The role of the Maillard reaction in forming flavors from amino acid and sugar precursors has been studied for many years. To establish the basic chemistry of the reaction, researchers have used model systems, often solutions of a single amino acid with a single sugar. Despite the apparent simplicity of the system, heating such a solution can generate tens if not hundreds of compounds, which requires careful and time-consuming analysis to identify and quantify each component.
Data from the model systems has allowed researchers to study the pathways that lead to flavor formation, and various schemes have been proposed to identify the main "routes" that lead to flavor compounds. Such schemes have led to one of the main control principles, namely an understanding of the role of amino acids in forming some characteristic aromas, e.g., bread flavor from proline, as well as an appreciation of the role of C5 and C6 sugars in controlling the rate of reaction.
Recently, the formation of taste compounds through the Maillard reaction has been investigated and new potent compounds have been discovered that can contribute to the overall flavor formed during the Maillard reaction. These findings also offer the potential for control and manipulation of the Maillard reaction to form specific types of flavor. Although the nature of the end-products of the Maillard reaction in both food and model systems are well documented, applying these principles to control flavor formation in real foods has proved difficult.
This book describes recent research and developments related to the control of the Maillard reaction to give optimum flavor quality. These include kinetic modeling of the reaction, the effect of physical parameters (temperature, time, moisture content, pH), and the effect of chemical parameters (amino acid and sugar composition, the presence of other components). The topics covered relate to real food systems and reaction product flavorings, as well as model systems. Contributors from academia and industry have come together to provide an up to date overview of progress in this important area of flavor research.

Pathogens respond dynamically to their environment. Understanding their behaviour is critical both because of evidence of increased resistance to established sanitation and preservation techniques, and because of the increased use of minimal processing technologies which are more vulnerable to the development of resistance. Understanding pathogen behaviour summarises the wealth of recent research and its implications for the food industry.
After two introductory chapters on ways of analysing and modelling pathogens, Part one summarises current research on what determines pathogenicity, stress response, adaptation and resistance. Part two reviews the behaviour of particular pathogens, reviewing virulence, stress response and resistance mechanisms in such pathogens as Salmonella, E.coli and Campylobacter. The final part of the book assesses how pathogens react and adapt to particular stresses from heat treatment and the effects of low temperature to the use of disinfectants and sanitisers.
With its distinguished editor and international team of contributors, Understanding pathogen behaviour is a standard reference for the food industry in ensuring food safety.
Summarises the wealth of recent research in pathogen behaviourAssesses implications for microbiologists and QA staff in the food industry

There has been a wealth of recent research on the complex changes involved in bread making and how they influence the many traits consumers use to define quality. Bread making: improving quality sums up this key research and what it means for improved process control and a better, more consistent product.
After an introductory review of bread making as a whole part one discusses wheat and flour quality. Chapter 3 summarises current research on the structure of wheat, providing the context for chapters on wheat proteins (chapters 5 and 6) and starch (chapter 7). There are also chapters on ways of measuring wheat and flour quality, and improving flour for bread making. Part two reviews dough formation and its impact on the structure and properties of bread. It includes chapters on the molecular structure of dough, foam formation and bread aeration together with discussion of the role of key ingredients such as water. A final group of chapters then discusses other aspects of quality such as improving taste and nutritional properties, as well as preventing moulds and mycotoxin contamination.
With its distinguished editor and international team of contributors, Bread making: improving quality is a standard work both for industry and the research community.

Fat is the most expensive component in confectionery such as chocolate. It may comprise of cocoa butter, milk fat, palm oil, lauric oil, exotic fats, etc. This new handbook, with a large number of figures and tables, provides a comprehensive guide to all aspects of confectionery fats, with particular emphasis on the later. Unlike sugar confectionery, chocolate is a fat-continuous product and the sugar, like the other non-fat components, is merely mixed with the fat rather than melted/boiled. The properties of chocolate confectionery are thus determined mainly by the fat, which comprises about 26-35% in a typical chocolate formulation.
The book describes the essential physical chemistry needed to understand the properties of confectionery fats, analytical methods, raw materials, the production and properties of confectionery fats, and their application in sugar and chocolate confectionery. It concludes with consideration of legislation and regulatory aspects of producing confectionery and of using milk fat, cocoa butter and alternative fats together with a chapter on analytical methods for detecting and quantifying confectionery fats. Finally, four appendixes provide: a glossary of terms and abbreviations used; details of confectionery fat manufacturers; details of confectionary fat products produced by these manufacturers; and a list of websites from other relevant organizations that the reader may find useful.

