This volume discusses the many advances in technology during the past decade in rice production. There is a strong emphasis on rice plant growth and development, genetics and breeding, rice culture, rice plant diseases, insect pests of the rice plant, insect pests of stored rice, weed management, harvest drying and storage of rough rice, miling and properties of rice cryopsis. This book will help the rice processing industries find new ideas for developing rice products, convenience foods, breakfast cereals, baby foods and new extrusion technology as applied to rice products. This book should be of interest to rice growers, rice milling industry, agricultural and mechanical engineers, researchers in industry, graduates and undergraduates, government and industrial organizations/associations, those involved in new product development.

This is the first volume of a comprehensive two-volume set on the physical chemistry of food processes.

The aims of this book remain the same, that is, that it should be of in terest to all those people concerned with, or about, food hygiene in the broadest sense. There was clearly a need for a book of this sort and its success has necessitated a second edition. It will, I hope, answer criticisms that were justifiably made about certain omissions and shortcomings levelled at the earlier edition. The whole book has been thoroughly revised with the introduction of several new sections to various chapters. During the time that has elapsed since the earlier edition appeared there has been much publicity about newer forms of 'food poisoning'. Thus listeriosis is discussed in some detail whilst the problems of salmonellas in eggs and BSE are also considered. Interest in irradiated foods has waxed and waned but it is rightly included in the relevant chapter. There has been much progress in methodology with the advent of advanced molecular techniques such as gene probes and that of PCR; these are discussed briefly. I have included sections on HACCP which has come into great prominence in recent years thus answering a specific criticism made of the earlier edition. The chapter on water and waste disposal contains material on Legionnaires' disease and cryptosporidiosis, infections of much concern at the present time. Finally, the chapter on legislation has undergone a major revision with far greater emphasis being placed on EC food hygiene legislation."

vi of a large number of people due to the enormous quantities of radioactive material that would be required to reach high levels of contamination in mass-produced or distributed supplies. Although, based on data presented at the Workshop concerning the more than 30,000 missing radioactive sources all over the word, the radioactive contamination of food or water is also a scenario that must be taken seriously into consideration. During the last two decades there have been several emerging hazards linked to animal diseases or originating in animal products for example: Avian Influenza (AI), Bovine Spongiform Encephalopathy (BSE), West Nile Fever, Severe Acute Respiratory Syndrome (SARS), and Ebola virus. All these diseases or events directly or indirectly affect food security and/or food safety. Approximately 75% of all emerging diseases are zoonotic by either an association with animal populations or an evolution of the disease in a- mals making it possible to move from animal species to humans. Participants were presented the primary results of the ongoing NATO- SPS Pilot Study on "Food Chain Security." These results focused mainly on (i) an overview of the food system; (ii) prevention, surveillance and detection systems and (iii) response system. The importance of issues such as: vuln- ability assessments, risk communication in risk analysis, risk perception, traceability, preparedness - awareness, communication, have to be cons- ered when working on food chain security.

Covers the processes, package types, and manufacturing practices used, featuring the collective experiences of the industry's major research associations and the world's third largest packaging company, CMB. The material is primarily for personnel involved in production, quality control, and enginee

This book is the result of collaboration between botanists and food chemists, with the purpose of improving the knowledge of the main wild species of traditional use as foods in the Mediterranean area, focus on ethnobotanical aspects, natural production, uses and nutritional aspects. One of the novelties of the book would be the publication of complete food composition tables of more than 40 species, which are not usually included in nutrient databases of foods. Many of the data included comes from the chemical analysis of representative samples of these species and other are compiled from the scientific literature. Since this topic had not been fully studied, this book provides an interesting tool to be used with the purpose of the revalorization of wild food species, preservation of their traditional uses, and also as alternatives to improve the diversity of modern Mediterranean diets.

