The second edition of Microbiology of Waterborne Diseases describes the diseases associated with water, their causative agents and the ways in which they gain access to water systems. The book is divided into sections covering bacteria, protozoa, and viruses. Other sections detail methods for detecting and identifying waterborne microorganisms, and the ways in which they are removed from water, including chlorine, ozone, and ultraviolet disinfection.
The second edition of this handbook has been updated with information on biofilms and antimicrobial resistance. The impact of global warming and climate change phenomena on waterborne illnesses are also discussed. This book serves as an indispensable reference for public health microbiologists, water utility scientists, research water pollution microbiologists environmental health officers, consultants in communicable disease control and microbial water pollution students.
- Focuses on the microorganisms of most significance to public health, including E. coli, cryptosporidium, and enterovirus
- Highlights the basic microbiology, clinical features, survival in the environment, and gives a risk assessment for each pathogen
- Contains new material on antimicrobial resistance and biofilms
- Covers drinking water and both marine and freshwater recreational bathing waters
Chapter 1 Waterborne Pathogens and Biofilms
PART 2 BACTERIOLOGY
Chapter 2 Acinetobacter
Chapter 3 Aeromonas
Chapter 4 Campylobacter
Chapter 5 Cyanobacteria
Chapter 6 Escherichia coli
Chapter 7 Helicobacter pylori
Chapter 8 Legionella
Chapter 9 Mycobacterium avium complex
Chapter 10 Salmonella
Chapter 11 Shigella
Chapter 12 Vibrio
Chapter 13 Yersinia
PART 3 PROTOZOA
Chapter 14 Acanthamoeba
Chapter 15 Balantidium
Chapter 16 Cryptospridium
Chapter 17 Cyclospora
Chapter 18 Entamoeba
Chapter 19 Giardia
Chapter 20 Naegleria
Chapter 21 Toxoplasma
PART 4 VIRUSES
Chapter 22 Methods to Detect Viruses
Chapter 23 Adenovirus
Chapter 24 Astrovirus
Chapter 25 Enterovirus
Chapter 26 Hepatitis
Chapter 27 Norovirus
Chapter 28 Rotavirus
PART 5 CONTROL
Chapter 29 Pathogen control in drinking water
Chapter 30 Free and combined chlorine
Chapter 31 Chlorine dioxide
Chapter 32 Ozone disinfection
Chapter 33 Ultraviolet Disinfection
Chapter 34 Filtration methods
PART 6 GLOBAL WARMING
Chapter 35 The implications of global warming and Climate Change on waterborne diseases
Professor Steven L. Percival holds a PhD in medical microbiology and biofilms, a BSc in Applied Biological Sciences, Postgraduate
Certificate in Education, diploma in Business Administration, an MSc in Public Health and an MSc in Medical and Molecular
Microbiology. He is also a fellow of the Institute of Biomedical Science and Institute of Biology. Early in his career, Steven held R&D positions for over 3 years at The British Textile Technology Group Plc, followed then by 6 years as a senior university lecturer in medical microbiology and later the positions of Chief Scientific Officer and Director of R and D at Aseptica, Inc., and senior clinical fellowships at the Centers for Disease Control,
Atlanta, and Leeds Teaching Hospitals Trust, Leeds, United Kingdom. More recently, Steven held senior R&D manager positions at Bristol Myers Squibb, ConvaTec, Advanced Medical Solutions PLC and also held an honorary Professorship of Microbiology at West Virginia University. In
2011, Steven joined ScapaHealthcare PLC as Vice President of Global Healthcare R&D and was awarded an honorary Professorship at The University of Liverpool, UK. He has written over 260 scientific publications and conference abstracts on water microbiology, biofilms, antimicrobials, and infection control and has authored or edited six textbooks on biofilms and microbiology and provided over 100 presentations on biofilms and public health worldwide.
Yates, Marylynn V.
Marylynn V. Yates is Professor of Environmental Microbiology and Distinguished Teaching Professor at the University of California, Riverside. She serves as Dean of the College of Natural and Agricultural Sciences, and is Chair of the University of California Global Health Institute's Education Committee. Dr. Yates holds a B.S. in Nursing from the University of Wisconsin, Madison, an M.S. in Chemistry from the New Mexico Institute of Mining & Technology, and a Ph.D. in Microbiology from the University of Arizona. Her research interests include characterizing and predicting the fate and transport of human enteric pathogenic microorganisms in soils, water, and wastewater; development of methods for rapid, sensitive detection of infective enteric viruses in water samples; human pathogen considerations associated with wastewater reuse and biosolids application to land; and the use of indicators for predicting pathogen occurrence and behavior in the environment. Dr. Yates serves as an editor for Applied & Environmental Microbiology, as a member of the Water Science & Technology Board of the National Research Council, and on the USEPA's Science Advisory Board Drinking Water Committee. She is a fellow of the American Association for the Advancement of Sciences, the American Academy of Microbiology, and a National Associate of the National Academies of Science.
Dr. Williams currently leads the Oral Microbiology Group based at the School of Dentistry, at Cardiff University, Cardiff, UK. Since Dr. Williams' first degree (Cardiff University), he has worked in the pharmaceutical industry, food microbiology and as an academic researcher. Having completed a PhD at the School of Dentistry in Cardiff on the immunopathogenesis of oral candidosis, Dr. Williams' research has continued within Cardiff University and primarily focuses within the field of Clinical Microbiology with an emphasis on studies involving microbial biofilms. Dr. Williams' research encompasses investigating biofilm susceptibility to antimicrobial agents, expression of virulence factors such as hydrolytic enzyme production, adhesion, and microbial modulation of innate immune responses. Of particular interest has been research into the development of biomaterials (e.g. silicone rubber, acrylic, titanium) to inhibit biofilm formation on medical devices. Dr. Williams is a previous recipient of the Senior Colgate Award (British Society for Oral and Dental Research) and the International Hatton Award (The International Association for Dental Research).
Dr. Rachel Chalmers is the director of the Cryptosporidium Reference Unit, Public Health, Wales. Her research includes evaluation of new laboratory methods for Cryptosporidium detection, diagnosis, typing and subtyping, epidemiology and seroepidemiology, risk factors, and prevention.
Nick Gray is Professor of Environmental Science at Trinity College Dublin and is a leading academic and researcher in the field of environmental engineering specializing in water and wastewater treatment processes. He has worked closely with the water industry for over 35 years both as a consultant and as a collaborative researcher. He has published a number of books, including Drinking Water Quality (Cambridge University Press), Water Technology (Elsevier), Biology of Wastewater Treatment ( Imperial College Press), The coliform Index and Waterborne Diseases (Spon) and Activated Sludge (Oxford University Press), as well as over 150 research papers. He is the Director of the Water Technology Research Group based in the Centre for the Environment at Trinity College, University of Dublin.