Microbiological risk assessment (MRA) is one of the most important recent developments in food safety management. Adopted by Codex Alimentarius and many other international bodies, it provides a structured way of identifying and assessing microbiological risks in food. Edited by two leading authorities, and with contributions by international experts in the field, Microbiological risk assessment provides a detailed coverage of the key steps in MRA and how it can be used to improve food safety.
The book begins by placing MRA within the broader context of the evolution of international food safety standards.
Part one introduces the key steps in MRA methodology. A series of chapters discusses each step, starting with hazard identification and characterisation before going on to consider exposure assessment and risk characterisation. Given its importance, risk communication is also covered. Part two then considers how MRA can be implemented in practice. There are chapters on implementing the results of a microbiological risk assessment and on the qualitative and quantitative tools available in carrying out a MRA. It also discusses the relationship of MRA to the use of microbiological criteria and another key tool in food safety management, Hazard Analysis and Critical Control Point (HACCP) systems.
With its authoritative coverage of both principles and key issues in implementation, Microbiological risk assessment in food processing is a standard work on one of the most important aspects of food safety management.
Provides a detailed coverage of the key steps in microbiological risk assessment (MRA) and how it can be used to improve food safetyPlaces MRA within the broader context of the evolution of international food safety standardsIntroduces the key steps in MRA methodology, considers exposure assessment and risk characterisation, and covers risk communication

Meat is both a major food in its own right and a staple ingredient in many food products. With its distinguished editors and an international team of contributors, Meat processing reviews research on what defines and determines meat quality, and how it can be maintained or improved during processing.
Part one considers the various aspects of meat quality. There are chapters on what determines the quality of raw meat, changing views of the nutritional quality of meat and the factors determining such quality attributes as colour and flavour. Part two discusses how these aspects of quality are measured, beginning with the identification of appropriate quality indicators. It also includes chapters on both sensory analysis and instrumental methods including on-line monitoring and microbiological analysis. Part three reviews the range of processing techniques that have been deployed at various stages in the supply chain. Chapters include the use of modelling techniques to improve quality and productivity in beef cattle production, new decontamination techniques after slaughter, automation of carcass processing, high pressure processing of meat, developments in modified atmosphere packaging and chilling and freezing. There are also chapters on particular products such as restructured meat and fermented meat products.
With its detailed and comprehensive coverage of what defines and determines meat quality, Meat processing is a standard reference for all those involved in the meat industry and meat research.
Reviews research on what defines and determines meat quality, and how it can be measured, maintained and improved during processingExamines the range of processing techniques that have been deployed at various stages in the supply chainComprehensively outlines the new decontamination techniques after slaughter and automation of carcass processing

Through four editions, Lactic Acid Bacteria: Microbiological and Functional Aspects, has provided readers with information on the how's and why's lactic acid-producing fermentation improves the storability, palatability, and nutritive value of perishable foods. Thoroughly updated and fully revised, with 12 new chapters, the Fifth Edition covers regulatory aspects globally, new findings on health effects, properties and stability of LAB as well as production of target specific LAB. The new edition also addresses the technological use of LAB in various fermentations of food, feed and beverage, and their safety considerations. It features the detailed description of the main genera of LAB as well as such novel bacteria as fructophilic LAB and novel probiotics and discusses such new targets as cognitive function, metabolic health, respiratory health and probiotics. Key Features: In 12 new chapters, findings are presented on health effects, properties and stability of LAB as well as production of target specific LAB Covers such novel bacteria as fructophilic LAB and novel probiotics Presents new discoveries related to the mechanisms of lactic acid bacterial metabolism and function Covers the benefits of LAB, both in fermentation of dairy, cereal, meat, vegetable and silage, and their health benefits on humans and animals Discusses the less-known role of LAB as food spoilers Covers the global regulatory framework related to safety and efficacy

Cereals processing is one of the oldest and most important of all food technologies. Written by a distinguished international team of contributors, this collection reviews the range of cereal products and the technologies used to produce them. It is designed for all those involved in cereals processing, whether raw material producers and refiners needing to match the needs of secondary processors manufacturing the final product for the consumer, or secondary processors benchmarking their operations against best practice in their sector and across cereals processing as a whole.
The authorative guide to key technological developments within cereal processingReviews the range of cereal products and the technologies used to produce them

