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The first edition of Advances in the Microbiology and Biochemistry of Cheese and Fermented Milk was aimed at the gap in the literature between the many excellent technical texts on the one hand, and the widely scattered scientific literature on the other. We tried to present the state of the art in pre competitive research in a predigested, yet scientifically coherent form, and relate it to the marketable properties of fermented dairy products. In this way, researchers could use the book to mentally step back from their specializations and see how far they had progressed as a community; at the same time we hoped that R&D-based companies could use it to assess the utility (or lack of it) of the research output in setting out their research acquisition strategy for product improvement and innovation. In a sense, the first edition could claim to have initiated Technology Foresight in its limited field before Government caught the idea, and it certainly gave the science base an opportunity to display its talents and resources as a potential source of wealth creation, well before this became an 'official' function of publicly funded science and technology. Thus, the first edition was intended as a progressive move within the growing science and technology literature, and judged by its market success, it seems to have served precisely that purpose.
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.
Milk coagulation and the development of cheese texture; Taxonomy and identification of bacteria important in cheese and fermented dairy products; The physiology and growth of dairy lactic-acid bacteria; The genetics of dairy lactic-acid bacteria; Bacteriophages of dairy lactic-acid bacteria; Flavour development in fermented milks; Flavour development in cheeses; The accelerated ripening of cheese; Non-sensory methods for cheese flavour assessment.
This book provides comprehensive coverage of the scientific aspects of cheese, emphasizing fundamental principles. The book's updated 22 chapters cover the chemistry and microbiology of milk for cheesemaking, starter cultures, coagulation of milk by enzymes or by acidification, the microbiology and biochemistry of cheese ripening, the flavor and rheology of cheese, processed cheese, cheese as a food ingredient, public health and nutritional aspects of cheese, and various methods used for the analysis of cheese. The book contains copious references to other texts and review articles.
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 book is the most comprehensive introductory text on the chemistry and biochemistry of milk. It provides a comprehensive description of the principal constituents of milk (water, lipids, proteins, lactose, salts, vitamins, indigenous enzymes) and of the chemical aspects of cheese and fermented milks and of various dairy processing operations. It also covers heat-induced changes in milk, the use of exogenous enzymes in dairy processing, principal physical properties of milk, bioactive compounds in milk and comparison of milk of different species. This book is designed to meet the needs of senior students and dairy scientists in general.
This authoritative reference covers food-manufacturing principles, and details the processing and manufacturing of products in the fields of: Health, Meat, Milk, Poultry, Seafood, and Vegetables. * Includes an overview of food manufacturing principles * Presents details of commercial processing for each commodity including (where appropriate) a general introduction, ingredients, technologies, types and evaluation of industrial products, special problems, types and evaluation of consumer products, and processing and product trends * For each commodity, information includes the details of commercial processing of several representative foods.
When I undertook the production of the First Edition of this book it was my first foray into the world of book editing, and I had no idea of what I was undertaking! I was not entirely alone in this, as in asking me to produce such a book the commissioning Editor, Mr George Olley of Elsevier Ap plied Science Publishers, had pictured a text of perhaps 300 pages, but on seeing my list of chapter titles realized that we were talking about a - chapter, two-volume work. We eventually decided to go ahead with it, and the result was more successful than either of us had dared to hope could be It was therefore with rather mixed emotions that I contemplated the case. a second edition at the suggestion of Blackie Press, who had taken over the title from Elsevier. On the one hand, I was naturally flattered that the book was considered important enough to justify a second edition. On the other hand, I was very well aware that the task would be even greater this time.
Over the past decade, new applications of genetic engineering in the fermentation of food products have received a great deal of coverage in scientific literature. While many books focus solely on recent developments, this reference book highlights these developments and provides detailed background and manufacturing information. Co-Edited by Fidel Toldra - Recipient of the 2010 Distinguished Research Award from the American Meat Science Association Presenting a comprehensive overview, Handbook of Food and Beverage Fermentation Technology examines a wide range of starter cultures and manufacturing procedures for popular alcoholic beverages and bakery, dairy, meat, cereal, soy, and vegetable food products. An international panel of experts from government, industry, and academia provide an in-depth review of fermentation history, microorganisms, quality assurance practices, and manufacturing guidelines. The text focuses on the quality of the final food product, flavor formation, and new advances in starter cultures for dairy fermentations using recent examples that depict the main species used, their characteristics, and their impact on the development of other fermented foods. With approximately 2,300 references for further exploration, this is a valuable resource for food scientists, technologists, microbiologists, toxicologists, and processors.