Metagenomics to Bioremediation

<p>Section I: Introduction to Bioremediation and Metagenomics<br>1. Bioremediation for Environmental Cleanup<br>2. Recent Trends in Bioremediation of Heavy metals<br>3. Recent advances in bioremediation by metagenomics - based approach for pharmaceutical derived pollutants<br>4. Metagenomics in Bioremediation: Recent advances, Challenges, and Perspectives<br>5. Metagenomic Approaches for Understanding Microbial Communities in Contaminated Environments: State-of-the-art, Case Studies and Future Outlook<br>6. Microbial enzymes and their budding roles in bioremediation: Foreseen tool for combating environmental pollution.<br>7. Interface of ‘Meta -Omics’ in Gut Biome Remediation to unravel the complications of environmental pollutants</p> <p>Section II: Bioremediation and Metagenomics in Environmental Remediation<br>8. Bioremediation: A favorable perspective for elimination of Heavy Metal-Polluted Soil<br>9. Metagenomic analysis in bioremediation of metal for environmental cleanup<br>10. Microbial Community and their Role in Bioremediation of Polluted e-Waste Sites<br>11. Metagenomic analysis of wastewater for water quality assessment<br>12. The proteome mapping – Metabolic modeling, and functional elucidation of the microbiome in the remediation of dyes and treating industrial effluents<br>13. Wastewater Treatment Processes and Microbial Community<br>14. Water quality and wastewater treatment for human health and environmental safety<br>15. Bioremediation of petrochemical sludge from soils<br>16. Bioremediation of Nuclear Waste Effluent using Different Communities of Microbes<br>17. Metagenomics of contaminated wetland sediment in a tropical region<br>18. Hydrocarbons and Environmental Pollution: Metagenomics Application as a Key Tool for Bioremediation<br>19. A Complete Review on Anaerobes and Nano- particles in Wastewater Treatment</p> <p>Section III: Plant Microbes Association in Environmetal Remediation<br>20. Metagenomic approach of psychrotrophic and psychrophilic microbes in bioremediation<br>21. Nano- and Phytoremediation Techniques for Textile Wastewater Treatment and Successive Production of Fertilizers<br>22. Plant-Microbes Association: Psychrophilic and psychrotrophic microorganisms associated to plants and their potential environmental services<br>23. Metal-organic frameworks-based emerging platforms for recognition and monitoring of environmentally hazardous organic contaminants<br>24. Bioaugmentation of metal phytoremediation through plant microbe interactions</p> <p>Section IV: Emerging Green Technologies in Bioremediation and Metagenomics<br>25. Lignin-Based Hybrid Materials in Wastewater Cleanup<br>26. Immobilized enzyme reactors for Bioremediation<br>27. Biochar Processing for green and sustainable remediation: Wastewater treatment, Bioenergy and Future Perspective<br>28. High-throughput Sequencing Technologies in Metagenomics<br>29. Genetically Engineered Microbes for Bioremediation and Phytoremediation of Contaminated Environment<br>30. Proteomics Monitoring of Microbes in Environmental Contaminants<br>31. Development of Biosensors for Application in Industrial Biotechnology<br>32. Microbial enzymes: Versatile tools for pollution abatement</p>