Advances in applied microbiology. Volume ninety seven /

Advances in Applied Microbiology continues to be one of the most widely read and authoritative review sources in microbiology, containing comprehensive reviews of the most current research in applied microbiology.

Bibliographic Details
Corporate Author:	ScienceDirect (Online service)
Other Authors:	Sariaslani, Sima (Editor), Gadd, Geoffrey Michael (Editor)
Format:	eBook
Language:	English
Published:	Amsterdam : Academic Press, an imprint of Elsevier, 2016.
Edition:	First edition.
Series:	Advances in Applied Microbiology ; Volume 97
Subjects:	Industrial microbiology. Microbiologie industrielle. Electronic books.
Online Access:	Connect to the full text of this electronic book

Table of Contents:

Front Cover
Advances in Applied Microbiology
Advances in Applied Microbiology
Copyright
Contents
CONTRIBUTORS
One
Biologically Produced Methane as a Renewable Energy Source
1. INTRODUCTION
2. THE BIOLOGY OF METHANOGENS
2.1 Methanogenic Pathways
2.2 Phylogeny of Methanogens
2.3 Evolution of Methanogenesis
2.4 Key Methanogenic Players
2.5 Methanogens in Extreme Environments
3. MECHANISMS FOR INTERSPECIES ELECTRON EXCHANGE
3.1 Indirect Interspecies Electron Exchange
3.2 Direct Interspecies Electron Exchange
3.3 Electron Exchange Via Insoluble Electron Shuttles and Conductive Materials
4. BIOMETHANOGENIC TREATMENT OF WASTE
4.1 Anaerobic Digesters
4.2 Electrical Stimulation of Anaerobic Digestion
5. CONCLUSIONS
REFERENCES
Two
Pathogen and Particle Associations in Wastewater: Significance and Implications for Treatment and Disinfectio ...
1. INTRODUCTION
2. WASTEWATER
3. PATHOGENS IN WASTEWATER
3.1 Bacteria
3.2 Viruses
3.3 Protozoa
3.4 Pathogen Surrogates for Measuring Treatment Process Performance
3.4.1 Bacteria
3.4.2 Viruses
3.4.3 Protozoa
3.5 Pathogen Detection Methods
4. WASTEWATER TREATMENT
4.1 Preliminary Treatment
4.2 Primary Treatment
4.3 Secondary Treatment
4.3.1 Activated Sludge Process
4.3.2 Waste Stabilization Ponds
4.3.2.1 Anaerobic Ponds
4.3.2.2 Facultative Ponds
4.3.2.3 Maturation Ponds
4.3.3 High Rate Algal Ponds
4.4 Tertiary Treatment and Disinfection
5. TURBIDITY AND PARTICLES IN WASTEWATER
5.1 Turbidity Measurement
5.2 Particles in Wastewater
5.3 Effect of Wastewater Treatment on Particles
5.4 Particle Characterization Techniques
6. PATHOGEN-PARTICLE ASSOCIATIONS
6.1 Bacterial Associations With Particles
6.2 Viral Associations With Particles.
6.3 Protozoan Associations With Particles
7. IMPACT OF PATHOGEN-PARTICLE ASSOCIATIONS ON DISINFECTION PROCESSES
7.1 Chlorination
7.2 Ultraviolet Radiation
8. CONCLUDING REMARKS
REFERENCES
Three
Insights in Waste Management Bioprocesses Using Genomic Tools
1. INTRODUCTION
2. SEWAGE TREATMENT PLANTS-A REACTOR WITH AEROBIC OPTION
2.1 Sewage Treatment Challenges in the Recent Scenario
2.2 Sewage Treatment System: An Overview
2.3 Sewage Treatment as Bioprocess
2.4 Bioreactor Operations in Sewage Treatment
2.5 Interventions of Genomics Tools in Bioprocess Optimization
2.6 Microbial Diversity, Reactor Configuration, and Operating Condition
