We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Papers
61,005 resultsShowing papers similar to The review of nanoplastics in plants: Detection, analysis, uptake, migration and risk
ClearUptake and transport of micro/nanoplastics in terrestrial plants: Detection, mechanisms, and influencing factors
This review summarizes how micro and nanoplastics enter and move through plants, including uptake through roots and leaves via processes like endocytosis and movement through cell walls. Smaller particles penetrate more easily, and factors like surface charge and soil conditions affect how much plastic plants absorb. The findings are important because they show that crops can take up microplastics from contaminated soil, creating a potential pathway for these particles to reach the human diet.
Transport of Nanoparticles into Plants and Their Detection Methods
This review examines how nanoparticles enter plants through roots, leaves, and stems, and the methods scientists use to track them inside plant tissues. While focused broadly on nanoparticles used in agriculture and biotechnology, the findings are directly relevant to understanding how nanoplastics in soil and water can be taken up by food crops. The research highlights that particle size, charge, and coating all affect how readily nanoparticles penetrate plant barriers and accumulate in edible parts.
Uptake, transport and accumulation of micro- and nano-plastics in terrestrial plants and health risk associated with their transfer to food chain - A mini review.
This review examines how micro- and nano-plastics (MNPs) are taken up, transported, and accumulated in terrestrial plants, and assesses the associated health risks as MNPs transfer through the food chain from contaminated soil and water environments.
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.
From Soil to Table: Pathways, Influencing Factors, and Human Health Risks of Micro- and Nanoplastic Uptake by Plants in Terrestrial Ecosystems
This review traces the pathways by which micro- and nanoplastics move from soil into food crops in terrestrial ecosystems. Researchers found that plants absorb these particles through roots and atmospheric deposition, with adverse effects on plant growth and development, raising concerns about food chain contamination and human health risks from consuming affected crops.
A Systematic Review on Emission, Accumulation, Mechanism, and Toxicity Perspective of Micro‐Nanoplastics in the Soil–Plant Nexus
This systematic review examines how micro- and nanoplastics enter soil, accumulate in plants, and move through the soil-plant system. The research shows that microplastics alter soil properties, affect plant growth, and can be taken up by crop roots and transported to edible plant parts. This is a direct concern for human health because it means microplastics in agricultural soil may end up in the fruits and vegetables people consume.
Behavior of Microplastics and Nanoplasticsin Farmland Soil Environment and Mechanismsof Interaction with Plants
This review summarizes how microplastics and nanoplastics behave in farmland soil and how they interact with crop plants. Nanoplastics are especially concerning because they can travel through plant roots and move via internal transport systems to reach leaves, fruits, and even seeds. The review highlights that microplastic-contaminated soil could lead to plastic particles entering the human food chain through the crops we eat, though more long-term studies are needed to fully understand the risks.
Particulate plastics-plant interaction in soil and its implications: A review
This review examines how micro- and nanoplastics in soil interact with plants, including uptake through roots, accumulation in plant tissues, and effects on growth, nutrient absorption, and soil microbial communities. The study highlights that these plastic particles can alter soil structure and chemistry in ways that affect crop development, raising concerns about food safety and agricultural productivity.
Fate of plastic nanoparticles (PNPs) in soil and plant systems: Current status & research gaps
This review examined the fate of plastic nanoparticles in soil and plant systems, highlighting how nanoparticles can be taken up by plant roots, translocated through tissues, and potentially enter the food chain, while identifying critical research gaps in toxicity assessment.
Uptake and Accumulation of Nano/Microplastics in Plants: A Critical Review
This review summarizes the latest research on how microplastics and nanoplastics are taken up by food crops through roots and leaves. Nanoplastics can penetrate plant cell walls more easily than larger microplastics, and the water-pulling force of transpiration is the main driver moving particles up through the plant. These findings are important for food safety because they confirm that plastic particles in contaminated soil can end up inside the fruits and vegetables people eat.
Nanoplastic–plant interaction and implications for soil health
This review summarizes research on how nanoplastics interact with plants in soil environments, finding that these tiny particles can be taken up by roots and transported to all plant organs, including edible parts like grain. Researchers found that nanoplastics induce oxidative stress in plants, inhibiting photosynthesis and growth, and can also carry other soil pollutants into plant tissues. The study highlights significant concerns about nanoplastic contamination entering the food chain through agricultural crops.
How do nanoplastics hijack crop physiology: A review of uptake pathways and agricultural sustainability implications
This research review summarizes how tiny plastic particles called nanoplastics can get inside crop plants through their roots and leaves, potentially harming how plants grow and produce food. These ultra-small plastic pieces interfere with how plants absorb nutrients and respond to stress, which could threaten our food supply. Since we eat these crops, understanding how nanoplastics affect plant health is important for protecting both agriculture and human health.
