This thoroughly revised and updated reference provides comprehensive coverage of the latest developments and scientific advances in dairy microbiology—emphasizing probiotics, fermented dairy products, disease prevention, and public health and regulatory control standards for dairy foods. Containing more than 2350 bibliographic citations, tables, drawings and photographs—550 more than the previous edition—Applied Dairy Microbiology, Second Edition is an invaluable reference for all food and dairy microbiologists, scientists, and technologists; toxicologists; food processors; sanitarians; dietitians; epidemiologists; bacteriologists; public health and regulatory personnel; and veterinarians; and an important text for upper-level undergraduate, graduate, and continuing-education students in these disciplines. ·
This thoroughly revised and updated reference provides comprehensive coverage of the latest developments and scientific advances in dairy microbiology-emphasizing probiotics, fermented dairy products, disease prevention, and public health and regulatory control standards for dairy foods. Containing more than 2350 bibliographic citations, tables, dr
Offers an updated treatment of dairy microbiology, from basic information on dairy foods to special topics, including the microbiology of milk-producing animals, probiotics and conversion of whey into useful products.
The objective of this book is to provide a scientific background to dairy microbiology by re-examining the basic concepts of general food microbiology and the microbiology of raw milk while offering a practical approach to the following aspects: well-known and newfound pathogens that are of major concern to the dairy industry. Topics addressed include Cronobactersakazakii and its importance to infant formula milk or Mycobacterium avium subspecies paratuberculosis (MAP) that might be connected to chronic human diseases (Crohn’s), the role of dairy starter cultures in manufacturing fermented dairy products, developing novel functional dairy products through the incorporation of probiotic strains, insights in the field of molecular methods for microbial identification, and controlling dairy pathogens owing to the compulsory application of food safety management systems (FSMS) to the dairy industry. The book will provide dairy professionals and students alike the latest information on this vast topic.
Throughout the world, milk and milk products are indispensable components of the food chain. Not only do individual consumers use liquid milk for beverages and cooking, but food manufacturers use vast quantities of milk powder, concentrated milks, butter, and cream as raw materials for further processing. Effective quality assurance in the dairy industry is needed now more than ever. This completely revised and expanded Third Edition of Dairy Microbiology Handbook, comprising both Volume I: Microbiology of Milk and Volume II: Microbiology of Milk Products, updates the discipline’s authoritative text with the latest safety research, guidelines, and information. Pathogens have become a major issue in dairy manufacturing. Escheria coli is a concern, and milk-borne strains of Mycobacterium avium sub-sp. paratuberculosis have been identified as a possible cause of Crohn’s disease. Even little-known parasites like Cryptosporidium have caused disease outbreaks. Consequently, a hazard analysis of selected control/critical points (HACCP) in any manufacturing process has become essential to prevent the contamination of food. This volume also: -Discusses new diagnostic techniques that allow a pathogen to be detected in a retail sample in a matter of hours rather than days -Provides thorough coverage of dairy microbiology principles as well as practical applications -Includes the latest developments in dairy starter cultures and genetic engineering techniques -Offers completely updated standards for Good Manufacturing Practice Quality control and product development managers, microbiologists, dairy scientists, engineers, and graduate students will find the Third Edition of Dairy Microbiology Handbook to be a vital resource.
