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Pigmented Grains: Nutritional Properties, Bioactive Potential, and Food Application highlights the potential of pigmented grains crops in the human diet and their health benefits due to presences of the rich source of phytochemicals and pigments. Divided in 13 chapters, the book covers the breeding approaches and techniques for producing pigmented grains, the functionality and nutritional properties of wheat, rice, maize, barley, oats and rye, sorghum, millets, and pseudo cereals such as amaranth, quinoa and buckwheat. The book also covers processing of pigmented grains and effect on their functionality, besides utilization of pigmented grains and their by-products in a variety of products. A comprehensive reference written for teachers, scientists, researchers, students and all others who have interest in pigmented grains their potential nutritional value, utilization in food processing, value addition, and combating malnutrition and nutritional security. - Discusses nutrition, bioactive potential, and opportunities for use in food products - Presents processing techniques for extraction and enhancing product quality from pigmented grains - Covers breeding approaches and techniques for producing pigmented grains - Includes wheat, rice, maize, barley, oats and rye, sorghum, millets, amaranth, quinoa, and buckwheat
In recent years, consumers have been concentrating on the health benefits and nutrition from food to preserve a healthy lifestyle. They are looking for colorants derived from natural sources to enhance the nutritional and antioxidant value of foods. Coloured cereals (wheat, rice, barley, oat, maize, sorghum, and millets) contain many phytochemicals, including anthocyanins and carotenoids associated with numerous health benefits. This book presents a comprehensive overview of the bioactive potential, food applications, and health benefits of coloured cereal grains. Novel approaches to the integration of coloured grain into food in the food processing industries are included, reviewing high-value pigments in the bran layer which can easily be extracted and utilized as functional foods and natural colorants. Aimed at researchers carrying out innovative studies, food regulatory and safety authorities and food processing industries who are trying to minimize synthetic food colorants and dyes, this book provides a novel approach to the use of substitute synthetic dyes which can improve the nutritional value, appearance, texture, flavour, and storage properties of food products.
Functionality and Application of Colored Cereals: Nutritional, Bioactive and Health Aspects focuses on exploiting the full and functional possibilities of these grains. From their physical chemistry to their health benefits, this book highlights cereals with potential for enhanced products. Plant-based food colorants play an important role in conferring colors to food to increase attractiveness for consumers, improve appetite, minimize synthetic colorants, and conform to food culture. Over the last decades, the presence of anthocyanin and other bioactive compounds in colored cereal grains (maize, rice, wheat, barley, sorghum, millet, and rye) have attracted the attention of various food processors and researchers. Colored cereals are imperative for food processing industries as high-value pigments present in the bran layer can easily be extracted and utilized as functional foods and natural colorants. The extracted pigments such as anthocyanin can replace synthetic dyes currently used in foods, drugs and cosmetics. Additionally, natural additives improve the nutritional value, appearance, texture, flavor and storage properties of food products. - Reviews colored cereal grains morphology, composition and the diversity of the different uses of cereal grains - Includes content on the functionality and therapeutic significance of functional components of colored cereal grains - Contains global coverage of the latest research on the bioactive potential, food applications and health benefits of colored cereals
Globally, cereal grains are a staple part of the diet providing primarily carbohydrates and other phytochemical components. Detailed coverage of the composition and functionality of the bulk carbohydrate components, specifically starch, beta-glucans, and arabinoxylans, and the trace phytochemical components, i.e. phenolic compounds such as phenolic acids, anthocyanins, deoxyanthocyanins, and proanthocyanidins in cereal grains and grain products is provided. Considerable attention is paid to the interactions between carbohydrate and non-carbohydrate components in grains including starch–protein and starch–lipid interactions and their effects on starch digestibility. The phenolic constituents bound to grain dietary fiber also receive detailed consideration and the final chapter presents a review that discusses whole grain–gut microbiota interactions identifying new areas of research that may contribute to a better understanding of the underlying mechanisms linked to human health. This book provides researchers, clinicians and students with a comprehensive compendium on aspects of whole grain components and brings the literature up to date.