Micro and nano plastics in fruits and vegetables: A review.
This review examined how microplastics contaminate fruits and vegetables through root uptake, surface adhesion, and irrigation water, covering analytical methods for detection and highlighting the role of plants as an underappreciated entry point for plastics into the human food chain.
Nanoparticles in Plants: Uptake, Transport and Physiological Activity in Leaf and Root
This review examines how nanoparticles are absorbed and transported through plant roots and leaves, and how they affect plant growth and health. Understanding nanoparticle uptake by crops is important because similar mechanisms may apply to nanoplastics, meaning tiny plastic particles in soil could potentially enter the food supply through plants.
From soils to edible tissues: Critical assessment of techniques for detecting micro- and nanoplastics in agroecosystems
This review evaluates analytical techniques for detecting micro- and nanoplastics across the agricultural soil-plant-food pathway, from field sampling through polymer identification. The authors critically assess detection limits, recovery biases, and method suitability for complex agricultural matrices at each stage of the food production chain. The study highlights that standardized, validated methods are urgently needed to reliably track plastic contamination from farm soils into edible plant tissues.
Research Progress on the Mechanisms of Terrestrial Plant Uptake, Transport, and Growth Inhibition Responses to Micro (nano) Plastics
This review synthesizes current research on how terrestrial plants take up micro- and nanoplastics from contaminated soil, finding that particles can enter through roots, accumulate in plant tissues, block root function, and trigger oxidative damage that stunts growth. These pathways mean that food crops grown in microplastic-contaminated soils could expose humans to plastic particles through the diet, in addition to the harm caused to agricultural productivity.
Exploring omics solutions to reduce micro/nanoplastic toxicity in plants: A comprehensive overview
This review summarizes how advanced biological analysis techniques are being used to understand how micro- and nanoplastics harm crops by disrupting water uptake, nutrient absorption, and photosynthesis. Since these tiny plastic particles accumulate in agricultural soil and can enter the food chain, the research highlights a potential pathway for microplastics to reach humans through the food we eat.
Bibliometric analysis and systematic review of the adherence, uptake, translocation, and reduction of micro/nanoplastics in terrestrial plants
This bibliometric analysis and systematic review synthesized research on how micro- and nanoplastics adhere to, are absorbed by, and translocate through terrestrial plants, with potential accumulation in edible tissues. The study found that particle size, surface charge, and plant species all influence uptake, and that current research lacks standardized methods, making it difficult to fully assess the risk of microplastics entering the human food chain through crops.
Micro and nanoplastics pollution: Sources, distribution, uptake in plants, toxicological effects, and innovative remediation strategies for environmental sustainability
This review examines how microplastics and nanoplastics enter plants through roots, disrupt growth and photosynthesis, and cause oxidative stress that reduces crop yields. Because these plastic particles can move through plant tissues and into edible parts, they represent a potential pathway for microplastics to enter the human food supply.
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.
The hidden impacts of micro/nanoplastics on soil, crop and human health
This review examines the chain of impacts from micro- and nanoplastics in soil through crop uptake to potential human health effects. Researchers found that these tiny particles can stick to plant roots, enter crop tissues, and carry toxic chemicals along with them. The study highlights that this soil-to-plate pathway is still poorly understood and calls for more research into how agricultural microplastic contamination may affect the food we eat.
Micro (nano) plastic pollution: The ecological influence on soil-plant system and human health.
This review examines how micro- and nanoplastics affect soil health, plant growth, and food quality, finding that these particles accumulate in plant root systems and can reduce crop yields and alter nutritional content. Since contaminated soil and water are increasingly delivering microplastics to food crops, these findings are directly relevant to agricultural food safety.
Recent advances on microplastics/nanoplastics interaction with plant species: A concise review
This review synthesizes research on how microplastics and nanoplastics interact with plants, finding that plastic particles in soil can interfere with root uptake, germination, and crop yields depending on the type and concentration of plastic present. The findings are particularly relevant to human health because food crops grown in microplastic-contaminated agricultural soils may absorb or accumulate plastic particles, creating a direct dietary exposure route.
Microplastic/nanoplastic toxicity in plants: an imminent concern
This review examines the growing body of research on how microplastics and nanoplastics affect terrestrial plants, from root uptake to changes in growth and gene expression. Researchers found that these particles can alter plant physiology and biochemistry at varying degrees depending on particle size and concentration. The study calls for more research on how plastic contamination in soil may ultimately affect food crop quality and human health through the food chain.