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61,005 resultsShowing papers similar to Determination of Microplastics in Environmental Toxicology
ClearCurrent Advances in Evaluation of Microplastics in Environmental Toxicology
This review paper summarizes existing research on microplastics—tiny pieces of plastic smaller than 5 millimeters that are now found everywhere in our environment. These microscopic plastic particles are becoming a major pollution problem because they can harm wildlife and potentially threaten human health as they spread through land and water systems. Understanding how to detect and study these particles is important because they may be entering our food and water supply.
A review on microplastics: sources, environmental fate, degradation pathways, and analytical identification methods.
This review paper summarizes existing research on tiny plastic particles called microplastics and how scientists detect them in the environment. Microplastics are a growing concern because they contaminate our air, water, and food, potentially affecting human health when we breathe or eat them. The researchers found that new, cheaper detection methods could help us better monitor these plastic particles and understand their impact on our health and environment.
Sampling and Sample Preparation Techniques for Micro- and Nanoplastics
Scientists don't have a standard way to find and measure tiny plastic particles (microplastics) in our environment, making it hard to compare research results. This review paper examines different methods researchers use to detect these plastic particles in air, water, soil, food, and living things. Having better, consistent testing methods is important because microplastics are found throughout our environment and food chain, but we can't properly track their health effects without reliable measurement techniques.
Microplastics in the Environment: Sources, Detection Techniques, and Analytical Challenges
Researchers review the current state of microplastic science, covering how these tiny plastic particles (under 5mm) enter soil and water from sources like personal care products and degrading plastic waste, and survey the wide range of detection methods — including microscopy, spectroscopy, and machine learning — while identifying the lack of standardized testing as a major remaining challenge.
Microplastics: Environmental Occurrence and Analytical Challenges
This comprehensive literature review examines how microplastics — plastic particles between 1 micrometer and 5 mm — enter and move through ecosystems, and what analytical methods are used to detect them. Despite being found throughout the world, the environmental consequences and toxic effects of microplastics on living organisms are still not fully understood.
Challenges and Advances in Analytical Techniques to Detect Micro- and Nanoplastics
This research review summarizes the current methods scientists use to detect and study microplastics and nanoplastics - tiny plastic particles that can get into our environment, food, and bodies. The authors explain that identifying these extremely small plastic pieces is very challenging and requires advanced laboratory techniques to understand what types of plastics they are and how much is present. Better detection methods are important because we need to understand how much plastic pollution we're exposed to and its potential effects on human health.
A review on the occurrence, analytical methods, and impact of microplastics in the environment
This review summarizes what is known about microplastic pollution across soil, water, and air environments, including how scientists detect and measure these particles. The evidence shows microplastics can disrupt immune function, cause nerve damage, and contribute to other health problems in living organisms. The authors note that research methods still need standardization, but the existing data clearly points to microplastics as a serious and growing threat to human health.
Unraveling Microplastics: Sources, Environment and Health Impacts, and Detection Techniques
This research review summarizes what we know about microplastics—tiny pieces of plastic pollution that are now found everywhere in our environment, including inside human bodies. Scientists have found these plastic particles in our water, food, and even our blood, but we still don't fully understand what health problems they might cause. The study shows we need better ways to detect and measure microplastics, plus more research and government action to protect people from this growing pollution problem.
Chemical Analysis of Microplastics and Nanoplastics: Challenges, Advanced Methods, and Perspectives
This review covers the latest laboratory methods for detecting and measuring microplastics and nanoplastics in environmental samples like water, food, and air. Identifying these tiny particles is extremely challenging because they vary enormously in size, shape, and plastic type, and concentrations can differ by billions of times between samples. Better standardized detection methods are essential for accurately understanding how much microplastic humans are actually exposed to.
Detection and degradation of microplastics in the environment: a review
This review covers methods for detecting and breaking down microplastics in the environment. Microplastics persist in ecosystems and pose potential risks to both human health and wildlife. The paper highlights the need for better tools and strategies to address this growing pollution problem.
Microplastics in the Ecosystem: An Overview on Detection, Removal, Toxicity Assessment, and Control Release
This review provides a broad overview of microplastic pollution, covering how these tiny plastic particles are generated, detected, and removed from the environment. Researchers examined various detection methods and removal technologies while also assessing the toxic effects of microplastics on living organisms. The study emphasizes the need for better monitoring systems and more effective strategies to manage this growing environmental and health concern.
Challenges and Recent Analytical Advances in Micro/Nanoplastic Detection
This review covers the challenges scientists face in detecting and measuring micro- and nanoplastics in the environment, especially for particles smaller than one micrometer. Current analytical methods have significant limitations for identifying nanoplastics due to their extremely small size and diverse chemical compositions. Improving detection technology is essential for accurately assessing how much microplastic contamination exists in water, food, and human tissues.
