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Full Description
This book explores the latest development on bioremediation techniques of wastewater pollutants using microbes. They can be used to valorize nutrients from wastewater systems and produce biodiesel, bioethanol and other biofuels. Furthermore, polymers such as poly hydroxybutyric acids and other extra cellular polysaccharides obtained from these microbes can also be utilized for the production of bioplastics, different biopolymers and biosurfactants. The book is divided into three parts, including (1) bioremediation by microbes, (2) resource recovery by microbes and (3) genomics and proteomics associated with bioremediation. The volume is a valuable resource for researchers, students, academicians and policymakers in the field of wastewater treatment.
Contents
Insights on wastewater impacts on animal health and production.- Dynamics of Microbial Communities in Industrial Wastewater: Monitoring and role in treatment process.- Utilization of microalgae for wastewater treatment and sustainable biofuel production: Challenges and environmental perspective.- Role and importance of biopolymers in wastewater treatment and purification.- Antibiotics and their metabolites: distribution in waste water and potential bioremediation.- Bioremediation of wastewater emphasizing the role of microbes in removal of heavy metals and radionuclides.- Bioremediation of emerging contaminants in industrial wastewater: Omics approach towards environmental safety and sustainability.- Enzymatic Degradation of Pollutants.- Source, Impact and remediation strategies to eliminate Endocrine Disrupters and potential of nanobiotechnology for the sustainable solution.- Bisphenol A and its bioremediation strategies- a comprehensive review.- Exploring the Effectiveness of Biological Remediation Techniques in the Cleanup of Crude Oil Spill Sites.- Paradigm shift of food industry waste into high valued resources through valorisation as an integrated sustainable approach.- Extraction and Valorization of nutrients from wastewater.- Nanotechnology-Enhanced Microbial Electrochemical Systems for Heavy Metal Recovery and Removal from Industrial Effluents.- Phytoremediation Potentials of Aquatic Plants at Ramsar Sites.- Genomics and proteomics associated with bioremediation of microplastics.