This book reflects the work of wine marketing experts as expressed in their presentations to the annual three-week Wine Marketing Short Course at the University of California, Davis. The course was initially organized in collaboration with the international wine management curriculum sponsored by the International Organization for Vines and Wines (OIV). We have been involved in this course since its inception a decade ago. This book is intended for students in wine marketing and management, enology, and viticulture who seek to broaden their understanding of the wine sector. It is also intended for those already working in wine market ing and management who seek new ideas and insights. Finally, this book should be of general interest to others involved directly or indirectly in the grape and wine sector. Each chapter was written from the oral presentations of the authors and reflects the spontaneity and informality of the classroom environment. The writing may lack the "gravitas" of academic material, but it accurately presents the thinking and conclusions of those who make a living by mar keting wine. There is some duplication that serves to emphasize important points, and there are several case studies explaining real-life experiences in the industry. Legal requirements and commercial practices cited by authors may differ between regions and among institutions familiar to readers. However, the underlying principles guiding marketing strategies can be applied in different situations, for example, where supermarket wine sales may be restricted or direct sales prohibited."

Headspace gas analysis is an analytical technique that has been successfully applied to food flavors for over 20 years but has experienced a resurgence of interest and innovation in recent years. In its truest form, headspace analysis represents the direct collection and analysis of the mixture of vapors in the space immediately above a food or beverage. The technique offers several advantages for workers interested in how a product smells and ultimately tastes. It offers the advantages of speed, simplicity, and, more importantly, represents the aroma profile a consumer is likely to experience just before consuming the product. Since only volatile components are collected, the sample is totally free of nonvolatile residues which commonly plague comparison liquid-liquid extracts of the same product.
This is the first book devoted to headspace analysis in foods and beverages in more than 20 years. The publication contains chapters on the basic theory of headspace analysis, as well as the theory and application of newly developed headspace techniques, such as solid phase micro extraction, SPME and electronic noses. New concentrating and desorption techniques are described in addition to a raft of food applications including tomato and citrus juices, alcoholic beverages, baguettes, dairy products, lipids, grill flavoring, baked potato, and meat. Chapters on off-flavors as well as aroma-food matrix interactions are also included.

"This is the bible of headspace analysis. If you are involved in, or planning on becoming involved, or want to learn more about, this incredible subject, then buy this book immediately "
Aubrey Parsons, governing council member, International Union for Food Science and Technology"

A number of food engineering operations, in which heat is not used as a preserving factor, have been employed and are applied for preparation (cleaning, sorting, etc.), conversion (milling, agglomeration, etc.) or preservation (irradiation, high pressure processing, pulsed electric fields, etc.) purposes in the food industry. This book presents a comprehensive treatise of all normally used food engineering operations that are carried out at room (or ambient) conditions, whether they are aimed at producing microbiologically safe foods with minimum alteration to sensory and nutritive properties, or they constitute routine preparative or transformation operations. The book is written for both undergraduate and graduate students, as well as for educators and practicing food process engineers. It reviews theoretical concepts, analyzes their use in operating variables of equipment, and discusses in detail different applications in diverse food processes.

The approach to teaching the concepts of food processing to the undergrad uate food science major has evolved over the past 40 years. In most under graduate food science curricula, food processing has been taught on a commodity basis. In many programs, several courses dealt with processing with emphasis on a different commodity, such as fruits and vegetables, dairy products, meat products, and eggs. In most situations, the emphasis was on the unique characteristics of the commodity and very little empha sis on the common elements associated with processing of the different commodities. Quite often the undergraduate student was allowed to select one or two courses from those offered in order to satisfy the minimum standards suggested by the Institute of Food Technologists. The current 1FT minimum standards suggest that the undergradu ate food science major be required to complete at least one food processing course. The description of this course is as follows: One course with lecture and laboratory which covers general characteristics of raw food materials, principles offood preserva tion, processing factors that influence quality, packaging, water and waste management, and sanitation. Prerequisites: general chemistry, physics, and general microbiology."

