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Bioremediation and Nanotechnology for Climate Change Mitigation / edited by Arafat Abdel Hamed Abdel Latef, Ehab M. Zayed, Ahmad Alsayed Omar.

Springer Nature - Springer Biomedical and Life Sciences (R0) eBooks 2025 English International Available online

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Format:
Book
Contributor:
Abdel Latef, Arafat Abdel Hamed., Editor.
Zayed, Ehab M., Editor.
Omar, Ahmad Alsayed., Editor.
Series:
Biomedical and Life Sciences Series
Language:
English
Subjects (All):
Bioremediation.
Microbial ecology.
Pollution.
Botany.
Refuse and refuse disposal.
Soil science.
Environmental Biotechnology.
Environmental Microbiology.
Plant Science.
Waste Management/Waste Technology.
Soil Science.
Local Subjects:
Environmental Biotechnology.
Environmental Microbiology.
Pollution.
Plant Science.
Waste Management/Waste Technology.
Soil Science.
Physical Description:
1 online resource (XIII, 652 p. 64 illus., 51 illus. in color.)
Edition:
1st ed. 2025.
Place of Publication:
Singapore : Springer Nature Singapore : Imprint: Springer, 2025.
Summary:
This book integrates various scientific approaches, including bioremediation and nanomaterials, to address environmental challenges posed by living organisms. It serves as a crucial guide for decision-makers, providing a scientific foundation for tackling issues within the circular economy paradigm. By introducing innovative methods for improving environmental conditions, the book facilitates the design of eco-friendly cities and revitalizes older urban areas. The chapters cover topics such as the current state and future of international environmental relations, the impact of population growth on pollution, and recent advances in sustainable waste management. Readers will discover insights into the relationship between air pollution, nanomaterials, and bioremediation, as well as the role of artificial intelligence as a predictive tool. The book also explores key pollution-related issues and presents effective remediation strategies. Special attention is given to the role of nanotechnology in addressing climate change, with chapters highlighting its applications in sustainable agriculture. This book is an invaluable resource for professionals, researchers, and graduate students engaged in advanced environmental science research. It reinforces fundamental remediation concepts while introducing the latest updates, maximizing readers' knowledge of sensor-based remediation. The book presents a multidisciplinary approach, integrating theoretical perspectives with practical case studies. Whether the reader is an academic, practitioner, or interested layperson, this book offers a wealth of information and insights into the future of environmental sustainability.
Contents:
Chapter 1:The current situation and future of international relations in environmental issues and climate change
Chapter 2: Increased population is a source of environmental pollution and climate change
Chapter 3: Types of fumes, vapors and gases and a vision to overcome them
Chapter 4: Types of running water, groundwater and polluted rain and a vision to overcome them
Chapter 5: Recent advances in Sustainable Waste Management Practices
Chapter 6: Agricultural Pollution and its Relation to Climate Change
Chapter 7: History, Present, and Future of Recycling in Eliminating Environmental Pollution and Facing Climate Change
Chapter 8: Different Types and Degrees of Wastewater Treatments – Present and Future
Chapter 9: The Interplay Between Air Pollution, Nanomaterials, and Bioremediation
Chapter 10: Water Pollution, Nanomaterials, and Bioremediation
Chapter 11:Types of Water Desalination and Its Impact on Environmental Pollution and Climate Changes
Chapter 12:Recycling Environment and Bioremediation
Chapter 13:Overview of Plastic and Bioremediation: Present Investigations and Future Outlook
Chapter 14:Fuel Shipping and Bioremediation
Chapter 15:Seas and Oceans Save by Bioremediation
Chapter 16:Artificial Intelligence as bioremediation predictive tool
Chapter 17:Remediation Policy and Management
Chapter 18:Future of world health by bioremediation
Chapter 19: Nanomaterial's remarkable characteristics majorly influence
Chapter 20: Benefits of Nanotechnology in Dealing with Global Warming and Climate Change
Chapter 21: The solar radiation’s absorption in the photovoltaic cells in nanoparticles
Chapter 22: Nanotechnology Reduces Global Warming
Chapter 23: Nanotechnology: A Smart Approach for Sustainable Agriculture under Global Climate Change
Chapter 24:Strategy, Global Warming, and Nanotechnologies
Chapter 25: Future of nanotechnology and climate change.
Notes:
Description based on publisher supplied metadata and other sources.
ISBN:
981-9630-69-X
OCLC:
1524424154

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