Metagenomics to Bioremediation: Applications, Cutting Edge Tools, and Future Outlook provides detailed insight into metagenomics approaches to bioremediation in a comprehensive manner, thus enabling the analysis of microbial behavior at a community level under different environmental stresses during degradation and detoxification of environmental pollutants. The book summarizes each and all aspects of metagenomics applications to bioremediation, helping readers overcome the lack of updated information on advancement in microbial ecology dealing with pollution abatement. Users will find insight not only on the fundamentals of metagenomics and bioremediation, but also on recent trends and future expectations.
This book will appeal to readers from diverse backgrounds in biology, chemistry and life sciences.
- Reviews recently developed metagenomics approaches/strategies/ technologies to solve five major trends in environmental clean-up, including nutrient removal and resource recovery, organometallic compounds detoxification, energy-saving and production, sustainability and community involvement
- Compiles authoritative information on recent advances in microbial biotechnological approaches, including the latest descriptions of the relationship between microbes and the environment
- Describes the knowledge gaps and future directions in the field of bioremediation of environmental contaminants
- Covers underlying microbial mechanisms with metabolic pathways for degradation and detoxification of emerging organic and inorganic contaminants discharged in environment
Reihe
Sprache
Verlagsort
Verlagsgruppe
Elsevier Science & Techn.
Dateigröße
ISBN-13
978-0-323-99480-4 (9780323994804)
Schweitzer Klassifikation
Section I: Introduction to Bioremediation and Metagenomics1. Bioremediation for Environmental Cleanup2. Recent Trends in Bioremediation of Heavy metals3. Recent advances in bioremediation by metagenomics - based approach for pharmaceutical derived pollutants4. Metagenomics in Bioremediation: Recent advances, Challenges, and Perspectives5. Metagenomic Approaches for Understanding Microbial Communities in Contaminated Environments: State-of-the-art, Case Studies and Future Outlook6. Microbial enzymes and their budding roles in bioremediation: Foreseen tool for combating environmental pollution.7. Interface of 'Meta -Omics' in Gut Biome Remediation to unravel the complications of environmental pollutants
Section II: Bioremediation and Metagenomics in Environmental Remediation8. Bioremediation: A favorable perspective for elimination of Heavy Metal-Polluted Soil9. Metagenomic analysis in bioremediation of metal for environmental cleanup10. Microbial Community and their Role in Bioremediation of Polluted e-Waste Sites11. Metagenomic analysis of wastewater for water quality assessment12. The proteome mapping - Metabolic modeling, and functional elucidation of the microbiome in the remediation of dyes and treating industrial effluents13. Wastewater Treatment Processes and Microbial Community14. Water quality and wastewater treatment for human health and environmental safety15. Bioremediation of petrochemical sludge from soils16. Bioremediation of Nuclear Waste Effluent using Different Communities of Microbes17. Metagenomics of contaminated wetland sediment in a tropical region18. Hydrocarbons and Environmental Pollution: Metagenomics Application as a Key Tool for Bioremediation19. A Complete Review on Anaerobes and Nano- particles in Wastewater Treatment
Section III: Plant Microbes Association in Environmetal Remediation20. Metagenomic approach of psychrotrophic and psychrophilic microbes in bioremediation21. Nano- and Phytoremediation Techniques for Textile Wastewater Treatment and Successive Production of Fertilizers22. Plant-Microbes Association: Psychrophilic and psychrotrophic microorganisms associated to plants and their potential environmental services23. Metal-organic frameworks-based emerging platforms for recognition and monitoring of environmentally hazardous organic contaminants24. Bioaugmentation of metal phytoremediation through plant microbe interactions
Section IV: Emerging Green Technologies in Bioremediation and Metagenomics25. Lignin-Based Hybrid Materials in Wastewater Cleanup26. Immobilized enzyme reactors for Bioremediation27. Biochar Processing for green and sustainable remediation: Wastewater treatment, Bioenergy and Future Perspective28. High-throughput Sequencing Technologies in Metagenomics29. Genetically Engineered Microbes for Bioremediation and Phytoremediation of Contaminated Environment30. Proteomics Monitoring of Microbes in Environmental Contaminants31. Development of Biosensors for Application in Industrial Biotechnology32. Microbial enzymes: Versatile tools for pollution abatement