Discusses the clinical application of functional foods for the management of a wide range of chronic diseases Covers chronic diseases including Obesity, Arthritis, Cardiovascular Diseases, and Endocrinal and Hormonal Diseases, among others. Explores beneficial effects of nutraceuticals in chronic diseases

...this is a valuable addition to the food analyst;s library. It brings together a well balanced account of the methods available an the literature cited will provide the analyst with all the details needed for setting up water-soluble vitamin assays and further reading to understand why these vitamins are important to those concerned with human nutrition. ' - International Journal of Food Science and Technology This book is of practical use as a tool and reference work of laboratory managers, senior analysts and laboratory technicians in food and vitamin manufactrurinf companies, for those in govenment and research institutes and for medical researchers, public analyst and nutritionist, It can also be recommended for a broad audience including lectures, students of natural sciences and food technologist. - lesbensm Wiss und Technol.'I recommend Water-soluble vitamins Assays in Human Nutrition not only to scientist in academia and industry and students in all food related fields as a valuable and easily used reference... it wll most likely be the first book I reach for when the inevitable question arises.April 1994Price: 115.00UK

Foods are ingested and become part of our body. This book describes the science and procedure behind the materials in foods that impart their desirable properties. The book can serve as a text in a course in food materials science at the senior or graduate level or as a supplemental text in an advanced food technology course. It cac also serve as a reference book for professionals in the food industry.

Providing overview, depth, and expertise, Essentials of Functional Foods is the key resource for all involved in the exciting and rapidly growing arena of functional foods. Every important aspect of functional foods and ingredients is covered, from technology, product groups, and nutrition, to safety, efficacy, and regulation. The editors and their expert contributors emphasize broadly based principles that apply to many functional foods. This book is essential reading for food scientists, researchers, and professionals who are developing, researching, or working with functional foods and ingredients in the food, drug, and dietary supplement industry.

Starch hydrolysis products are arguably the most versatile of all food sugar ingredients because they can be designed to meet many different nutritional and technological requirements. This book covers all aspects of starch production, from its hydrolysis to the analysis of the finished product. In addition, the most important derivatives of starch hydrolysis products are described and their applications in the food and, increasingly pharmaceutical industries are detailed. This book is essential reading for industrial food scientists and technologists, particularly those in processing and will be of interest to those involved in the formulation of pharmaceutical products. It is also a valuable reference source for food scientists and nutritionists in academic research institutes.

This is a work on the role of fungi in processed and unprocessed foods. In addition to offering practical and applied information on fungi associated with food and beverages this second edition now covers poisonous mushrooms. Topics include water activity, specific commodities, fungi and metabolities as human dietary components, health hazards and mycotoxin producers, and mycotoxin and fungal contaminant detection.

Applying recent advances in biological and physical sciences, food scientists have created "novel food ingredients" enzymatically, chemically or microbiologically. Chief among these are "novel proteins and polysaccharides" which, like the more established traditional macromolecules, can perform multifunctional roles such as thickening, stabilization, gelation or encapsulation and in this way determine to a large extent the shelf life, texture and nutritional value of natural and processed foods. Featuring the latest advances on chemistry, structure and functional properties of "novel proteins and polysaccharides," with an emphasis on fundamental structure-function relationships, this book will be valuable to all those working in product development and fundamental food research.

The objective of this book is to introduce, organize, and document the scientific, technical and practical aspects involved with the man ufacture, storage, distribution and marketing of minimally pro cessed refrigerated (MPR) fruits and vegetables. The overall func tion of these foods is to provide a convenient, like-fresh product for food service and retail consumers. A high level of quality accom panied by superior safety are essential requisites of MPR fruits and vegetables. Since refrigeration or chilling is essential to the quality and safety of these food products, "refrigeration" is included in the title of this book, i.e. MPRefrigerated fruits and vegetables. This swiftly emerging area of processing requires organization and unification of thinking concerning fruit and vegetable food products which are not considered commercially sterile from a classical stand point. Fruits and vegetables require very special attention because of the multitude of enzymic and respiratory factors as well as mi crobiological concerns which impact on the safety of low acid and acidified vegetables and on the economic viability of high acid fruit products of all kinds."

Fundamentals of Cheese Science provides comprehensive coverage of the scientific aspects of cheese, emphasizing fundamental principles. The book's 23 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. This broadly based resource is written for personnel involved in various production and quality control functions in the cheese industry, senior undergraduates, and post-graduate students.