Duncan Manley has over thirty years' experience in the biscuit industry and during this period has collected recipes and examples of best practice from the leading manufacturers of biscuit, cracker and cookie products throughout the world. In his new book Manley has put together a comprehensive collection of over 150 recipes to provide technologists, managers and product development specialists with a unique and invaluable reference book.
Development activity is essential for all companies but it is potentially very expensive. This unique new book will enable research and development staff to benefit from the experiences of other manufacturers in new product development. It also provides an invaluable resource for production managers who wish to investigate improvements and cost reductions for existing lines.
The book begins by investigating some of the key variables in effective recipe development. It then presents a series of recipes for hard-dough products such as crispbread and crackers, short-dough biscuits and cookies, extruded and deposited dough products. Further chapters include recipes for sponge biscuits, wafers and secondary processes such as icing and chocolate coating. A final chapter covers the important area of dietetic products, including recipes for reduced fat and sugar biscuits and products for particular groups such as diabetics and babies.
Biscuit, cracker and cookie recipes for the food industry provides unparalleled access to best practice in the industry, and a wealth of ideas for product developers and production managers. It will be an essential resource.
Take advantage of over thirty years of industry experienceCompare your recipes with over 150 included in this book - improve, refine and experimentEnhance your product development process with sample recipes from all areas of this industry including cream crackers, pretzels, sponge drop biscuits, plain biscuits, wafers and secondary processing products such as icing, jam, marshmallow and chocolate

The recent outbreaks of E.coli and BSE have ensured that the issue of meat safety has never had such a high profile. Meanwhile HACCP has become the preferred tool for the management of microbiological safety. Against a background of consumer and regulatory pressure, the effective implementation of HACCP systems is critical. Written by leading experts in the field, HACCP in the meat industry provides an authoritative guide to making HACCP systems work effectively.
This book examines the HACCP in the meat industry across the supply chain, from rearing through to primary and secondary processing.

Laboratory Methods in Food Microbiology describes a wide range of methods for use in the microbiological analysis of foods, including approaches to counting and detection procedures for microorganisms, identification of bacteria, yeasts and fungi, microbiological analysis for the main food commodity groups, and safety in the food microbiology laboratory. The book also discusses specific food poisoning outbreaks in the United States.
CONTENTS INCLUDE
* Comprehensive methods and advice on choosing appropriate techniques
* Discussion of internationally recognized standards
* Detection and enumeration of food-borne pathogenic and toxigenic microorganisms
* Detailed sections on analyses appropriate for the main food commodity groups
* Identification of bacteria, yeasts, and fungi isolated from foods
* Safety in the food microbiology laboratory
* Appendix of recipes for media and reagents

This sequence of manuals addresses key issues such as quality, safety and reliability for those working and training in the manufacture of biscuits, cookies and crackers. Each manual provides a self-sufficient guide to a key topic, full of practical advice on problem-solving and troubleshooting drawn from over 30 years in the industry.
The Biscuit, Cookie and Cracker Manufacturing Manuals will be useful to managers and engineers involved in processing confectionery and baked goods, as well as designers of machinery and production lines.

Sheeting o Gauging o Cutting o Laminating o Rotary Moulding o Extruding o Wire Cutting o Depositing o Troubleshooting Tips
This manual describes what is involved in forming dough pieces from mixed dough.

This sequence of manuals addresses key issues such as quality, safety and reliability for those working and training in the manufacture of biscuits, cookies and crackers. Each manual provides a self-sufficient guide to a key topic, full of practical advice on problem-solving and troubleshooting drawn from over 30 years in the industry.
What Happens in a Baking Oven o Types of Ovens o Post-Oven Processes o Cooling o Handling o Troubleshooting Tips
This manual describes what is involved in baking and cooling biscuits from dough pieces that have been placed on the oven band.

This sequence of manuals addresses key issues such as quality, safety and reliability for those working and training in the manufacture of biscuits, cookies and crackers. Each manual provides a self-sufficient guide to a key topic, full of practical advice on problem-solving and troubleshooting drawn from over 30 years in the industry.
Chocolate Enrobing o Moulding o Sandwich Creaming o Icing o Application of Jam o Marshmallow o Caramel o Troubleshooting Tips
This manual describes what is involved in secondary processes of biscuits-the procedures used to enhance biscuits after they have been baked.

