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61,005 resultsShowing papers similar to Unraveling Microplastics: Sources, Environment and Health Impacts, and Detection Techniques
ClearEvaluation of Monitoring Technologies and Methods for Micro Plastics in Water as Novel Pollutants
This review surveys the range of technologies currently available for detecting and monitoring microplastics in water, including spectroscopic, microscopic, and chemical identification methods, outlining the strengths and limitations of each. Consistent and effective monitoring is identified as essential for controlling microplastic pollution, yet no single approach yet meets all needs across diverse water types and concentrations. The paper calls for stronger monitoring frameworks to support both research and regulatory decision-making on microplastic contamination.
Microplastics in aquatic environment: Challenges and perspectives
This review provides a comprehensive overview of microplastic pollution in water environments, covering sources, transport, health effects, detection methods, and control strategies. Microplastics enter waterways from everyday plastic products, industrial discharge, and wastewater treatment plants, where aquatic organisms ingest them and pass them up the food chain. The review highlights the urgent need for better analytical techniques and global policies to reduce microplastic contamination that ultimately reaches human food and drinking water.
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.
A Systematic Review of Microplastic Detection in Water
This systematic review summarizes current methods for detecting microplastics in water sources. The research highlights significant challenges in accurately measuring these tiny plastic particles, with different techniques yielding very different results. Better detection methods are essential for understanding how much microplastic is present in the water people drink and use daily.
A Review of Microplastic Identification and Characterization Methods in Aquatic Environments
This review evaluates the various methods used to identify and characterize microplastics in water environments, from visual sorting to advanced spectroscopy and thermal analysis techniques. Researchers compared the strengths and limitations of each approach, noting that no single method can fully capture the diversity of microplastic pollution. The study recommends combining multiple analytical techniques and standardizing protocols to improve the reliability of microplastic monitoring worldwide.
Evaluating Microplastic Detection Techniques in Human-Impacted Water Systems: A Mini-Review
This mini-review summarizes the current methods scientists use to detect microplastics in water systems affected by human activity. It provides an overview of the tools and techniques available for identifying and measuring these tiny plastic particles. Understanding detection methods is important because accurate measurement is the first step toward assessing how much microplastic pollution people are exposed to through water.
The power of a multi-technique approach for the reliable quantification of microplastics in water
Researchers applied a multi-technique analytical approach combining several spectroscopic and microscopic methods to improve the reliability of microplastic quantification in environmental samples. The combined approach reduced false positives and improved polymer identification accuracy compared to any single method used alone.
Microplastic: Unveiling the Stealthy Polluters in Our Water
This review covers microplastic contamination in water sources, documenting sources, environmental pathways, analytical detection methods, and potential human health risks from drinking water containing plastic particles, along with emerging mitigation strategies.
Study of Advanced Techniques for Inquisition, Segregation and Removal of Microplastics from Water Streams: Current Insights and Future Directions
This review surveys the full toolkit of methods used to detect, separate, and remove microplastics from water and wastewater, covering spectroscopic, microscopic, and chromatographic detection alongside physical, chemical, and biological removal strategies. It highlights that no single approach is sufficient and that combining methods — including emerging microfluidic and enzymatic techniques — will be necessary to effectively tackle microplastic contamination in water systems.
Current status of microplastic pollution and the latest treatment technologies
This review provides a comprehensive overview of global microplastic pollution, covering sources, distribution across water, soil, and air, and potential hazards to human health. Researchers summarized the latest analytical techniques for detecting microplastics and current countermeasures being developed to address the problem. The study highlights that microplastics come from diverse sources and that their small size allows them to enter the body through multiple pathways.
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.
Microplastics in Water Bodies and in the Environment
This review examines microplastics and nanoplastics as emerging pollutants of concern in water bodies and broader environments, synthesizing current knowledge on their sources, distribution, detection methods, and ecological and human health implications. It discusses the challenges of monitoring these contaminants across freshwater, marine, and terrestrial systems given the diversity of particle types, sizes, and polymer compositions involved.