This book illustrates the major trends in applied microbiology research with immediate or potential industrial applications. The papers proposed reflect the diversity of the application fields. New microbial developments have been done as well in the food and health sectors than in the environmental technology or in the fine chemical production. All the microbial genera are involved : yeast, fungi and bacteria. The development of biotechnology in parallel with the industrial microbiology has enabled the application of microbial diversity to our socio-economical world. The remarkable properties of microbes, inherent in their genetic and enzymatic material, allow a wide range of applications that can improve our every day life. Recent studies for elucidating the molecular basis of the physiological processes in micro-organisms are essential to improve and to control the metabolic pathways to overproduce metabolites or enzymes of industrial interest. The genetic engineering is of course one of the disciplines offering new horizons for the " fantastic microbial factory " . Studies of the culture parameter incidence on the physiology and the morphology are essential to control the response of the micro-organisms before its successful exploitation at the industrial scale. For this purpose, fundamental viewpoints are necessary. Development of novel approaches to characterise micro-organisms would also facilitate the understanding of the inherent metabolic diversity of the microbial world, in terms of adaptation to a wide range of biotopes and establishment of microbial consortia.

Advances in Food Research, the leading publication for comprehensive reviews on important topics in food science, has evolved into Advances in Food and Nutrition Research under the editorial direction ofJohn E. Kinsella. This expanded title recognizes the integral relationships between food science and nutrition and presents reviews of topics in nutrition as well as food science. This change also encourages nutritionists and food scientists to become more familiar with relevant advances in these interrelated areas

Probiotic microorganisms have a long history of use, and their health benefits for hosts are well documented. This Microbiology Monographs volume provides an overview of the current knowledge and applications of probiotics. Reviews cover the biology and probiotic potential of the thoroughly studied prokaryotic genera Lactobacillus and Bifidobacterium, several eukaryotic microorganisms, probiotic strain characterization, and the analytical methods (such as FISH, microarray, and high throughput sequencing) required for their study. Further chapters describe the positive effects of probiotics on malabsorption disorders such as diarrhea and lactose intolerance, and document the clinical evidence of benefits in treating allergies and lung emphysema, and in dermatological applications. Also addresses are topics such as genetically engineered strains, new carriers for probiotics, protection techniques, challenges of health claims, safety aspects, and future market trends.

This new book updates and expands Harold Burton's classic book, UHT Processing of Milk and Milk Products, to provide comprehensive, state-of-the-art coverage of thermal processing of liquid and particulate foods. The food products covered now include soups, sauces, fruit juices, and other beverages, in addition to milk and milk products. Pasteurization, sterilization, and aseptic processing are all discussed, with emphasis on the underlying principles and problems of heat treatment of more viscous fluids, where streamline flow conditions are likely to prevail, and of products containing particles. Pasteurization and heat treatments designed to further extend the shelf life of pasteurized products are also discussed, and the pasteurization and sterilization processes are compared to highlight similarities and differences. Throughout, factors influencing the safety and quality of heated foods are emphasized. This book contains over 100 illustrations and 50 tables, as well as extensive cross-referencing and a comprehensive reference section.

As was the case with Charles Ross's Packaging of Pharmaceuticals published by the UK Institute of Packaging in 1975 it is assumed that the reader of this book already has a broad understanding of the basics of packaging. If not the Packaging Users Handbook and the Handbook of Food Packaging are recommended. The packaging needs of pharmaceuticals are different in degree only from those of other perishable products such as processed foods. Because the required action of a medication can be nullified by any deterioration in its active principles the protection required from its packaging is at least an order of magnitude greater than that needed by foods for example. Functional efficiency is therefore of prime importance. Conversely the need for the packaging to 'sell' the medication is much less, hence the graphics required need only provide the right 'image' for the product when presented for use in hospital or surgery. Even when on sale at the pharmacy the 'appeal' required is that of providing hygiene and confidence more than anything else. Thus, the textual requirements are paramount including traceability (batch numbers, date-coding etc) in case of recall; while striking appearance to attract customer attention is in lower key. And with the increase in malicious tampering nowadays recall is more frequent.