(EBook PDF) Relationship Between Microbes and the Environment for Sustainable Ecosystem Services Volume 2 Microbial Mitigation of Waste for Sustainable Ecosystem Services 1st edition by Jastin Samuel, Ajay Kumar, Joginder Singh 0323910572 9780323910576 full chapters

Relationship Between Microbes and the Environment for Sustainable Ecosystem Services, Volume 2: Microbial Mitigation of Waste for Sustainable Ecosystem Services 1st edition by Jastin Samuel, Ajay Kumar, Joginder Singh  – Ebook PDF Instant Download/DeliveryISBN: 9780323910576, 0323910572 

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Product details:

ISBN-10 :  0323910572 

ISBN-13 : 9780323910576

Author: Jastin Samuel, Ajay Kumar, Joginder Singh 

Relationship Between Microbes and Environment for Sustainable Ecosystem Services, Volume Two: Microbial Mitigation of Waste for Sustainable Ecosystem Services promotes advances in sustainable solutions, value-added products, and fundamental research in microbes and the environment. Topics include advanced and recent discoveries in the use of microbes for sustainable development. Volume Two describes the successful application of microbes and their derivatives for waste management of potentially toxic and relatively novel compounds. This proposed book will be helpful to environmental scientists, experts and policymakers working in the field of microbe- based mitigation of environmental wastes.

 

Relationship Between Microbes and the Environment for Sustainable Ecosystem Services, Volume 2: Microbial Mitigation of Waste for Sustainable Ecosystem Services 1st Table of contents:

Chapter 1: Effect of pollution on sediments and their impact on the aquatic ecosystem
Abstract
1: Introduction
2: Hydrologic cycle
3: Effect of pollutants on aquatic sediments
4: Future prospective
References
Chapter 2: Impact of emerging contaminants on biological wastewater treatment process
Abstract
1: Introduction
2: Classification of emerging contaminants
3: Sources of ECs
4: Remediation of ECs
5: Impact of emerging contaminants on biological processes
References
Further reading
Chapter 3: The potential role of microbes in the treatment of contaminated water bodies: Current trends and Case Studies
Abstract
1: Introduction
2: Strategies to revive water bodies
3: Wetlands as effective treatment systems to revive water bodies
4: Role of microbes
5: Case studies
6: Conclusion
References
Further reading
Chapter 4: Microbial removal of triarylmethane dyes: A sustainable approach for the aquatic ecosystem services
Abstract
Acknowledgment
1: Introduction
2: Different types of triarylmethane dye
3: Impacts on aquatic life: A threat to the ecosystem
4: Dye removal technologies: Progress and limitations
5: Factors affecting microbial dye removal
6: Microbial removal of triarylmethane dyes
7: Conclusion
References
Chapter 5: Role of biofilms to curb contamination in water bodies
Abstract
1: Introduction
2: Biofilms and their distribution patterns
3: Biofilms in water system (aquatic, wastewater and other sources)
4: Biofilm and bioremediation
5: Role of consortium biofilms to curb contamination
6: Conclusion
References
Chapter 6: Potential of microbes for degradation of xenobiotics: With special focus on petroleum hydrocarbons
Abstract
Acknowledgment
1: Introduction
2: Bioremediation
3: Degradation of xenobiotic compounds by different microorganisms
4: Petroleum hydrocarbons
5: Multi-omics approach toward the microbial degradation of xenobiotic compounds
6: Advantages and disadvantages of bioremediation
7: Conclusion and future prospects
References
Chapter 7: Microbes as an effective tool to mitigate emerging pollutants
Abstract
1: Introduction
2: Significance of microbe mediated bioremediation of EPs
3: Key players involved in microbial bioremediation of EPs
4: How microorganisms degrade EPs
5: Factors affecting microbial bioremediation process
6: Strategies to enhance bioremediation of EPs
7: Treatment systems involving microorganisms for the removal of EPs
8: Potential exploitation of microorganisms for the degradation of EPs
9: Role of biotechnology in the microbial bioremediation of emerging pollutants
10: Future prospects
11: Advantages of using microbes in bioremediation of EPs
12: Disadvantages of using microbes in bioremediation of EPs
References
Further reading
Chapter 8: Microbial strategies to address environmental nanopollutants
Abstract
1: Introduction
2: Environmental nanopollutants
3: Bacterial remediation
4: Fungal remediation
5: Remediation of nanopollutants with yeasts
6: Remediation of nanopollutants with algae
7: Conclusion
References
Further reading
Chapter 9: Removal of emerging pollutants from the environment through microbes
Abstract
1: Introduction
2: Biological indicators/monitors: An overview
3: Emerging contaminants and associated human health hazards
4: Emerging pollutants in wastewater
5: Emerging pollutants removal technique: Bioremediation
6: Factors affecting microbial bioremediation
7: Conclusion and future prospectus
References
Chapter 10: Waste management through bioremediation technology: An eco-friendly and sustainable solution
Abstract
1: Introduction
2: Waste
3: Harmful effects of waste on the environment
4: Major strategies in waste management
5: Factors affecting microbial bioremediation
6: Major strategies in bioremediation
7: Common organisms used in bioremediation
8: Advantages of bioremediation over other conventional approaches
9: Factors associated with determining the efficiency of bioremediation
10: Limitations in bioremediation process
11: Recent advancements in the area of bioremediation
12: Conclusion
References
Chapter 11: In situ bioremediation of heavy metal contaminated soil
Abstract
1: Introduction
2: Heavy metal contaminated soil and plant health
3: Microbes involved in bioremediation
4: Mechanism of metal-microbe interaction
5: Future prospects of microbial remediation
6: Conclusion
References
Chapter 12: Genetically modified microbes as an effective tool for sustainable solid waste management
Abstract
1: Introduction
2: Role of microorganisms in waste decomposition
3: Decomposition of biodegradable solid waste
4: Contemporary studies on molecular biology for solid waste management
5: Challenges for micro-biotechnology in solid waste treatment
6: Genetically modified microorganisms
7: Advanced molecular technology for the development of GMMs
8: Genetically modified microbes for waste management
9: Conclusion
References
Chapter 13: Indigenous microorganisms as an effective tool for in situ bioremediation
Abstract
1: Introduction
2: Indigenous microorganism for in situ bioremediation
3: Types
4: Factors limiting in situ bioremediation efficiency
5: Major pollutants in the environment
6: Bioremediation
7: Role of indigenous microorganisms in in situ bioremediation
8: Advantages of indigenous microorganisms over non-indigenous microorganisms in genetic engineering for in situ bioremediation
9: Indigenous microorganism as an emerging tool
10: Pros and cons of in situ bioremediation
References
Chapter 14: Role of insect microbiota in decomposting urban waste
Abstract
1: Introduction
2: Waste management
3: Methods of waste management
4: Role of insects and associated microbes in solid waste degradation
5: Digestion in insects
6: Decomposing insects and associated micro-organisms in decomposition
7: Role of insects and associated microbes in plastic degradation
8: Recommendations for all nations around the world awaiting effective mean solid waste management (MSWM)
References
Further reading
Chapter 15: Processing of lignocellulosic biomass for enhanced products
Abstract
1: Introduction
2: Structure of lignocellulosic biomass
3: Pretreatment of LCB: Necessity
4: Chemical treatment
5: Physicochemical treatments
6: Treatment of cells
7: Conclusion

 

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