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 Mitigation Strategies and Policies for Microplastics Pollution in Biotic Systems
ClearPolicy and Regulatory Approaches to Mitigating Micro- and Nano Plastic Pollution
This chapter reviews policy and regulatory approaches to addressing microplastic and nanoplastic pollution globally. The study examines existing regulations, treatment technologies, and prevention strategies including product design modifications and improved waste management. The authors emphasize that effective governance requires collaboration among stakeholders and continued research, particularly on nanoplastics and human health impacts.
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.
Microplastics in marine ecosystems: Sources, effects, and mitigation strategies
This review examines the sources, environmental pathways, ecological impacts across trophic levels, and mitigation strategies for microplastic pollution in marine ecosystems, synthesizing current evidence on biological harm and evaluating policy frameworks, technological solutions, and individual behavioral changes aimed at reducing marine microplastic loads.
Micro/Nano-Plastics Pollution
This chapter examines the origins, characteristics, effects, and removal methods for micro- and nanoplastic particles in ecosystems, covering both primary and secondary particle types and their ability to carry harmful substances and disrupt food webs. The authors emphasize that collaborative efforts among researchers, policymakers, and industries are essential for effective detection, mitigation, and prevention strategies.
Microplastic Pollution: Advancements in Mitigation, Policy Challenges, and Future Directions
This review provides an integrated assessment of biological, technological, and policy interventions for mitigating microplastic pollution. Researchers found that filtration is the most deployment-ready option but struggles with the smallest particles, while advanced oxidation and biological approaches each have significant scalability limitations. The study calls for coordinated interdisciplinary action to develop comprehensive strategies for addressing this widespread environmental challenge.
Status of management and mitigation of microplastic pollution
This review summarizes strategies for managing microplastic pollution, including reducing plastic use, improving recycling, developing sustainable alternatives, and enhancing wastewater treatment. The authors emphasize that no single approach is enough -- effective management requires combining policy, technology, public education, and industry changes. Reducing microplastic levels in the environment is critical because these particles have been found in human tissues, food, and drinking water.
Microplastics Pollution and its Remediation
This publication reviews the growing problem of microplastic pollution in the environment and explores biological and technological strategies for remediation, including microbial degradation and engineered solutions. It highlights the urgent need for practical cleanup approaches as microplastics continue to accumulate across ecosystems worldwide.
Tackling microplastics pollution in global environment through integration of applied technology, policy instruments, and legislation
This review examines the global microplastics pollution problem and evaluates solutions combining technology, policy, and legislation. Current water treatment technologies like membrane bioreactors can remove microplastics, but no single approach is sufficient. The authors call for coordinated international action combining better detection methods, cleanup technologies, and stronger regulations to address plastic pollution in both water and land environments.
Microplastics in ecosystems: ecotoxicological threats and strategies for mitigation and governance
This review provides a broad assessment of microplastic pollution across ecosystems, covering sources, detection methods, ecological impacts, and cleanup strategies. The study highlights recent advances including AI-enhanced detection tools and microbe-based degradation approaches, and proposes a roadmap for working toward microplastic-free environments through coordinated scientific and policy action.
Solutions to Microplastics Pollution
This book chapter reviews current and emerging solutions to microplastic pollution, arguing that most research focuses on enrichment blocking while neglecting policy regulation, source substitution, and recycling approaches. It calls for comprehensive treatment strategies that address the full lifecycle of plastics rather than only end-of-pipe MP capture.
Microplastic pollution in marine ecosystems: sources, impacts, andstakeholder-based solutions
This review covers the sources, pathways, and biological impacts of microplastics in marine ecosystems — including physical injury, chemical toxicity, and food web disruption — and proposes stakeholder-based solutions combining regulation, monitoring, and public engagement.
Current Advances in Strategies to Mitigate the Impacts of Micro/Nano Plastics: A Review
This review summarizes current strategies for mitigating the environmental and health impacts of micro- and nanoplastics, covering physical, chemical, and biological approaches to removal and degradation. It highlights that no single solution is adequate and that a combination of prevention, better waste management, and remediation technologies will be needed.
