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Papers
20 resultsShowing papers similar to Nanoplastics (NPs): Environmental Presence, Ecological Implications, and Mitigation Approaches
ClearMicroplastics and Nanoplastics in the Environment: Sources, Toxicity, and Ecological Implications
This review summarized the sources, environmental distribution, toxicological effects, and ecological impacts of microplastics and nanoplastics, drawing on two decades of research across marine, freshwater, soil, and atmospheric environments. The paper highlighted the global scale of MNP contamination and the urgent need for policy action to reduce plastic pollution.
Micro/nano-plastics occurrence, identification, risk analysis and mitigation: challenges and perspectives
This review provides a comprehensive overview of micro- and nanoplastic pollution, covering their sources, occurrence in different environments, identification methods, and potential risks to ecosystems and human health. Researchers examined current analytical techniques and found significant gaps in the ability to detect and quantify the smallest plastic particles. The study outlines mitigation strategies including improved waste management, advanced filtration, and biodegradable alternatives.
Nanoscale plastic pollution: sources, identification and potential mitigation
This review examines the sources, environmental fate, and potential mitigation strategies for nanoscale plastic pollution, tracing the accumulation of plastic particles from millimetre to nanometre scales over decades. It highlights key knowledge gaps and emerging approaches for reducing nanoplastic contamination in ecosystems.
Review on impacts of micro- and nano-plastic on aquatic ecosystems and mitigation strategies
This review examines the environmental fate, ecological impacts, and remediation strategies for microplastics and nanoplastics in aquatic ecosystems. Researchers highlight that microbial remediation shows particular promise for breaking down these pollutants, while many nations are adopting regulations to limit plastic contamination of waterways. The study suggests that integrating approaches from nanoscience, microbial ecology, and remediation technologies is needed to address this growing environmental challenge.
Microplastics and Nanoplastics in the Environment: Sources, Toxicity, and Ecological Implications
This review covered the sources, environmental fate, toxicological effects, and ecological risks of microplastics and nanoplastics across all environmental compartments. The authors emphasized the bioaccumulation potential, persistence, and toxic effects of MNPs and called for coordinated international efforts to address this global contamination challenge.
Detection and Fate of Microplastics and Nanoplastics and Technologies for Their Removal
This review covers the detection, environmental fate, and removal technologies for microplastics and nanoplastics across aquatic, terrestrial, and atmospheric ecosystems. Researchers summarize the current understanding of how these particles are distributed in environmental matrices and biota, from marine organisms to human tissues. The study highlights both the scale of the contamination problem and the emerging technologies being developed to address it.
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.
A review on occurrence, characteristics, toxicology and treatment of nanoplastic waste in the environment
This review summarizes the current understanding of nanoplastic pollution, including sources, occurrence in water, soil, and air, and potential toxicity to aquatic and terrestrial organisms. The study highlights major gaps in analytical methods for detecting nanoplastics and calls for more research on their environmental fate and health effects.
State of the Art of Microplastic and Nanoplastic Pollution: Origin and Removal Methods
This review traces the origins of microplastic and nanoplastic pollution, examining their sources, environmental pathways, and removal methods across water, soil, and air, as well as their instantaneous and long-term effects on living organisms. The study emphasizes that despite recognition as a contaminant since 2004, micro- and nanoplastics remain poorly regulated globally.
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.
Challenges and opportunities in sustainable management of microplastics and nanoplastics in the environment
This review examines the challenges and emerging strategies for sustainably managing micro- and nanoplastic pollution in the environment. Researchers assessed various approaches including advanced filtration, biodegradation, chemical recycling, and policy interventions aimed at reducing plastic waste. The study emphasizes that achieving meaningful progress will require combining technological solutions with stronger regulations and changes in how plastics are produced and consumed.
Nanoplastics in the Environment: Sources, Fate, Toxicity, Challenges and Mitigation Strategies
This review covers the formation, environmental fate, and health risks of nanoplastics, emphasizing their capacity to penetrate biological barriers and cause oxidative stress, inflammation, DNA damage, and endocrine disruption, alongside current strategies for mitigation.
Microplastics and Nanoplastics in the Freshwater and Terrestrial Environment: A Review
This review critically analyzes the current state of research on micro- and nanoplastic pollution in freshwater and terrestrial environments. Researchers examine how these particles are transported through soil and water systems, their environmental fate, and their ecological impacts on living organisms. The study identifies significant knowledge gaps in the field, particularly around the characterization of nanoplastics and the long-term effects of plastic particle accumulation in non-marine environments.
A Path to a Reduction in Micro and Nanoplastics Pollution
This review outlines strategies for reducing micro and nanoplastic pollution, covering prevention, cleanup, and policy approaches. The authors discuss biodegradable alternatives, improved waste management, advanced filtration, and regulatory frameworks that could help address the problem. The paper emphasizes that tackling microplastic pollution requires action across manufacturing, disposal, and environmental remediation.
Nanoplastics: A Complex, Polluting Terra Incognita
This study discusses nanoplastics as a complex and poorly understood class of environmental pollutants, highlighting the significant knowledge gaps in understanding their sources, fate, and ecological impacts.
Methods for Micro‐ and Nanoplastics Analysis
This review examines analytical methods for detecting, identifying, and quantifying micro- and nanoplastics across terrestrial, aquatic, and atmospheric environments, evaluating identification and quantification techniques as prerequisites for effective remediation of these pervasive contaminants.
Dynamics and Impacts of Microplastics (MPs) and Nanoplastics (NPs) on Ecosystems and Biogeochemical Processes: The Need for Robust Regulatory Frameworks
This review examines how microplastics and nanoplastics disrupt ecosystems by altering soil health, nutrient cycles, and microbial communities, while also carrying toxic compounds through food chains. The authors highlight a major gap in the field: there are no standardized methods for measuring microplastics, making it hard to compare studies. They call for stronger regulations and consistent research methods to better protect the environment.
Impact of Microplastics on the Environment and Its Mitigation
This review examines the environmental and biological hazards of microplastics across terrestrial and aquatic ecosystems, covering their classification as fibers, flakes, fragments, granules, and spheres, their capacity to carry toxic chemicals, and their sorption-desorption dynamics. The authors identify significant gaps in analytical methodology and biological impact data, calling for novel mitigation strategies to address the long-term ecological risks of this emerging contaminant.
Environmental fate, toxicity and risk management strategies of nanoplastics in the environment: Current status and future perspectives
This review provides a comprehensive look at nanoplastics -- tiny plastic particles smaller than one micrometer -- covering their environmental fate, toxic effects on organisms, and potential risks to ecosystems. Researchers found that nanoplastics can carry other pollutants like heavy metals and even serve as habitats for bacteria and viruses. The study calls for more research across all environmental compartments, including soil, air, and groundwater, to fully understand the scope of nanoplastic contamination.
Nanoplastics in aquatic environments: Origin, separation and characterization: Review
This review covers the origins, separation methods, and characterization of nanoplastics in aquatic environments. Nanoplastics (1–100 nm) are particularly concerning because their tiny size gives them a large surface area for adsorbing pollutants and allows them to penetrate biological barriers more easily than larger microplastics.