MPs interact with soil organisms, alter nutrient availability, and accumulate in crops in ways that threaten both soil health and food safety.
Microplastics and Nanoplastics in Soil
This review synthesizes current knowledge on microplastic and nanoplastic contamination in soils, covering sources including agricultural films, compost, and atmospheric deposition, as well as their effects on soil organisms and ecosystem functions. The authors identify key research priorities for understanding long-term soil health impacts.
Nanoplastics in soil and aquatic ecosystems: Sources, impacts, and nature-based remediation strategies
This review examines nanoplastic contamination in both soil and aquatic ecosystems, covering sources, environmental concentrations, and ecological impacts. Researchers found that nanoplastics originate from plastic mulching, wastewater irrigation, and degradation of larger plastics, with reported concentrations reaching concerning levels, and they evaluate nature-based remediation strategies as potential solutions.
Soil Pollution from Micro- and Nanoplastic Debris: A Hidden and Unknown Biohazard
This review examines what is known about the fate and properties of microplastics and nanoplastics in soil, highlighting that agricultural land acts as a long-term sink for the ~300 million tons of plastic produced annually, with major knowledge gaps in detection and ecotoxicological effects.
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.
Interactions of Microplastics with Pesticides in Soils and Their Ecotoxicological Implications
This review examines how microplastics interact with pesticides in soil environments, finding that microplastics can sorb and transport pesticides, potentially altering their bioavailability and toxicity to soil organisms and ecosystems.
Tiny pollutants, big consequences: investigating the influence of nano- and microplastics on soil properties and plant health with mitigation strategies
Researchers reviewed the impact of nanoplastics and microplastics on soil properties and plant health, examining absorption and translocation mechanisms in plants. The study suggests that plastic particles alter soil structure and microbial communities, impair plant growth and nutrient uptake, and proposes mitigation strategies to address these emerging threats to agricultural ecosystems.
Micro/nanoplastics: a potential threat to crops
This review examines micro- and nanoplastic contamination in agricultural soil and water, summarizing sources, adsorption onto microplastics, uptake pathways into crops, effects on plant growth and physiology, and current detection and removal approaches, while highlighting the limited data on nanoplastic transport in plants.
Agricultural Soils Containing Micro/Nanoplastics and Related Risks
This review surveys micro- and nanoplastic contamination in agricultural soils globally, examining input sources including plastic mulch films, irrigation water, sewage sludge, and compost, and assessing the risks MPs pose to soil organisms, plant growth, and food safety.
Effects of micro and nanoplastics on plant-assisted bioremediation for contaminated soil recovery: A review
This review examines how the growing presence of micro- and nanoplastics in contaminated soils affects plant-assisted bioremediation, finding that microplastics disrupt the plant-microbe rhizosphere interactions that make phytoremediation effective for removing heavy metals and degrading organic pollutants.
Mechanistic understanding on the uptake of micro-nano plastics by plants and its phytoremediation.
This review summarized the mechanisms by which micro-nano plastics are taken up by plants through roots and leaves, and evaluated the potential for phytoremediation as a strategy to reduce plastic contamination in soil, identifying key plant species and genetic factors that influence uptake.
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.
The Effect of Microplastic Pollution on Soil, Plants and Soil Microbes and Its Remediation
This review summarized evidence for microplastic effects on soil properties, plant growth, soil microbes, and food safety, identifying microplastic pollution as a significant emerging threat to terrestrial ecosystems. The authors also reviewed bioremediation and physical removal strategies as potential remediation approaches.
Soil Microplastic Pollution and its Remediation: An Overview
This overview reviews the scope of microplastic pollution in soils globally, summarizing contamination sources, effects on soil ecosystems, and available remediation strategies including physical, chemical, and biological approaches to address this emerging environmental problem.
Microplastics and nanoplastics in soil: Sources, impacts, and solutions for soil health and environmental sustainability
This review examines how microplastics and nanoplastics enter soil through farming activities, sewage sludge, and air deposition, and how they affect soil structure, water retention, and nutrient availability. The tiny plastic particles can harm beneficial soil microorganisms and potentially enter the food chain through crops, raising concerns about long-term impacts on both soil health and human well-being.
Assessment of soil microplastics: An overview on toxicity, effects on heavy metals adsorption, solid-phase extraction, and detection techniques
This review examined how microplastics in soil enter the food chain and pose human health risks, with particular attention to their role as carriers for heavy metals. Agricultural practices like plastic mulching and sewage sludge application were identified as major sources of soil MP contamination.
Microplastic pollution in terrestrial ecosystems: Global implications and sustainable solutions
This review examines microplastic pollution in terrestrial ecosystems, an area that has received far less attention than ocean plastic pollution despite soil being a major sink for these contaminants. The study covers how microplastics interact with other soil pollutants, affect plant growth and soil health, and discusses both policy solutions and practical removal methods to reduce the amount of microplastics that enter the food chain.
Nanoplastics in the soil environment: Analytical methods, occurrence, fate and ecological implications
This review covered analytical methods, occurrence data, environmental fate, and ecotoxicological effects of nanoplastics in soils, finding that nanoplastics can alter soil chemistry, physical structure, and biota in ways that threaten both natural and agricultural ecosystem functions. The authors identify standardization of nanoplastic detection in soil as a critical research gap.
Mitigation of Microplastics
This book chapter examines strategies for managing and mitigating microplastic contamination in terrestrial environments, covering source reduction, physical removal techniques, bioremediation approaches, and policy frameworks needed to address the scale of soil plastic pollution.
A review of microplastics in soil: Occurrence, analytical methods, combined contamination and risks
This review provides a comprehensive overview of microplastic pollution in soil ecosystems, covering sources, detection methods, and ecological impacts. Researchers found that soils are major reservoirs for microplastics, and the study highlights how combined contamination with other pollutants like heavy metals and pesticides may amplify risks to soil organisms and food safety.
Microplastic Pollution in the Soil Ecosystem and Emerging Recycling Techniques
This review covers the emerging problem of microplastic pollution in soil ecosystems, addressing particle sizes below 5 mm, high degradation resistance, and bioaccumulation potential. The authors examine how microplastics enter crop systems and assess emerging recycling and remediation techniques to reduce soil contamination.
Recent Advances on Multilevel Effects of Micro(Nano)Plastics and Coexisting Pollutants on Terrestrial Soil-Plants System
This review systematically summarizes how micro- and nanoplastics, alone and combined with co-existing pollutants, affect soil properties and terrestrial plants at multiple biological levels. Researchers found that microplastics can serve as carriers for heavy metals, organic contaminants, and biological pollutants, with their specific impacts depending on polymer type, size, shape, and concentration. Evidence indicates that plants can take up and transport micro- and nanoplastics, leading to effects on growth, metabolism, and even DNA damage.
Effects of micro(nano)plastics on soil nutrient cycling: State of the knowledge.
This review systematically examined how micro- and nano-plastics affect soil nutrient cycling for carbon, nitrogen, and phosphorus, finding that physical interference with soil structure, alteration of microbial communities, and chemical toxicity collectively disrupt mineralization, nitrification, and phosphorus availability in contaminated soils.