The book explores the subject's environmental, social, and economic concerns. Reviews physiochemical properties of microplastics and their influence on the interactions with organisms and cells. It also looks at how biofilms influence the transport, degradation and toxicity in aquatic environments.
Over the past century and a half, advancements in polymer scienceencompassing both natural and synthetic materialshave led to the development of strong, lightweight, and highly flexible polymers. Their remarkable diversity and versatility make them indispensable in modern life. However, the escalating accumulation of fragmented plastic waste in the environment has become a pressing global concern. Micro- and nanoplastics (MNPs), which tend to accumulate at the air-water interface, pose potential safety and security risks by serving as carriers for viruses. Currently, there is limited research on the effects of MNP consumption in both human and non-human models. This book provides a comprehensive examination of the challenges associated with MNPs, their environmental monitoring, and management strategies aimed at risk assessment and mitigation. It explores emerging techniques for identifying, collecting, and mitigating MNP contamination in aquatic ecosystems. Additionally, it delves into the toxicokinetics, fate, and transport of MNPs, including recent findings on their movement within the human body. A notable development in this field is the application of metamaterials for detecting and degrading organic pollutants and microplastics through photocatalysis. From a policy perspective, refining international standardsencompassing product labeling, responsible usage, and strategies for recycling, upcycling, and sustainable disposalremains imperative for mitigating the long-term impact of MNP pollution.
Preface.
1. Micro/Nano Plastics in Aquatic Biota: Concerns, Risks,
Mitigation, and Policies.
2. Microplastic Pollution Mitigation from Fresh and
Marine Water Bodies.
3. Properties and Related Effects of Microplastics in
the Aquatic Environment: From the Organismic to Cellular Level.
4. Beyond the
Surface: Biofilms and Microplastics in Aquatic Systems.
5. Evidence of
Microplastics in the Mediterranean (Adriatic) Sea and the Pacific Ocean.
6.
Sources and Impacts of Microplastics in Aquatic Environment and Remediation
Strategies.
7. Toxicokinetic Effects of Micro/Nano Plastics on Human Health.
8. Micro Plastic Hazards in Agricultural Ecosystems: Management and Policies
for Sustainable Agriculture.
9. Biodegradation Prerequisites for Microplastic
Pollution in Freshwater Lakes in Armenia.
10. Hazards Associated with
Micro/Nano Plastics in Agricultural Soils.
11. Micro-Nano Plastics in Aquatic
Environments: Associated Health Impacts and Mitigation Strategies. Index.
Ashok Vaseashta, Prof. Acad. is CEO/CTO and Executive Director for strategic research with the International Clean Water Institute in Virginia, USA. Inspired by nature and guided by societal necessities, he strives for technological innovations to address the global challenges of the 21st century. His research interests include foresight, nanotechnology, ecological science, green chemistry, micro/nano plastics, and critical infrastructure safety and security.
Maris Klavins, Prof. is director of the Natural Resource Research Centre of the University of Latvia and a professor in Environmental Chemistry and Ecotoxicology. He is a full member of Latvia's Academy of Sciences.
Olena Stabnikova, Prof. has 47 years of teaching and research experience in biotechnology and microbiology at the universities of Ukraine and Singapore and is now working in the Advanced research laboratory, NUFT. Her research experience includes environmental and ecological sciences, and the protection of the environment.
