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Full Description
This book discusses advanced research in mitigation of heavily polluted environments through a sustainable biotechnological remedial framework along with their role in betterment of conventional treatment methods. It includes sustainable biotechnology-based approach to rejuvenate the heavily polluted environment highlighting the technical, scientific, regulatory, safety, and societal impacts. It discusses current sustainable solutions and contemporary challenges of bioremediation of environmental pollutants using biotechnology-based interventions.
Features:
Provides understanding of biotechnology based sustainable framework and its potential in rejuvenation of heavily polluted environments.
Discusses the nature-based solutions as a sustainable tool for net zero emission transition and emerging economies.
Provides the latest information and innovative scaffold as a support tool for fixing the heavily polluted environmental issues in a sustainable mode.
Sheds light on future research needs on advances of biotechnological intervention in managing the complicated environmental issues.
Highlights the importance of multi-disciplinary research and integrated bioengineering systems.
This book is aimed at graduate students and researchers in waste management, environmental engineering, biotechnology and clean technologies.
Contents
1. Biotechnological framework for the treatment of environmental pollution and challenges thereof
2. Integration of bioremediation planning and execution for restoring the ecosystem
3. Water resources management through nature-based solutions
4. Nano-Biomaterials used for the elimination of harmful contaminants
5. Production of carbon with high specific surface area from West African agricultural waste: Evaluation of product quality and potential application
6. Global situation of environmental pollution and its sustainable remedial solutions
7. Microbial Rejuvenation of Heavily Polluted Soil
8. Sustainable Energy Production through Microbial Fuel Cells and Waste Management
9. Insights into omics approaches in plant phytoremediation of heavy metals
10. Resources recovery potential from solid waste and bioeconomy model toward sustainable production and responsible consumption
11. Microbial electrolysis: An emerging biotechnology for energy production and wastewater treatment
12. Prediction of heavy metal adsorption by biomass ash using artificial neural network
13. Bio-Inspired Materials for Reducing Ecological Footprint and Life Cycle Assessment
14. Enzymes Based Technologies for Bioremediation of Environmental Pollution
15. Bio-refinery Approach for a Sustainable Eco-system and Circular Bio-economy
16. Metabolic Engineering in Waste Prevention
17. IoT/ AI Based Solutions in Environmental Waste Management and Monitoring
18. Nano-biosensors for detecting environmental pollutants
19. Industrial Framework for Net Zero Emission Transition in Emerging Economies
