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Biofortification, which can be defined as the process of increasing the content/density of essential nutrients and/or its bioavailability of food with valuable compounds, is a promising means of increasing nutrient intakes. Traditional fortification practices in which exogenous nutrients are added to food can increase the content of nutrients but the use of biofortified foods with nutrients also may deliver the compounds in a more available form, as well as boost the overall relative effectiveness of these foods in raising nutrients status. Food Biofortification Technologies presents the state of the art in the field of novel methods of fortification and agricultural treatments as a way to improve the quality of obtained food products or compounds enriched with valuable nutrients. The book deals with fortification methods and agricultural treatments, which can improve the quality of food products or other agricultural compounds, providing them with a higher density of valuable nutrients. The utilization of novel products, such as feed additives and fertilizers, can avert nutrients depletion in food products. The book describes new and conventional methods of introducing valuable compounds into food components and presents the application of biosorption, bioaccumulation, and utilization of fertilizers in obtaining designer food. Attention is paid to the use of biomass as the carrier of nutrients such as microelements into the food components. The chapters are dedicated to specific food products and their nutrient components. The first chapter discusses the agronomic biofortification with micronutrients where the fertilization strategies are pointed out as a key to plant/cereals fortification. Other chapters present the fortification of animal foodstuffs such as meat, fish, milk, and eggs as well as the fortification of plant foodstuffs such as vegetables, fruits, and cereals. The book also explores advances in food fortification with vitamins and co-vitamins, essential minerals, essential fatty and amino acids, phytonutrients, and enzymes.
Wheat and Barley Grain Biofortification addresses topics associated with the alleviation of malnutrition in globally diverse populations via wheat and barley biofortification. The book synthesizes the current trends of malnutrition across the globe, the need for wheat and barley nutritional enhancement and how agronomic, microbial and molecular understanding of biofortification can help in devising significant approaches and strategies. In addition, it includes discussions on potential genetic variability available and their efficient utilization in wheat and barley for molecular breeding for nutrients, challenges and opportunities for bioavailability, and technical advancement for analysis of bioavailability. Addresses the need for wheat and barley biofortification to address global nutrition demands Places emphasis on the current agronomic and molecular understanding of biofortification Discusses the potential utilization of genetic variability Highlights the economics of biofortification over fortification technology
A Detailed Reference on How Modern Biotechnology is using the Biofortification of Crops to Improve the Vitamin and Mineral Content of Edible Plants In this reference, Vitamins and Minerals Bio-Fortification of Edible Plants, authors cover new territory on phytonutrients, focusing on the enhancement and modification of edible crops. This book presents techniques and research findings from modern biotechnology to educate readers on the newest tools and research in the field. Readers will learn how groundbreaking scientific advances have contributed to the nutritional content of edible plants and crops for animals and humans. Inside, readers will find comprehensive information on new concepts of biofortification, including but not limited to: ● Modern biotechnology and its uses for improving the vitamin and mineral content of edible plants ● Potential minerals and vitamins that can be targeted and implemented in agriculture ● Ways of enhancing the nutritional contents of edible plants to address nutritional deficiencies and improve livestock ● Methods of identifying plants that can be used to heal or prevent disease and illness While many books cover the phytonutrients of crops, this reference book reports on methodologies, techniques, and environmental changes used to enhance and improve agricultural products. It is one of the first to provide information on using modern biotechnologies to modify crops with the goal of creating health benefits.
Food Fortification in a Globalized World outlines experiences over the past 50 years—and future potential—for the application of food fortification across a variety of foods in the industrialized and developing world. The book captures recent science and applications trends in fortification, including emerging areas such as biofortification, nutraceuticals and new nutrient intake recommendations, standards, policy and regulation. The book proposes a balanced and effective food fortification strategy for nations to adopt. In covering the most technical scientific details in an approachable style, this work is accessible to a range of practitioners in industry, government, NGOs, academia and research. Food fortification has become an increasingly significant strategy to address gaps in micronutrient intakes in populations with measurable impact in both industrialized and developing countries. While the positive impacts are well recognized there are new concerns in some countries that excessive fortification of foods, outdated nutritional labeling rules and misleading marketing tactics used by food manufacturers may result in young children consuming harmful amounts of some vitamins and minerals. Presents the latest science on fortification for the prevention of micronutrient deficiencies Includes emerging areas such as biofortification, nutraceuticals and new nutrient intake recommendations, standards, regulations, practices and policies from around the world Summarizes evidence of application of food fortification and measured impact on public health Discusses how public policy impacts fortification of foods and nutritional deficiencies Considers the complex economics of and market for fortified foods
"This paper describes the progress made in disseminating, testing and developing biofortified food crops with both conventional plant breeding and genetic engineering." cast-science.org.