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 Pollution in Aquatic Ecosystems: Challenges and Perspectives
A comprehensive review covered the challenges and future directions for addressing microplastic pollution in aquatic ecosystems, synthesizing knowledge on sources, fate, ecological impacts, and removal strategies. The paper provides a roadmap for research and policy priorities to reduce aquatic microplastic contamination.
Mitigation of Microplastics
This book chapter examines strategies for managing and mitigating microplastic contamination in terrestrial environments, covering source reduction, physical removal techniques, bioremediation approaches, and policy frameworks needed to address the scale of soil plastic pollution.
Addressing the microplastic crisis: A multifaceted approach to removal and regulation
Researchers reviewed the growing crisis of microplastic pollution and concluded that no single solution is sufficient — effective action requires combining better wastewater treatment, biodegradable plastic alternatives, stricter regulations, public education, and new detection technologies. They identified major knowledge gaps in understanding the full health and ecological impacts, underscoring the need for global cooperation.
Microplastic menace: a path forward with innovative solutions to reduce pollution
This paper reviewed microplastic contamination as a complex and persistent pollutant class in aquatic ecosystems and surveyed innovative solutions being developed to reduce pollution, including advanced detection methods, filtration technologies, and biological degradation approaches. The review emphasized the need for integrated strategies spanning pollution prevention, monitoring, and remediation.
Microplastic Pollution: Sources, Degradation Mechanisms, Analytical Advances, and Mitigation Strategies for Environmental Sustainability
This review provides a comprehensive overview of microplastic pollution, covering sources, how plastics break down in the environment, detection methods capable of identifying particles down to 100 nanometers, and current mitigation strategies. Researchers evaluate approaches including advanced wastewater treatment, bio-based materials for removing microplastics, and emerging regulatory frameworks like the EU's 2023 microplastics restriction proposal. The study identifies critical research gaps and calls for interdisciplinary solutions to manage this growing environmental challenge.
Microplastics in Aquatic Ecosystems: Pathways, Impacts and Integrated Solutions for Environment and Human Health
This review synthesizes current knowledge on microplastic contamination in freshwater and marine ecosystems, covering their sources, environmental behavior, and biological effects. Evidence indicates that microplastics enter waterways through wastewater, runoff, atmospheric deposition, and the breakdown of larger debris, and they accumulate across food webs through ingestion and trophic transfer. The study calls for integrated solutions combining reduced plastic use, advanced filtration, bioremediation, and stronger policy enforcement.
Micro/Nano Plastics in Aquatic Biota: Concerns, Risks, Mitigation, and Policies
This review covers the occurrence, risks, and policy responses to micro- and nanoplastics in aquatic environments, examining how plastic fragments accumulate in biota from invertebrates to humans through the food chain and evaluating remediation and regulatory mitigation approaches.
Microplastics in the environment: An urgent need for coordinated waste management policies and strategies
This review highlights that microplastic pollution affects marine ecosystems, farmland, and human health, but current waste management policies are fragmented and insufficient. The authors evaluate existing strategies and propose practical solutions including better recycling programs, product redesign to reduce plastic use, and coordinated international policy. Addressing the microplastic problem requires not just cleanup technology but systemic changes in how we produce, use, and dispose of plastics.
Governance Strategies for Mitigating Microplastic Pollution in the Marine Environment: A Review
This review assessed the sources, spread, and impacts of microplastic pollution in marine environments and evaluated existing governance strategies for addressing the problem. Researchers found significant gaps in management approaches, including limited community involvement in monitoring and a lack of standardized mitigation strategies for coastal areas. The study calls for stronger policy interventions, more citizen science initiatives, and coordinated international efforts to reduce microplastic pollution in the oceans.
Detection to Remediation: Strategies for Managing Microplastic Pollution in Freshwater Systems
This review outlines strategies for detecting and remediating microplastic pollution in freshwater systems, covering primary and secondary sources, conventional and emerging detection techniques, and remediation approaches including filtration, bioremediation, and policy interventions.
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.