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Production and utilization. Structure and gross composition of the rice grain. Chemical constituents. Nutritive value of rice and rice diets. Processing. Grain quality evaluation. Varietal quality types. Processed products. Bran. Hull and straw.
Rice Chemistry and Technology, Fourth Edition, is a new, fully revised update on the very popular previous edition published by the AACC International Press. The book covers rice growth, development, breeding, grain structure, phylogenetics, rice starch, proteins and lipids. Additional sections cover rice as a food product, health aspects, and quality analysis from a cooking and sensory science perspective. Final chapters discuss advances in the technology of rice, with extensive coverage of post-harvest technology, biotechnology and genomic research for rice grain quality. With a new, internationally recognized editor, this new edition will be of interest to academics researching all aspects of rice, from breeding, to usage. The book is essential reading for those tasked with the development of new products. - Identifies the nutrition and health benefits of rice - Covers the growing and harvesting of rice crops - Includes the use of rice and byproducts beyond food staple - Explains rice chemistries, including sections on starch, protein and lipids - Contains contributions from a world leading editorial team who bring together experts from across the field - Contains six new chapters focusing on rice quality
Rice Bran and Rice Bran Oil (RBO) provides much-needed best practices on the science and technology of RBO, including the chemistry, dectection methods, nutrition (including the effect of processing technologies on micronutrients) and applications. RBO contains many nutritional components, including up to 2% oryzanol, tocotrienol, and phytosterols. In addition, the fatty acid composition is well balanced with mainly oleic acid and very little linolenic acid, which allows for versatile uses in frying, cooking, and in formulating oil blends for food uses, especially as a trans-free alternative. Many food industrial sectors are seeking possibilities to use RBO in their products from not only Asia and South America, but also Europe and North America. However, there are many processing, analytical, and nutritional considerations that must be documented in one resource. This volume is perfect for those interested in understanding the many emerging potential uses for this alternative oil. Written by a team of experts from academia and industry, this book is the first of its kind. In addition, it provides an overview of related rice bran products and their development, including: • Rice bran protein • Rice dietary fiber • Dietary rice bran/meal • Rice husk/ash applications • Paddy straw applications • Valued added products, including rice bran wax - Delivers practical application guidance in the selection and storage of raw materials, ensuring processing conditions address stability concerns during production - Presents simple and reliable detection methods, as well as the international and national rice bran oil standards - Provides core scientific insights into this trans-free oil option
Introduction; Materials and methods; Results and discussion; Asia; North, Central, and South America; South America; Europe; Africa; Oryza glaberrima and other wild rices; General disucssion and conclusions; Institutions and organizations supplying rice samples; Sources of 1990 grain quality information in national programs; Cross reference index of variety names; Acronyms of rice varieties/lines.
This book aims to provide an overview of the challenges and available technologies to improve rice and provide a response to the challenge posed by increasing world population and the resultant food shortages. Nutritional aspects of rice products and omics and the molecular technologies currently being used are covered in depth. As a staple food for over 50% of the world ́s population, an estimated 9 billion people will need to be fed by 2050, and healthy and uncontaminated foods need to reach consumers in developed and developing countries.This makes quality beyond productivity incredibly important and is one of the overriding themes of this work. The Future of Rice Demand: Quality Beyond Productivity offers researchers a better understanding of the nutritional aspects of rice. Omics technologies applied to cereal grain quality have been scarce in the literature published to date, making this text an excellent single source for researchers in regions where rice is a major crop. The first section of the book focuses on the major aspects of the industrial processing of all rice types. Further sections look at contamination prevention and biofortification, special rice types, and omics and other molecular tools used in the mass production and processing of healthy rice products.
Focuses on developments in rice storage, quality, processing and utilization, emphasizing their importance to growers, technologists and consumers. This work also provides insight into future advances and examines starch gelatinization in rice during the cooking process.
This volume explores the latest advances in high-throughput phenotyping to screen milling quality, cooking and nutritional quality in breeding material, and simplifying grain quality screening in germplasm. The chapters in this book cover topics such as seed development stages; panicle architectural traits to understand yield components; starch structure and protein properties; and genome editing technologies to reveal grain quality and nutritional traits. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Cutting-edge and thorough, Rice Grain Quality: Methods and Protocols is a valuable resource for all researchers interested in expanding their knowledge in this evolving field.
Rice is a staple crop in many coastal and non-coastal areas of the globe and requires a large production area. With the increasing trends in population , it is pivotal to increase the production of this important crop for sustainability. The introduction of high-yielding rice cultivars through molecular breeding is one of the possibilities that can ensure sustainability. Additionally, development of new biotic and abiotic stress-resistant cultivars with higher nutritional value can revolutionize the rice industry.