Microbial technology for health and environment

Microbial technology for health and environment / Pankaj Kumar Arora, editor.

Rampant industrialization has caused high levels of contamination by various toxic chemicals in our water bodies, which is a matter of concern in terms of ecosystems, as well as human and animal health. Polluted wastewater can contaminate drinking water and is also is a causal factor for bio-magnifi...

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Bibliographic Details
Other Authors: Arora, Pankaj Kumar
Format: eBook
Language:English
Published: Singapore : Springer, 2020.
Series:Microorganisms for sustainability ; v. 22.
Subjects:
Microbial biotechnology.
Industrial microbiology.
Industrial microbiology
Microbial biotechnology
Online Access:Click for online access

MARC

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490 1 |a Microorganisms for Sustainability ;  |v v. 22 
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505 0 |a Intro -- Preface -- Contents -- About the Series Editor -- About the Editor -- 1: Microbial Peroxidases and Their Unique Catalytic Potentialities to Degrade Environmentally Related Pollutants -- 1.1 Introduction -- 1.2 Peroxidases: Potential Sources -- 1.2.1 Physiochemical and Catalytic Properties of LiP (EC 1.11.1.14) -- 1.2.2 Physiochemical and Catalytic Properties of MnP -- 1.2.3 Physiochemical and Catalytic Properties of HRP -- 1.3 New or Advanced Enzyme-Based Techniques -- 1.3.1 Genetic Engineering -- 1.3.2 Enzyme Engineering -- 1.3.3 Nanozymes 
505 8 |a 1.3.4 Immobilized Peroxidases and Properties -- 1.4 LiP-Assisted Degradation of Hazardous Contaminants -- 1.5 MnP-Assisted Degradation of Hazardous Contaminants -- 1.6 HRP-Assisted Degradation of Hazardous Contaminants -- 1.7 Conclusion -- References -- 2: Microalgal Technology: A Promising Tool for Wastewater Remediation -- 2.1 Introduction -- 2.2 Adverse Effects of Wastewater on the Environment -- 2.3 Newer Approaches Over Conventional Wastewater -- 2.4 Microalgal Species Involved in the Wastewater Treatments -- 2.5 Factors Affecting the Wastewater Remediation -- 2.5.1 Carbon 
505 8 |a 2.5.2 pH -- 2.5.3 Salinity -- 2.5.4 Temperature -- 2.5.5 Light -- 2.5.6 Inhibitory Substance -- 2.6 Problems Encountered During Wastewater Remediation -- 2.7 Mechanism of Action of Microalgae During Wastewater Treatment -- 2.7.1 Assimilation -- 2.7.2 Precipitation -- 2.7.3 Biosorption -- 2.7.4 Bioaccumulation -- 2.8 Biotechnological Strategies for Improvement of Phycoremediation of Wastewater -- 2.8.1 Immobilized Cell System -- 2.8.2 Hyperconcentrated Cultures -- 2.8.3 Genetic Engineering -- 2.9 Microalgal-Bacterial Aggregate System for Wastewater Treatment 
505 8 |a 2.10 Development of Photobioreactors -- 2.11 Applications of Phycoremediation in Wastewater Treatment -- 2.11.1 Microalgae in Wastewater Treatment -- 2.11.1.1 Removal of Nutrients -- 2.11.1.2 Reduction of Biological and Chemical Oxygen Demand (BOD/COD) -- 2.11.1.3 Removal of Coliform Bacteria -- 2.11.1.4 Heavy Metal Removal -- 2.12 Formation of Valuable Products -- 2.12.1 Biomass Production -- 2.12.2 Bioethanol Production -- 2.12.3 Biomethane Production -- 2.12.4 Biochar Production -- 2.12.5 Microalgae in Bioelectrochemical Systems -- 2.12.6 Microalgal Biofilms 
505 8 |a 2.13 Other Applications of Microalgae -- 2.13.1 Production of Secondary Metabolites -- 2.13.2 Sulfated Polysaccharides -- 2.13.3 Proteins and Amino Acids -- 2.13.4 PHA and PHB Production -- 2.14 Conclusion and Future Prospects -- References -- 3: Microbial Remediation for Wastewater Treatment -- 3.1 Introduction -- 3.2 Wastewater Pollution Sources -- 3.3 Bioremediation of Wastewater -- 3.4 Microbial Enzymes in Biodegradation -- 3.5 Limitations of Bioremediation -- 3.6 Conclusions -- References -- 4: Quorum Quenching for Sustainable Environment: Biology, Mechanisms, and Applications 
500 |a 4.1 Introduction 
520 |a Rampant industrialization has caused high levels of contamination by various toxic chemicals in our water bodies, which is a matter of concern in terms of ecosystems, as well as human and animal health. Polluted wastewater can contaminate drinking water and is also is a causal factor for bio-magnification of heavy metals into our food cycle. In the last decade, several methodologies have been adopted to clean the wastewaters, and among these, microbial remediation has emerged as an effective technology. Several variants of microbial technologies have been developed for wastewater treatment and biodegradation specific to the industry, type of waste and toxicity of the chemicals. This book describes the recent advances in microbial degradation and microbial remediation of various xenobiotic compounds in soil and wastewater. It also explains various modern microbial technologies for biodegradation and wastewater treatment. It covers various microbial technologies for wastewater treatment, biodegradation, bioremediation and solid waste management. Gathering contributions from leading international it focuses on the status quo in industrial wastewater treatment and its biodegradation. The book is intended for researchers in the field of industrial wastewater, students of environmental sciences and practitioners in water pollution abatement. 
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650 0 |a Industrial microbiology. 
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