Cereal Grains: Assessing and Managing Quality, Second Edition, provides a timely update to this key reference work. Thoroughly revised from the first edition, this volume examines the latest research and advances in the field. New chapters have been added on alternative grains, including ancient grains and pseudocereals, biosecurity, and industrial processing of grains, amongst others. Quality and food safety are important throughout the value-addition chain, from breeding, production, harvest, storage, transport, processing, and marketing. At all stages, analysis is needed so that quality management can proceed intelligently. These considerations are examined for each of the major cereal species, including wheat (common and durum), rye and triticale, barley and oats, rice, maize (corn), pseudocereal species, sorghum, and the millets. Divided into five sections, the book analyses these for the range of cereal species before a final section summarizes key findings. - Documents the latest research in cereal grains, from their nutraceutical and antioxidant traits, to novel detection methods - Provides a complete and thorough update to the first edition, analyzing the range of major cereal species - Presents detailed advice on the management of cereal quality at each stage of production and processing
The Encyclopedia of Food Security and Sustainability, Three Volume Set covers the hottest topics in the science of food sustainability, providing a synopsis of the path society is on to secure food for a growing population. It investigates the focal issue of sustainable food production in relation to the effects of global change on food resources, biodiversity and global food security. This collection of methodological approaches and knowledge derived from expert authors around the world offers the research community, food industry, scientists and students with the knowledge to relate to, and report on, the novel challenges of food production and sustainability. This comprehensive encyclopedia will act as a platform to show how an interdisciplinary approach and closer collaboration between the scientific and industrial communities is necessary to strengthen our existing capacity to generate and share research data. Offers readers a ‘one-stop’ resource on the topic of food security and sustainability Contains articles split into sections based on the various dimensions of Food Security and Food Sustainability Written by academics and practitioners from various fields and regions with a “farm to fork understanding Includes concise and accessible chapters, providing an authoritative introduction for non-specialists and readers from undergraduate level upwards, as well as up-to-date foundational content for those familiar with the field
World population is growing at an alarming rate and may exceed 9.7 billion by 2050, whereas agricultural productivity has been negatively affected due to yield limiting factors such as biotic and abiotic stresses as a result of global climate change. Wheat is a staple crop for ~20% of the world population and its yield needs be augmented correspondingly in order to satisfy the demands of our increasing world population. “Green revolution”, the introduction of semi-dwarf, high yielding wheat varieties along with improved agronomic management practices, gave rise to a substantial increase in wheat production and self-sufficiency in developing countries that include Mexico, India and other south Asian countries. Since the late 1980’s, however, wheat yield is at a standoff with little fluctuation. The current trend is thus insufficient to meet the demands of an increasing world population. Therefore, while conventional breeding has had a great impact on wheat yield, with climate change becoming a reality, newer molecular breeding and management tools are needed to meet the goal of improving wheat yield for the future. With the advance in our understanding of the wheat genome and more importantly, the role of environmental interactions on productivity, the idea of genomic selection has been proposed to select for multi-genic quantitative traits early in the breeding cycle. Accordingly genomic selection may remodel wheat breeding with gain that is predicted to be 3 to 5 times that of crossbreeding. Phenomics (high-throughput phenotyping) is another fairly recent advancement using contemporary sensors for wheat germplasm screening and as a selection tool. Lastly, CRISPR/Cas9 ribonucleoprotein mediated genome editing technology has been successfully utilized for efficient and specific genome editing of hexaploid bread wheat. In summary, there has been exciting progresses in the development of non-GM wheat plants resistant to biotic and abiotic stress and/or wheat with improved nutritional quality. We believe it is important to highlight these novel research accomplishments for a broader audience, with the hope that our readers will ultimately adopt these powerful technologies for crops improvement in order to meet the demands of an expanding world population.
The plant factory is a facility that aids the steady production of high-quality vegetables all year round by artificially controlling the cultivation environment (e.g., light, temperature, humidity, carbon dioxide concentration, and culture solution), allowing growers to plan production. By controlling theinternal environment,plant factories can produce vegetables about two to four times faster than by typical outdoor cultivation. In addition, as multiple cultivation shelves (a multi-shelf system) are used, the mass production of vegetables in a small space is facilitated. This research topic presents some new trends on intelligent measuring systems; environment controlled and optimization; flavonoids; phenylpropanoids, transcriptomes, and bacteria.