Analytical methods for the determination of microplastics in the environment
This review examines analytical methods used to identify and quantify microplastics in environmental samples, covering microscopy, spectroscopy, and chromatographic techniques as applied to water, soil, and biological matrices. The work evaluates the advantages and limitations of each method, discussing their real-world applicability for standardised microplastic monitoring across different sample types.
Microplastics in water: types, detection, and removal strategies
This review covers the different types of microplastics found in water, methods used to detect them, and strategies for removing them from water sources. Microplastics enter water systems from both industrial sources and the breakdown of larger plastic waste, posing threats to aquatic life and potentially human health. The authors evaluate removal techniques including filtration, chemical treatment, and biological approaches that could help clean contaminated water.
Analytical Techniques for the Detection and Characterization of Microplastics: an Overview
This overview reviews state-of-the-art analytical methods for identifying and characterizing microplastics, covering spectroscopic and microscopic approaches and their strengths and limitations for detecting plastic particles across environmental compartments including water, soil, and biological samples.
Microplastics in Water: A Review of Characterization and Removal Methods
This review surveys seven methods for identifying microplastics in water and evaluates their strengths and limitations, from simple visual inspection to advanced spectroscopy techniques. Researchers also assessed current removal strategies, including filtration, coagulation, and biodegradation, highlighting what works and what still needs improvement. The study provides a practical reference for selecting the right tools to detect and address microplastic contamination in water systems.
Advanced analytical techniques for assessing and detecting microplastic pollution in water and wastewater systems
This review evaluates the various laboratory methods available for detecting and measuring microplastics in water and wastewater, including spectroscopy, thermal analysis, and newer combined techniques. Each method has different strengths and limitations in terms of what particle sizes they can detect and how accurately they identify plastic types. The review helps researchers choose the right tools for measuring microplastic contamination, which is essential for understanding how much microplastic people are exposed to through drinking water.
Environmental Microplastics Distribution, Impact, and Determination Methods: a Review
This review provides a comprehensive overview of global microplastic distribution, their environmental and health impacts, and the analytical methods used to detect and quantify them. Researchers classified detection techniques into traditional, post-traditional, and advanced categories and identified significant gaps in current monitoring coverage. The study also presents possible removal approaches including biodegradation and the use of biodegradable plastic substitutes as paths toward reducing microplastic pollution.
Microplastics in water: occurrence, detection, and impacts – a comprehensive review of multiple studies
This comprehensive review synthesized current knowledge on microplastic occurrence, detection methods, and impacts across marine, freshwater, and remote aquatic ecosystems. Researchers highlighted that microplastic concentrations are particularly high in urban rivers, transported through runoff, atmospheric deposition, and river input. The review identifies critical research gaps including the need for standardized detection methods and more studies on chronic human exposure through contaminated seafood and drinking water.
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.
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.
Microplastics in Aquatic Environments: Sources, Ecotoxicity, Detection & Remediation
This review provides a comprehensive overview of microplastic sources, ecotoxicity, detection methods, and remediation strategies in aquatic environments. Researchers found that microplastics act as carriers for toxic chemicals and pose threats to both marine and freshwater ecosystems as well as human health through drinking water exposure. The study highlights the need for improved detection technologies and effective remediation approaches to address this growing environmental challenge.
New methodologies for the detection, identification, and quantification of microplastics and their environmental degradation by-products
This review covers new methodologies for sampling, detecting, identifying, and quantifying microplastics and their environmental degradation byproducts in natural water systems, highlighting advances in spectroscopic, mass spectrometric, and imaging-based approaches.
Advancing Micro Plastic Analysis: A Comprehensive Review of Detection and Characterization Techniques
This review evaluates the current state of microplastic detection and characterization methods, from visual identification to advanced spectroscopic techniques. Researchers highlighted the challenges of detecting microplastics in complex environmental samples and the limitations of existing approaches. The study calls for standardized methods and emerging technologies to improve the accuracy and reliability of microplastic analysis across different ecosystems.