Wine flavour chemistry is a complex and diverse field that ranges from the potently aromatic pyrazines to the complex polymeric tannins. Modern chemistry is now opening some doors to the mysteries of wine flavour, and this unique monograph is dedicated to current research developments. The book starts with the Riesling terpenes, which are responsible for floral aroma when new and the kerosene-like aroma that appears in old age, and with the chemically related norisprenoids found in Cabernet Sauvignon and Merlot. It includes three reports on flavours of microbial origin, particularly the effects of different yeast strains, and it looks at important factors in ageing, including acetalhyde, the contribution of oak, and problems with cork taint. It also explores in detail the relationship between winemaking techniques and the chemistry and taste attributes of phenolic compounds.

For more than a century, national and international governing bodies have had some involvement in regulating the quality and safety of food during production and delivery. Since the beginnings of this "modern" food regulation in the early 20th century, the way that food is produced, packaged and distributed has changed drastically. It is difficult to determine if technological advances in the areas of polymer science, refrigeration, and transportation have driven the globalization of the food supply or if the food industry has drawn from these technologies to satisfy consumer's desire and need. Ensuring the safety of food requires a complex and ever-changing set of interactions between producers, distributors, consumers and regulators. As advances are made in packaging and food additives, as food distributions systems evolve to meet consumer needs, or as these respond to environmental and population changes, adjustments to regulatory systems may become necessary. Analytical, environmental and materials chemistry can often play important roles in responding to these changes and in continuing to help with the improvement of food safety and security. These five co-editors bring their respective expertise to the subject of the food system and the chemical advancements behind it.

Food quality has traditionally been assessed in terms of wholesomeness, acceptability and adulteration. Yet, this traditional methodology for food analysis has increasingly proved to be inadequate. During the recent past
however, new analytical approaches used to assess the quality of foods have been emerging - work on chemotaxonomy has gained momentum, new molecules in the plant kingdom have been discovered, and there have been many advances in molecular biology and genetics.
As well as comparing and evaluating indices used to assess quality of foods, Handbook of Indices of Food Quality and Authenticity surveys the emerging techniques and methods that are currently opening up to the analyst. The book discusses the potential of these novel approaches which are sure to help in solving the new problems the food scientist is likely to face in the future.
As a detailed study of current methodologies and indicesof food quality, this book is an essential reference work for industry and an indispensable guide for the research worker, food scientist and food analyst. It will serve as a valuable tool for those analysts facing the challenge of applying known methods to unorthodox formulations and
developing new or improved methods for quality evaluation.

In the past, the stability of milk and milk products was the primary consideration, but this is no longer the principal objective due to the evolution of modern sanitary practices as well as pasteurization. Today, the manufacture of dairy products of consistently good flavor and texture is crucial. In previous flavor studies, researchers identified hundreds of volatile compounds, with little or no attention paid to their sensory contribution to overall flavor of dairy products. The availability of powerful chromatographic separation techniques like high resolution gas chromatography in combination with mass spectrometry and olfactory detection ports have revolutionized the work on characterization of dairy flavor. This along with recent developments in sensory methods and our increased knowledge about the genomics of diary culture organisms have allowed great advancements in our understanding of dairy flavor chemistry. Flavor of Dairy Products covers the evolution of dairy flavor research and presents updated information in the areas of instrumental analysis, biochemistry, processing and shelf-life issues related to the flavor of dairy products.

This book is an invaluable introduction to the physical properties of foods and the physics involved in food processing. It provides descriptions and data that are needed for selecting the most appropriate equipment in food technology and for making food processing calculations.

Consumers, regulators, and the food industry increasingly require that foods comply not only with label descriptions of food content, but also with information regarding the food's origin. For example, the wine industry has a long history of labeling wines based on varietal, regional, or age (vintage)-related properties. However, regulatory agencies are now beginning to require methods to confirm this label information. Food retailers are also facing voluntary or mandatory labeling requirements that will indicate regional or country-of-origin, species and/or varietal information. As a result, development of reliable analytical methods to confirm the authenticity of the label information is needed. This book presents the latest research on food and wine authentication. The chapters are authored by leading international scientists whose research focuses on the development and application of analytical methodologies used for the authentication of food and beverages.

