I would like to mention some of the changes and additions that have been included in the third edition of Wastewater Microbiology. In general, every chapter of the book has been revised (up to July 2004) to include the latest developments in the field, and I will highlight only the major ones.
A review of the most important molecular techniques has been added to Chapter 1, while the most recent methodology for measuring microbial biomass in environmental samples is described in Chapter 2. New developments in enhanced biological phosphorus removal (EBPR) are covered in Chapter 3. Chapter 4 covers new findings on old and emerging (e.g., Helicobacter pylori, Cyclospora, Microsporidia) microbial pathogens and parasites. Much progress has been made concerning the detection of Cryptosporidium and Giardia in environmental samples, including wastewater. The improved methodology is also covered in Chapter 4. As regards disinfection of water and wastewater, research efforts are now focusing on UV disinfection in industrialized countries and on the use of solar radiation in developing countries (Chapter 6).
Armed with new molecular tools and microsensor /microelectrode technology, investigators are making progress in understanding the microbial ecology and the surface properties of activated sludge floes. The methodology used is similar to that used in biofilms. These advances will help us to better understand the flocculation process in activated sludge (Chapter 8). Concerning bulking and foaming in activated sludge plants, most of the recent studies have focused on the characterization and phylogeny of filamentous microorganisms (Chapter 9).
In the last few years we have witnessed an increased interest in biofilm microbiology. Biofilms develop on biological and nonbiological surfaces and are ubiquitous in natural aquatic environments and engineered systems (e.g., fixed-film bioreactors). Their beneficial role in fixed-film bioreactors has been known for years (chapter 10).
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Язык:Английский
Издательство:John Wiley & Sons
Preface. ix
Preface to the First Edition. xi
Preface to the Second Edition. xiii
Part A. Fundamentals of microbiology. 1
The Microbial World. 3
Microbial Metabolism and Growth. 45
Role of Microorganisms in Biogeochemical Cycles. 75
Part B. Public health microbiology. 107
Pathogens and Parasites in Domestic Wastewater. 109
Microbial Indicators of Fecal Contamination. 153
Water and Wastewater Disinfection. 173
Part C. Microbiology of Wastewater treatment. 211
Introduction to Wastewater Treatment. 213
Activated Sludge Process. 225
Bulking and Foaming in Activated Sludge Plants. 259
Processes Based on Attached Microbial Growth. 291
Waste Stabilization Ponds. 307
Sludge Microbiology. 321
Anaerobic Digestion of Wastewater and Biosolids. 345
Biological aerosols and Bioodors from Wastewater.Treatment Plants. 371
Part D. Microbiology of drinking water treatment. 395
Microbiological Aspects of drinking Water Treatment. 397
Microbiological Aspects of Drinking Water Distribution. 419
Bioterrorism and Drinking Water Safety. 457
Part E. Biotechnology in Wastewater treatment. 471
Pollution Control Biotechnology. 473
Part F. Fate and toxicity of chemicals in Wastewater treatment plants. 499
Fate of Xenobiotics and Toxic Metals in Wastewater. Treatment Plants. 501
Toxicity Testing in Wastewater Treatment Plants Using Microorganisms. 527
Part G. Microbiology and public health aspects of Wastewater effluents and biosolids disposal and reuse. 545
Public Health Aspects of Wastewater and Biosolids Disposal on Land. 547
Public Health Aspects of Wastewater and Biosolids Disposal in the Marine Environment. 573
Wastewater Reuse. 589
References. 609
Index. 729