2.7 Sewage Treatment Plants as "Hotspots" for Spreading the Pathogens: Emerging Pathogens-Phage as Biocontrol
3. EFFLUENT/WASTEWATER TREATMENT PLANT: PERFORMANCE OF MICROBIAL GENE POOL IN WASTEWATER
3.1 Relevance of Taxonomical Diversity in Treatment System
3.2 Relevance of Functional Diversity in Treatment System
3.3 Relevance of Operational Parameters and Functional Expression of Microbial Community in Treatment Systems
3.4 Evolving Approach With Genomics Tools in Treatment Plants
4. ANAEROBIC DIGESTERS: METAGENOMICS AND METABOLOMICS INSIGHT INTO ANAEROBIC BIOPROCESSES IN MANAGEMENT OF MUNICIPAL SOLID WAS ...
4.1 Anaerobic Bioprocesses
4.1.1 Complexity of Methanogenesis
4.2 Anaerobic Reactors Options and Raw Material
4.3 Process Parameter Monitoring by Genomic Tools
4.4 Operational Parameters in Anaerobic Reactor Using Genomic Tools
4.5 Microbial Community Dynamics and Operational Conditions
4.6 Relevance of Metagenomics of Anaerobic Digestion
4.7 Genomics Tools and Anaerobic Bioprocess Optimization
5. COMMUNITY CREATING BIOFILMS TO SUPPORT TREATMENT OR FOULING
5.1 Biofilm Structures and Occurrences in Different Environment.
5.2 Microbial Matrix in Biofilm
5.3 Signaling Systems in Biofilm and Regulation in Development of Biofilm Community
5.4 Biofilms and Evolving Bioprocesses
5.5 Microbial Community and Genes Prevalent in Biofilms From Water Treatment Systems and Microbial Fuel Cells
5.6 Microbial Community and Gene Involved in Biofilms From Membrane Bioreactors
5.7 Biofilms as an Environmental Issue: Biofouling in Reverse Osmotic Membranes in Drinking Water Treatment
5.8 Metagenomics of Biofilm: Designed Biofilms in Future Using Genomics Tool
6. FUTURE OF MINING AND UNDERSTANDING THE BIOPROCESSES IN WASTE MANAGEMENT
ACKNOWLEDGMENT
REFERENCES
Four
The Oral Microbiome in Health and Its Implication in Oral and Systemic Diseases
1. INTRODUCTION
2. THE ORAL MICROBIOME IN HEALTH
2.1 Bacteria Oral Colonization
2.2 Archaea Oral Colonization
2.3 Fungal Oral Colonization
2.4 Protozoa Oral Colonization
2.5 Viral Oral Colonization
3. THE ORAL MICROBIOME AND ORAL PATHOLOGY
3.1 Dental Caries
3.2 Endodontic Infections
3.3 Periodontal Diseases
3.4 Oral Cancer
4. THE ORAL MICROBIOME AND SYSTEMIC PATHOLOGY
4.1 Nonoral Infectious Diseases
4.2 Adverse Pregnancy Outcomes
4.3 Cardiovascular Disease
4.4 Diabetes
5. CONCLUSIONS
REFERENCES
INDEX
A
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D
E
F
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CONTENTS OF PREVIOUS VOLUMES
Volume 40
Volume 41
Volume 42
Volume 43
Volume 44
Volume 45
Volume 46
Volume 47
Volume 48
Volume 49
Volume 50
Volume 51
Volume 52
Volume 53
Volume 54
Volume 55
Volume 56
Volume 57
Volume 58
Volume 59
Volume 60
Volume 61
Volume 62
Volume 63
Volume 64
Volume 65
Volume 66
Volume 67
Volume 68
Volume 69
Volume 70
Volume 71
Volume 72.
Volume 73
Volume 74
Volume 75
Volume 76
Volume 77
Volume 78
Volume 79
Volume 80
Volume 81
Volume 82
Volume 83
Volume 84
Volume 85
Volume 86
Volume 87
Volume 88
Volume 89
Volume 90
VOLUME 91
VOLUME 92
VOLUME 93
Volume 94
Volume 95
Volume 96
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