Cereal grains have been the principal component of human diet for thousands of years and have played a major role in shaping human civilization. Around the world, rice, wheat, and maize, and to a lesser extent, sorghum and millets, are important staples critical to daily survival of billions of people. More than 50% of world daily caloric intake is derived directly from cereal grain consumption. Most of the grain used for human food is milled to remove the bran (pericarp) and germ, primarily to meet sensory expectations of consumers. The milling process strips the grains of important nutrients beneficial to health, including dietary fiber, phenolics, vitamins and minerals. Thus, even though ample evidence exists on the health benefits of whole grain consumption, challenges remain to developing food products that contain significant quantities of whole grain components and meet consumer expectations.
This book presents some of the latest research endeavors that aim to improve our understanding of how the chemistry of various grain components can be manipulated to improve contribution of cereals to human health. Most of the topics are based on the Cereal Grains Symposium, at the 2011 American Chemical Society held in Anaheim, CA, March 27-31.

Montana's brewing history stretches back more than 150 years to the state's days as a territory. But the art of brewing in Montana has come a long way since the frontier era. Today, nearly forty craft breweries span the Treasure State, and the quality of their output rivals the best craft beer produced anywhere in the country. Maybe it's because there's also a little piece of Montana in every glass, as the state's brewers pride themselves on using cold mountain water and locally sourced barley harvested from Montana's ample fields. From grain to glass, " Montana Beer: A Guide to Breweries in Big Sky Country" tells the story of the brewers and breweries that make the Treasure State's brew so special.

This ACS Symposium Series book evolved from the ACS symposium "Food Additives and Packaging" sponsored by the Division of Agricultural and Food Chemistry (AGFD) at the 245th ACS National Meeting & Exposition in New Orleans, LA, April 7-11, 2013. The book helps readers understand the rules and regulations governing the use of food additives and food packaging materials in the U.S. and globally. Furthermore, the book investigates novel materials and applications related to food additives and food packaging materials and explores concerns, issues, and current events in the field. The book particularly highlights global regulations, research, development, applications, and evaluation of food additives and food packaging materials. These areas are dynamic, constantly changing, and expected to attract the interest of a broad and diverse readership. Part I of this book highlights how food additives and packaging materials are classified and regulated in different parts of the world and addresses some of the scientific, legal, and practical issues related to these regulations from the perspective representatives. It contains monographs on general aspects of regulatory processes in various countries (U.S., EU, Thailand and Japan) and specific aspects, such as GRAS substances, color additives, enzymes, flavorings, safety assessments, and the National Environmental Policy Act (NEPA). Part II presents some current topics related to the research, development, applications, and evaluation of food additives and food packaging materials, with monographs on applying regulatory knowledge for packaging compliance and evaluating food packaging for pre-packaged irradiated food, and on various emerging technologies, such as a control release packaging system and high pressure processing that can improve the appearance, texture, taste, or shelf-life of food; it also includes monographs that discuss other aspects, such as bisphenol A, PET packaging materials, nanomaterials, and biomaterials.

Beverages derived from fruits and vegetables are a rich source of vitamin C, carotenoids, phenolics and polyphenolics as well as other bioactives. The bioactives in nutraceutical beverages may act synergistically with one another and their effect may be amplified through fortification, cultivating practices, or biotechnological means. This book discusses factors in the formulation, chemistry, nutrition, and health effects of nutraceutical beverages.

Sweetened Concentrated Milk Products: Science, Technology, and Engineering provides the most updated and comprehensive knowledge on different SCM products, delving into the production processes for each. Written by international experts, this book discusses existing information on concentrated milk and its more commercial forms, including evaporated and condensed milks. Other products detailed in this text include dulce de leches, such as sweetened caramelized goat’s milk, panelitas de leche (milk panels), and various milk-based delicacies. The book presents the definition, main characteristics, common defects, and elaboration process for each commercial form. In addition, the book includes lifetime calculation data and results of the addition of whey into milk candies. Lastly, it provides information on the quality parameters which all SCMs must meet, including experimental design and application examples in SCM research and development. This is a vital resource for researchers and practitioners in dairy science with interests and work in SCM product formulation, technology, and seeking solutions for their defects.