| Description |
1 online resource (210 p.). |
| Series |
Waste and Waste Management Ser.
|
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Waste and Waste Management Ser.
|
| Note |
Description based upon print version of record. |
| Contents |
Intro -- Contents -- Preface -- Chapter 1 -- Proteomics: A Novel Tool for Studying Environmental Microbial Communities -- Abstract -- Abbreviations -- 1. Introduction -- 2. Microbial Culture Proteomic Studies Techniques -- 3. Proteomics of the Microbial Species in Different Ecosystems -- 3.1. Metaproteomics in Marine and Freshwater -- 3.2. The Metaproteomics of Soil -- 3.3. Wastewater and Metaproteomics of Activated Sludge -- 3.4. Acid Mines Drainage (AMD) Bio-Film Metaproteomics -- 4. Proteomics Software Status and New Developments -- 5. Dedicated Tools for Metaproteomics |
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6. Present Issues and Perspectives for the Future -- Conclusion -- References -- Chapter 2 -- Developments in Environmental Microbiology and Biodegradation/Biotransformation of Persistent Pollutants in Activated Sludge Population: A Case Study on Renewability of Activated Sludge Exposed to a New Generation Nanoparticular Photocatalyst -- Abstract -- 1. Introduction -- 2. Microorganism Communities in Activated Sludge -- 2.1. Eubacteria -- 2.2. Archaea -- 2.3. Fungi -- 2.4. Protozoa and Metazoan -- 3. Activated Sludge Bacterial Community Structures and Growth Mechanism |
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3.1. Main Mechanism of Metabolism and Energy Conversion -- 3.1.1. Substrate Conversion and Transformation Pathways -- 3.1.1.1. Substrate Level Phosphorylation -- 3.1.1.2. Oxidative Phosphorylation Based on Electron Conduction -- 3.2. Cycles Involved in Biological Transformations -- 3.2.1. EMB Cycle -- 3.2.2. Three Carboxylic Acid (TCA) Cycles and Intermediate Compounds -- 3.2.3. HMP Cycle -- 3.2.4. Calvin Cycle -- 3.3. Storage of Energy and Endogenous Respiration -- 3.4. Aerobic Degradation Mechanism in Treatment Systems -- 3.4.1. Nitrogen Degradation Mechanism in Aerobic Treatment Systems |
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3.5. Anaerobic Degradation Mechanism in Treatment Systems -- 3.5.1. Hydrolysis -- 3.5.2. Acid Production -- 3.5.3. Methane Production -- 3.6. Anaerobic Degradation Mechanism in Treatment Systems Pathways of Anaerobic Microorganisms to Gain Energy -- 3.6.1. Acid Production Pathway -- 3.6.2. Methane Gas Production Way -- 3.7. Nitrogen Degradation Mechanism in Anaerobic Treatment Systems -- 3.7.1. Phosphorus Degradation Mechanism in Anaerobic Treatment Systems -- 4. Sludge Bacterial Community Structures from Different Wastewaters -- 4.1. Municipal Wastewater -- 4.2. Textile Industry Wastewater |
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4.3. Pharmaceutical Industry Wastewater -- 5. Conventional and Emerging New Detection Technics of Microbial Culture in Activated Sludge -- 5.1. DGGE -- 5.2. RT-PCR -- 5.3. FISH -- 5.4. Next Generation Sequencing -- 6. Contaminants in Wastewaters -- 6.1. Organic Contaminants in Wastewaters -- 6.2. Inorganic Contaminants in Wastewaters -- 6.3. Persistent Pollutants in Wastewaters -- 7. Case Study -- 7.1. Materials and Methods -- 7.2. Results and Discussion -- 7.2.1. DNA Isolation and Next Generation Sequencing -- Conclusion -- Acknowledgments -- References -- Chapter 3 |
| Note |
Soil Microbial Community Responses to Climate Change. |
| Local Note |
eBooks on EBSCOhost EBSCO eBook Subscription Academic Collection - North America |
| Subject |
Sewage -- Purification -- Activated sludge process.
|
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Sewage -- Purification -- Activated sludge process |
| Other Form: |
Print version: Shah, Maulin P. Bacterial Community Structure of Activated Sludge Processes New York : Nova Science Publishers, Incorporated,c2022 9781685076764 |
| ISBN |
1685077730 |
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9781685077730 (electronic bk.) |
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