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Dry Cereals

United States. Congress. Senate. Committee on Commerce. Consumer Subcommittee

Published: 1970

Total Pages: 304


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At long last, Sarah Britton, called the “queen bee of the health blogs” by Bon Appétit, reveals 100 gorgeous, all-new plant-based recipes in her debut cookbook, inspired by her wildly popular blog. Every month, half a million readers—vegetarians, vegans, paleo followers, and gluten-free gourmets alike—flock to Sarah’s adaptable and accessible recipes that make powerfully healthy ingredients simply irresistible. My New Roots is the ultimate guide to revitalizing one’s health and palate, one delicious recipe at a time: no fad diets or gimmicks here. Whether readers are newcomers to natural foods or are already devotees, they will discover how easy it is to eat healthfully and happily when whole foods and plants are at the center of every plate.
Cereals processing is one of the oldest and most important of all food technologies. Written by a distinguished international team of contributors, Cereals Processing Technology reviews the range of cereal products and 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 benchmarking their operations against the best prices in their sector and across cereals processing as a whole. Part 1 looks at cereal and flour production, with chapters on cereal and production methods and flour milling. There is also a chapter on the increasingly important and controversial area of cereal biotechnology and its application to wheat, barley, rice, and maize. Part 2 looks at how these raw materials are then processed into final products for the consumer. There are chapters on rice and rice product production, pasta and Asian noodle processing, the manufacture of breakfast cereals, malting, and breadmaking. Chapters look at the increasing diversity of cereal products, at current best practice in manufacturing processes, and emerging trends in the technologies for particular products. Cereals Processing Technology provides an authoritative guide to some of the key technological developments both within particular sectors and across cereals processing as a whole.
Characterization of Cereals and Flours is a state-of-the-art reference that details the latest advances to characterize the effects of manufacturing processes and storage conditions on the thermal, mechanical, and structural properties of cereal flours and their products - examining the influence of moisture absorption, storage temperature, baking, and extrusion processing on flour and cereal product texture, shelf-life, and quality. The book discusses the influence of additives on pre- and postprocessed food biopolymers; the development of databases and construction of state diagrams to illustrate the state and function of cereal flours before, during, and after production; and the current techniques in image analysis, light and electron microscopy, and NMR spectroscopy used to analyze the microstructure of cereal products. It also discusses the methods used to optimize processing parameters and formulations to produce end-products with desirable sensory and textural properties; the shelf life of cereal products; and the relationships between the sensory and physical characteristics of cereal foods.
Cereals, pulses, roots, and tubers are major food sources worldwide and make a substantial contribution to the intake of carbohydrates, protein, and fiber, as well as vitamin E and B. The Handbook of Cereals, Pulses, Roots, and Tubers: Functionality, Health Benefits, and Applications provides information about commercial cereals, pulses, and their nutritional profile, as well as health benefits and their food and non-food applications. Split into four sections, this handbook covers all the recent research about the related crops and outlines matters needing further research in the field of agriculture sciences. Both qualitative and quantitative analysis of nutrients and bio-actives, and their beneficial effects on human health, are highlighted in this book. The conclusions drawn and future perspectives proposed in each chapter will also help researchers to take more focused approaches. FEATURES Covers the full spectrum of cereals, pulses, roots, and tubers grain production, processing, and their use for foods, feeds, fuels, and industrial materials, and other uses Contains the latest information from grain science professionals and food technologists alike Provides comprehensive knowledge on the nutritional and non-nutritional aspects of cereals, pulses, and tubers Discusses the latest development in modification of native starch Provides information in enhancing shelf life and its utilization in phytochemical rich product development The result of various well-versed researchers across the globe sharing their knowledge and experience, this handbook will be a valuable resource for students, researchers, and industrial practioners who wish to enhance their knowledge and insights on cereals, pulses, roots, and tubers.
"So long as a person is capable of self renewal they are a living being. " -Amiel Cereals have been the source of life to the human race, providing nutritional and ma terial needs since the dawn of civilization. As with all dynamic industries, the Cereal in dustry has renewed itself in the past; as the millennium approaches, it is on the brink of another renewal, in which the versatility and providence of cereals are being rediscovered, but in new and exciting ways. Cereals are richly diverse; over 10,000 varieties convert minerals and the energy of the sun into a bursting catalog of functional and versatile biomolecules and biopolymers. Processing technology allows these components to be accessed, separated, isolated and purified, while chemical science allows modification for even greater diversity and speci ficity. The last century has seen the move from cereal- to oil-based chemical and materials industries. But cereals contain a greater variety and functionality of macromolecules than oil. Starch, protein, bran and straw, already diverse across cereal varieties, can be fraction ated into more specific elements, modified chemically to enhance function, or used as feedstocks in fermentation-based bioconversion systems, to produce a range of bulk and fine chemicals for industries as diverse as food, pharmaceuticals, plastics, textiles, pulp and paper, transport, composites and boards, adhesives and energy.
Recent discussions about food safety and an awareness of vanishing traditions have resulted in an increasing interest in traditional foods and food heritage. The Digital atlas of traditional food made from cereals and milk explores the traditional food products that could have been made by transitional hunter-gatherers and the early farmers in south-west Asia by examining the traditional foods still being made today. The author has sampled traditional foods throughout south-west Asia, sometimes in large cities but more often in small villages or even remote farmhouses. His research shows that traditions can persist over a long period, but the rarity of some of the items he was able to collect also indicates that these foods represent an endangered mirror of our remote past. In the first part of the atlas, the author explores the basic principles of the processes applied to cereals and milk. What kinds of traditional foods can be considered representative of an ancient and unique traditional cuisine? Which technologies are necessary for their production? And how might these foods have been made on a large scale and with efficient use of fuel? How were they preserved for long periods? The atlas portion of the book presents well over 200 samples of traditional foods. Each sample includes a description with high-quality photographs.
Developing Sustainable and Health Promoting Cereals and Pseudocereals: Conventional and Molecular Breeding reviews the most recent developments in the fields of cereal and pseudocereal breeding, with particular emphasis on the latest biotechnological techniques likely to lead to breakthrough changes in plant breeding. The book provides comprehensive information on the use of genetic resources or pre-breeding activities to improve health-related properties of cereals and pseudocereals. The text also explores targeted field-management practices and the latest in biotechnological methodologies, and offers a cohesive overview necessary for understanding the potential impacts and benefits of improved production of cereals and pseudocereals with high-nutritional value. Includes coverage of cereals and pseudocereals in a single comprehensive volume Focuses on sustainable circular economy, including assurance of food safety, quality, and health benefits Examines breeding to attain robust cereal and pseudocereals with higher nutritional value and adapted to specific regions, climate change, and global warming