An authoritative guide to microbiological solutions to common challenges encountered in the industrial processing of milk and the production of milk products Microbiology in Dairy Processing offers a comprehensive introduction to the most current knowledge and research in dairy technologies and lactic acid bacteria (LAB) and dairy associated species in the fermentation of dairy products. The text deals with the industrial processing of milk, the problems solved in the industry, and those still affecting the processes. The authors explore culture methods and species selective growth media, to grow, separate, and characterize LAB and dairy associated species, molecular methods for species identification and strains characterization, Next Generation Sequencing for genome characterization, comparative genomics, phenotyping, and current applications in dairy and non-dairy productions. In addition, Microbiology in Dairy Processing covers the Lactic Acid Bacteria and dairy associated species (the beneficial microorganisms used in food fermentation processes): culture methods, phenotyping, and proven applications in dairy and non-dairy productions. The text also reviews the potential future exploitation of the culture of novel strains with useful traits such as probiotics, fermentation of sugars, metabolites produced, bacteriocins. This important resource: Offers solutions both established and novel to the numerous challenges commonly encountered in the industrial processing of milk and the production of milk products Takes a highly practical approach, tackling the problems faced in the workplace by dairy technologists Covers the whole chain of dairy processing from milk collection and storage though processing and the production of various cheese types Written for laboratory technicians and researchers, students learning the protocols for LAB isolation and characterisation, Microbiology in Dairy Processing is the authoritative reference for professionals and students.
This comprehensive book provides a thoroughly updated and expanded treatment of dairy microbiology from basic information on dairy foods to special topics, including the microbiology of milk, producing animals, probiotics, and conversion of why into useful products. Applied Dairy Microbiology discusses the microbiology of the rumen and the role of microorganisms in milk synthesis explores the causes and contamination of raw milk which offers solutions to problems associated with raw mild, fluid milk products, concentrated and dried milk. A dairy is a building used for the harvesting of animal milk mostly from cows or goats but also from buffalo sheep horses or camels for human consumption. A dairy is typically located on a dedicated dairy farm or section of a multipurpose farm that is concerned with the harvesting of milk. Terminology differs between countries. For example a farm building where milk is harvesting is often called a milking Parlor. Milk and milk products occupy a more significant role in the human food profiles. The study of microorganisms that are associated with milk and milk products in all aspects is defined as Dairy Microbiology. Milk is described as a whole, fresh, clean, lacteal secretion obtained from the complete milking of healthy milch animal containing the minimum prescribed levels of fat and solids non-fat. The present book provides thorough coverage of dairy microbiology principles as well as practical applications including the latest developments in dairy starter cultures and genetic engineering techniques. The book also offers completely updated standards for good manufacturing practice, quality control and product development practices.
Microorganisms are an integral part of the fermentation process in food products and help to improve sensory and textural properties of the products. As such, it is vital to explore the current uses of microorganisms in the dairy industry. Microbial Cultures and Enzymes in Dairy Technology is a critical scholarly resource that explores multidisciplinary uses of cultures and enzymes in the production of dairy products. Featuring coverage on a wide range of topics such as dairy probiotics, biopreservatives, and fermentation, this book is geared toward academicians, researchers, and professionals in the dairy industry seeking current research on the major role of microorganisms in the production of many dairy products.
Starter cultures have great significance in the food industry due to their vital role in the manufacture, flavour, and texture development of fermented foods. Once mainly used in the dairy industry, nowadays starter cultures are applied across a variety of food products, including meat, sourdough, vegetables, wine and fish. New data on the potential health benefits of these organisms has led to additional interest in starter bacteria. Starter Cultures in Food Production details the most recent insights into starter cultures. Opening with a brief description of the current selection protocols and industrial production of starter cultures, the book then focuses on the innovative research aspects of starter cultures in food production. Case studies for the selection of new starter cultures for different food products (sourdough and cereal based foods, table olives and vegetables, dairy and meat products, fish and wine) are presented before chapters devoted to the role of lactic acid bacteria in alkaline fermentations and ethnic fermented foods. This book will provide food producers, researchers and students with a tentative answer to the emerging issues of how to use starter cultures and how microorganisms could play a significant role in the complex process of food innovation.
This book covers recent developments in types, classifications, and genetic traits of indigenous milk microorganisms and dairy starter cultures. It also discusses biochemical reactions taking place in different dairy products and microorganisms involved in such reactions. The text provides strategies for rapid detection of pathogenic and non‐pathogenic organisms in milk and milk products and safety systems for dairy processing. It concludes with a discussion of the effects of non‐thermal processing technologies on milk microorganisms and biochemical reactions in milk products.