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61,005 resultsShowing papers similar to Evolution and Future Path of Global Farmland Soil Pollution Remediation Over the Past Five Decades
ClearPaving the way toward soil safety and health: current status, challenges, and potential solutions
This review examines the global threats to soil health from industrial chemical contamination and explores potential solutions including monitoring, advanced remediation technologies, and holistic soil management. While covering soil pollution broadly, it is relevant to microplastics because they are a major and growing soil contaminant that is extremely difficult to remove once introduced. The review emphasizes that preventing pollutants from entering soil is far more effective and less costly than trying to clean up contamination afterward.
Integrated Monitoring, Remediation and Management of Soil Pollution: A Comprehensive Review
This research review summarizes the latest methods for finding, cleaning up, and managing polluted soil that can harm human health through contaminated food and water. The study highlights that newer pollutants like microplastics and "forever chemicals" (PFAS) are especially hard to remove from soil using traditional cleanup methods. The authors argue that we need better, combined approaches to monitor and clean up soil pollution to protect our food supply and health.
Soil Contamination, Risk Assessment, and Remediation
This review covers soil contamination from various sources including agrochemicals, waste materials, and emerging pollutants like microplastics, along with methods for risk assessment and remediation. Researchers examined how human activities such as farming, waste disposal, and industrial practices contribute to soil pollution and disrupt soil fertility. The study emphasizes the need for comprehensive risk assessment frameworks that account for the complex interactions between traditional and emerging soil contaminants.
Contaminants in Agriculture and Environment: Health Risks and Remediation
This book chapter reviewed contaminants in agricultural environments and their health risks, covering heavy metals, pesticides, and emerging pollutants including microplastics, and summarizing remediation strategies for both soil and crop systems. The authors discuss the intersection of food security and environmental contamination in modern agricultural production systems.
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.
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.
Research of New Pollutant Microplastics in Soil
This review summarizes microplastic pollution in agricultural soils, covering sources, abundance, transport pathways, and interactions with heavy metals and organic pollutants. The authors highlight that soil microplastic contamination is a growing threat to food security and soil ecosystem health.
Environmental fate, aging, toxicity and potential remediation strategies of microplastics in soil environment: Current progress and future perspectives
This review summarizes what we know about microplastics in soil, including where they come from, how they age and break down, and their toxic effects. As microplastics degrade in the environment, they can release harmful chemicals and help transport other pollutants like heavy metals through the food chain to humans. The paper also explores cleanup strategies, though effective large-scale solutions remain a challenge.
Environmental interactions and remediation strategies for co-occurring pollutants in soil
Researchers review how multiple pollutants — including heavy metals, pesticides, and microplastics — interact in contaminated soils, creating combined effects that are harder to remediate than any single pollutant alone. The review synthesizes current remediation strategies and identifies key knowledge gaps in understanding how co-occurring pollutants behave together, which is critical for protecting agricultural soil health and food safety.
Soil pollution and remediation: emerging challenges and innovations
This perspective reviews emerging challenges in soil pollution, including contamination from heavy metals, pesticides, PFAS, and microplastics, all worsened by urbanization and climate change. Researchers highlight innovative monitoring and remediation technologies, such as advanced sensors, bioremediation, and machine learning approaches for predicting contamination patterns. The study emphasizes the need for sustainable, integrated soil management strategies to protect environmental health.
Engineering Solutions for the Detection and Remediation of Emerging Microplastic Pollutants in Agricultural Soils and Water Supplies: A Systematic Review
This systematic review summarizes existing research on engineering tools for detecting and cleaning up microplastic pollution in farm soils and irrigation water. The study covers how microplastics enter agricultural systems through fertilizers, plastic mulch, and contaminated water, then affect soil health and potentially food safety. It evaluates promising technologies like advanced filtration and spectroscopy that could help protect our food supply from plastic contamination.
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.
The trend of bioremediation as an effective technology in soil decontamination
Not relevant to microplastics — this review covers bioremediation techniques using bacteria, fungi, and plants to clean up soil contaminated with hydrocarbons, pesticides, and heavy metals.
Research Progress of Soil Pollution and Its Remediation Technology
This review examines the combined soil pollution problem of heavy metals and microplastics in China, summarizing sources, ecological impacts, and remediation technologies including phytoremediation, bioremediation, and physicochemical approaches to restore contaminated agricultural land.
Microplastics in the soil–water–food nexus: Inclusive insight into global research findings
This review summarizes existing research on microplastics across soil, water, and food systems, finding that these persistent particles accumulate in crop plants, dairy products, and other foods. Microplastics also worsen the harmful effects of heavy metals in soil and can disrupt the physical and chemical properties of farmland. The authors emphasize the need for coordinated policy and remediation efforts to reduce human exposure through the food supply.
Current scenario of emerging pollutants in farmlands and water reservoirs: Prospects and challenges
This review looks at how pollutants like microplastics and pharmaceutical residues end up in farmland and water supplies, with global plastic production exceeding 400 million metric tons per year. The authors warn that these contaminants can enter the food chain through soil and water, potentially affecting human health, and call for better monitoring and cleanup strategies.
Agricultural Environmental Pollution, Risk Assessment, and Control
This book chapter reviews the growing burden of agricultural environmental pollution — from pesticide residues to microplastics and heavy metals — and evaluates risk assessment frameworks and control strategies for protecting soil health and food safety.
Pay Attention to Research on Microplastic Pollution in Soil for Prevention of Ecological and Food Chain Risks
This review summarizes research on microplastic sources, accumulation, degradation, and ecological effects in agricultural soils, arguing that soil microplastic pollution deserves the same level of attention as marine microplastic pollution. The paper calls for greater investment in understanding how microplastics affect soil organisms, plant health, and food safety in terrestrial food production systems.
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 as an Emerging Environmental Pollutant in Agricultural Soils: Effects on Ecosystems and Human Health
This review examines how microplastics enter and move through agricultural soil ecosystems, affecting soil properties, nutrient cycling, and the organisms that live in and depend on healthy soil. Researchers found that microplastics can alter key biogeochemical processes and interact with co-existing pollutants like heavy metals and pesticides, potentially compounding their harmful effects. The study highlights the need for prevention and control strategies as microplastic contamination of farmland becomes an increasingly recognized environmental and potential human health concern.
The microplastics pollution in agricultural soils global trends and prospects research: bibliometric analysis
This bibliometric analysis reviewed global research trends on microplastic pollution in agricultural soils, finding rapidly growing scientific interest and identifying key knowledge gaps. Soil microplastic contamination poses risks to soil health, crop growth, and ultimately human food safety.
Effects of microplastic pollution on agricultural soil and crops based on a global meta‐analysis
This meta-analysis examined data from studies worldwide to assess how microplastic pollution affects agricultural soil and crops. Researchers found that microplastics can alter soil properties including enzyme activity and nutrient availability, with effects varying by plastic type, concentration, and size. The study suggests that microplastic contamination in farmland may affect both soil health and crop growth in ways that depend heavily on local conditions.
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.
Beneath the Surface: Unmasking the Global Crisis of Soil Pollution
This review examines soil pollution as a global crisis driven by industrial emissions, intensive agriculture, and poor waste management, covering how heavy metals, pesticides, microplastics, and emerging contaminants accumulate in soils, degrade microbial communities, reduce crop yields, and enter the food chain.