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E-raamat: Handbook of Microplastic Pollution in the Environment: Microplastic Pollution in Aquatic Environments [Taylor & Francis e-raamat]

Edited by (Hassan II University, Morocco), Edited by
  • Formaat: 920 pages, 52 Tables, black and white; 151 Line drawings, black and white; 49 Halftones, black and white; 200 Illustrations, black and white
  • Ilmumisaeg: 29-Jun-2025
  • Kirjastus: CRC Press
  • ISBN-13: 9781003487555
Teised raamatud teemal:
  • Taylor & Francis e-raamat
  • Hind: 369,29 €*
  • * hind, mis tagab piiramatu üheaegsete kasutajate arvuga ligipääsu piiramatuks ajaks
  • Tavahind: 527,56 €
  • Säästad 30%
Handbook of Microplastic Pollution in the Environment: Microplastic Pollution in Aquatic EnvironmentsSuurem pilt
  • Formaat: 920 pages, 52 Tables, black and white; 151 Line drawings, black and white; 49 Halftones, black and white; 200 Illustrations, black and white
  • Ilmumisaeg: 29-Jun-2025
  • Kirjastus: CRC Press
  • ISBN-13: 9781003487555
Teised raamatud teemal:
Taylor & Francis e-raamatudRohkem infot Taylor & Francis e-raamatute kohta
"In this timely handbook, one of a series of three, leading contributors from around the world offer practical insights into the challenges and opportunities for using various technologies to tackle microplastic pollution and improve microplastic management in aquatic environments. Through this book, readers will gain a deep understanding of microplastic pollution in both freshwater and marine environments and strategies and technologies to combat and manage this. To provide readers with this knowledge, the book is divided into four sections to explain microplastics in freshwater and marine environments and the impact of biofilm on microplastic pollution. The contributors first describe the characteristics of microplastics and their identification, rolesin the pollution of aquatic environments, and impacts. They also describe microplastics in freshwater and marine environments through the use of case studies from both developing and developed countries from North America, Europe, Africa, and Asia. An introduction is provided at the beginning of each chapter for those interested in a brief synopsis, and copious references are provided for those wishing to study each chapter topic in greater detail. This book furnishes readers with the knowledge to reducemicroplastics and prevent their improper disposal, which will prevent its intrusion and impact on biodiversity and ecosystems around the world and will also minimize economic losses caused by this emerging pollutant. For a wider perspective, readers are encouraged to refer to the other two titles in this series, subtitled Microplastic Pollution in the Soil and Monitoring and Treatment of Microplastics and Policy Perspectives. In its exploration of the relationships among the characteristics of microplastics, their mobility, transport pathways, and treatment, this handbook represents a vital practical guide for academics, industry-based researchers, and policymakers that paves the ways for a new direction of water technology for future wastewater treatment"-- Provided by publisher.

In this timely handbook, one of a series of three, leading contributors from around the world offer practical insights into the challenges and opportunities for using various technologies to tackle microplastic pollution and improve microplastic management in aquatic environments.

Through this book, readers will gain a deep understanding of microplastic pollution in both freshwater and marine environments and strategies and technologies to combat and manage this. To provide readers with this knowledge, the book is divided into four sections to explain microplastics in freshwater and marine environments and the impact of biofilm on microplastic pollution. The contributors first describe the characteristics of microplastics and their identification, roles in the pollution of aquatic environments, and impacts. They also describe microplastics in freshwater and marine environments through the use of case studies from both developing and developed countries from North America, Europe, Africa, and Asia. An introduction is provided at the beginning of each chapter for those interested in a brief synopsis, and copious references are provided for those wishing to study each chapter topic in greater detail. This book furnishes readers with the knowledge to reduce microplastics and prevent their improper disposal, which will prevent their intrusion and impact on biodiversity and ecosystems around the world and will also minimize economic losses caused by this emerging pollutant. For a wider perspective, readers are encouraged to refer to the other two titles in this series, subtitled Microplastic Pollution in the Soil and Monitoring and Treatment of Microplastics and Policy Perspectives.

In its exploration of the relationships among the characteristics of microplastics, their mobility, transport pathways, and treatment, this handbook represents a vital practical guide for academics, industry-based researchers, and policymakers that paves the ways for a new direction of water technology for future wastewater treatment.



In this timely handbook, one of a series of three, leading contributors from around the world offer practical insights into the challenges and opportunities for using various technologies to tackle microplastic pollution and improve microplastic management in aquatic environments.

1. Microplastics pollution: Distribution and sources in aquatic environment
2. Role of microplastics as anthropogenic pollutants in aquatic ecosystems
3. Hazard posed by additives to plastics upon disintegration as microplastics
4. Migration, pathways and management of MPs through Remote Sensing and GIS techniques
5. Sources, mechanisms, and interactions of microplastics with abiotic and biotic factors in aquatic environment
6. Interactions between microplastics and dissolved organic matter in freshwater environment
7. Surface waters and sediments of an urban lake are contaminated with microplastics
8. Microplastics pollution in surface waters and sediments of urban lake
9. Impacts of microplastics as contaminants on freshwater ecosystem and human food chain
10. Fate, distribution, transport pathways (vertical or horizontal) of microplastics in freshwater
11. Biofilm (eco-corona) formation from microplastics in freshwater
12. Role of biofilms in the degradation of microplastics
13. Microplastic-associated biofilm and its role in the fate of microplastics in aquatic environments
14. Artificial intelligence (AI) to trace the pathways of MPs
15. Microplastic removal from wastewater using biochar-based composites
16. Degradation of microplastics in the aquatic environment by advanced oxidation process
17. Adsorption of pollutants on microplastics in freshwater
18. Microplastics in Rivers from Developing Countries: Current Knowledge and Cost-effective Analysis Methodology Suggestions
19. The Effects of Microplastics on the Human Food Chain and Freshwater Ecosystem
20. Microplastics in Tunisian aquatic ecosystems: Current research trends, knowledge gaps, and prospects
21.
Chapter Microplastic removal from wastewater using biochar-based composites
22. Microplastic Pollution in the Environment: Microplastic in Fresh and Drinking Water
23. Microplastic Pollution in the Environment: Microplastic in Urban and Rural Environment
24. Microplastic pollution in the marine environment and its potential effects on aquatic organisms
25. Microplastic pollution in the marine environment and its potential effects on aquatic organisms
26. Microplastic Contamination in Common Salt from Seawater: Global Insights, Health Implications, and Mitigation Strategies
27. Microplastics in the Mediterranean Sea
28. Microplastic Pollution in the Environment: Microplastic in Marines and Oceans
29. Remote sensing application for monitoring microplastic in aquatic environment: current approaches, challenges, detection techniques and way forward

Tonni Agustiono Kurniawan is an Associate Professor at Xiamen University, China. He obtained his Bachelors Degree in Chemistry from Bogor Agricultural University, Indonesia, his Master of Science in Environmental Technology from Thammasat University, Thailand, and his PhD in Applied Biology and Chemical Technology at The Hong Kong Polytechnic University, China. He has been named as one of the top 2% of highly cited scientists in the field of Environmental Sciences by Stanford University.

Abdelkader Anouzla is with the Laboratory of Process Engineering and Environment, Faculty of Science and Technology, Hassan II University, Morocco. He attained his Ph.D. in Science & Technology at Hassan II University. Dr. Abdelkader ANOUZLA has published almost 100 peer-reviewed articles and ten books.
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