Micro/nanoplastics in aquatic ecosystems: Analytical challenges, ecological impacts, and mitigation strategies
This review provides a comprehensive assessment of micro- and nanoplastic pollution in aquatic ecosystems, covering detection methods, toxic effects across the food chain, and emerging cleanup strategies. Researchers highlight the limitations of current analytical techniques and the challenges of accurately measuring these tiny particles in water and living organisms. The study identifies key research priorities needed to better understand and mitigate the growing threat of plastic particle pollution in waterways.
Microplastic Pollution: An In-depth Review of its Sources, Formation Mechanisms, Quantification Techniques, Environmental Impacts, Toxicological Effects and Remediation Strategies
This comprehensive review covers the full scope of microplastic pollution, from where microplastics come from and how they form, to how scientists detect and measure them. Researchers summarized the environmental and health impacts of microplastic contamination across ecosystems including water, soil, and air. The study also evaluates current cleanup and remediation strategies, highlighting the need for coordinated global efforts to address this widespread form of pollution.
Occurrence, impact, toxicity, and degradation methods of microplastics in environment—a review
This review summarizes current knowledge about microplastic pollution, covering where these particles come from, how they affect ecosystems, their toxic effects on organisms, and methods for breaking them down. Researchers found that microplastics are pervasive across aquatic and terrestrial environments and can harm organisms through ingestion, choking, and chemical exposure. The study examines physical, chemical, and biological degradation methods as potential tools for addressing microplastic contamination.
Microplastics and Environment: A mini Review on Detection, Removal, Health Issues and Regulation on India’s Perspective
This review addresses microplastic detection, removal, and health risks in India, examining how plastics degrade through various processes into microscopic particles that enter air, water, and food systems. The authors assess the current state of microplastic research, analytical methods, and regulatory frameworks in India and identify critical gaps in monitoring and policy.
Getting a grip on microplastics’ risks
This review examines the current state of microplastic risk assessment, noting that tiny plastic particles have been detected in water, food, air, human blood, lung tissue, and stool, yet their risks to human health and the environment remain unclear. The authors draw parallels with challenges faced in nanotoxicology and discuss how lessons from that field could improve methods for studying microplastic toxicity and exposure.
Environmental Fate and Ecological Risk of Micro- and Nanoplastics across Terrestrial and Aquatic Ecosystems
Scientists reviewed existing research on tiny plastic particles (microplastics and nanoplastics) and found they're spreading throughout soil, rivers, and oceans, where animals eat them and pass them up the food chain. These plastic particles cause stress and health problems in wildlife, but researchers still don't fully understand the long-term effects or how much exposure is dangerous. This matters because these same plastic particles can end up in our food and water, but we need better research methods to understand the real risks to human health.
Microplastics in aquatic environments: detection, abundance, characteristics, and toxicological studies
This review summarizes current knowledge about microplastics in water environments, covering how they are detected, how abundant they are, and what toxic effects they have on living organisms. Microplastics are found throughout aquatic systems and can accumulate in organisms while also spreading other pollutants through the environment. The authors emphasize that more attention should be paid to microplastics in freshwater and organisms closely linked to human food sources, as well as toxicity studies in mammals.
Micro- and Nano-Plastics Contaminants in the Environment: Sources, Fate, Toxicity, Detection, Remediation, and Sustainable Perspectives
This review provides a broad overview of micro- and nanoplastic pollution, covering where these particles come from, how they spread through the environment, and the damage they cause to living things including humans. The authors also compare different methods for removing microplastics from the environment, including physical, chemical, and biological approaches. The paper calls for more research and global cooperation to develop better tools for measuring the health risks of plastic pollution.
Challenge for the detection of microplastics in the environment
This review examines the major challenges in detecting and quantifying microplastics across different environmental matrices, including sampling inconsistencies, contamination risks, and limitations of current analytical methods. Addressing these methodological challenges is essential for producing reliable data on microplastic pollution levels worldwide.
Potential health, environmental implication of microplastics: A review on its detection
This review provides a comprehensive look at how microplastics contaminate both land and water environments and the challenges in accurately detecting and measuring them. Researchers discuss various detection techniques including spectroscopy and microscopy methods, noting that each has significant limitations in quantifying microplastic pollution. The study highlights the need for improved standardized methods to better understand the true scale of microplastic contamination and its effects on health.
Innovative overview of the occurrence, aging characteristics, and ecological toxicity of microplastics in environmental media
This review summarizes existing research on where microplastics are found in the environment, how they age and break down, and their toxic effects on living organisms. The paper highlights that as microplastics weather in the environment through sunlight and chemical exposure, they become smaller and can carry other pollutants, potentially increasing their health risks. It also covers emerging strategies for detecting and removing microplastics.
Review of Microplastic Distribution, Toxicity, Analysis Methods, and Removal Technologies
This review provides a broad overview of microplastic pollution, covering where microplastics are found globally, their potential health effects on humans and ecosystems, current analytical detection methods, and available removal technologies. Researchers note that significant gaps remain in understanding the full scope of microplastic toxicity and that no single removal method is fully effective. The study calls for continued development of both monitoring techniques and treatment technologies to address this pervasive environmental contaminant.