Plants require essential nutrients (macronutrients and micronutrients) for normal functioning. Sufficiency range is the levels of nutrients necessary to meet the plant’s needs for optimal growth. This range depends on individual plant species and the particular nutrient. Nutrient levels outside of a plant’s sufficiency range cause overall crop growth and health to decline, due either to deficiency or toxicity from over-accumulation. Apart from micronutrients (B, Cl, Mn, Fe, Zn, Cu and Mo), Aluminum (Al), cerium (Ce), cobalt (Co), iodine (I), lanthanum (La), sodium (Na), selenium (Se), silicon (Si), titanium (Ti), and vanadium (V) are emerging as novel biostimulants that may enhance crop productivity and nutritional quality. These beneficial elements are not "essential" but when supplied at low dosages, they augment plant growth, development, and yield by stimulating specific molecular, biochemical, and physiological pathways in responses to challenging environments. The book is the first reference volume that approaches plant micronutrient management with the latest biotechnological and omics tools. Expertly curated chapters highlight working solutions as well as open problems and future challenges in plant micronutrient deficiency or toxicity. We believe this book will introduce readers to state-of-the-art developments and research trends in this field.
Biofortification is a widely accepted cost-effective agricultural strategy to improve the nutrient deficiency in populations. It is especially useful in low income and developing nations. Strategies for biofortification employ crop breeding, targeted genetic alteration, and agronomy, show promise for addressing multiple forms of human malnutrition. To increase the bioavailability of food nutrients, biofortification efforts must focus on improving the nutrient content of food and decreasing anti-nutrients. This book covers the basics of biofortification, international efforts, challenges, opportunities, and the use of the latest omics technologies in addition to classical approaches. It covers the most studied micronutrients, vitamin biofortification, and the new topics in dietary fibers, starch quality, and phenolics. It uniquely covers the antinutrients like phytic acid, ODAP, and Glucosinolates. It also reviews food bioavailability, scientific research, and meta-analyses to assess the health-promoting efficacy of different nutrients. The book attempts to cover all bases, from decision considerations to prospects, as well as biofortification of nutrients, antinutrient reduction, and the use of latest technology to aid in the nutritional enhancement of virtually all recorded food crops.
Nanotechnology can be used to address challenges faced by the food and bioprocessing industries for developing and implementing improved or novel systems that can produce safer, nutritious, healthier, sustainable, and environmental-friendly food products. This book overviews the most recent advances made on the field of nanoscience and nanotechnology that significantly influenced the food industry. Advances in Processing Technologies for Bio-Based Nanosystems in Food provides a multidisciplinary review of the complex mechanisms involved in the research, development, production and legislation of food containing nanostructures systems. Features: Presents the most recent advances made in the field of nanoscience and nanotechnology as applied to the food industry Discusses innovative approaches and processing technologies Shows how nanotechnology can be used to produce safer, nutritious, healthier, sustainable and environmental-friendly food products Covers the complex mechanisms involved in the research, development, production and legislation of food containing nanostructures Selected examples of nanotechnology applications in food industry are shown, focusing on advanced aspects of food packaging, processing and preservation; followed by one contribution that presents the potential commercialization and the main challenges for scale-up. Comprised of 15 chapters, this book provides much-needed and up-to-date information on the use of emergent technologies in bio-based nanosystems for foods, and serves as an ideal reference for scientists, regulators, industrialists, and consumers that conduct research and development in the food processing industry.
First Published in 2010. Routledge is an imprint of Taylor & Francis, an informa company.
In a world that is constantly evolving, our understanding of nutrition and its impact on human health has grown exponentially. Food, once merely a source of sustenance, is now recognized as a powerful tool for improving public health and well-being. Organized into four sections, Food Fortification: Trends and Technologies presents a comprehensive exploration of food fortification—from its historical roots to its modern applications. Part I introduces the concept of food fortification as a potential strategy for the control of micronutrient malnutrition and the role of micronutrients in human health, recommended dietary allowance, and source. It also details the deficiency, prevalence, populations under risk, and factors contributing to micronutrient deficiency. Part II summarizes the prevalence, causes, and consequences of vitamin deficiencies. It lays a framework for national and international fortification programs. In addition, it provides information about case studies, the impact of fortification on food textural and sensory properties, as well as challenges with currently used fortification methods. Part III provides technical information on various minerals that can be used to fortify foods, including their chemistry, absorption, metabolism, and biological role. It also reviews their applications in specific food vehicles. Part IV describes the key steps involved in food bioactive fortification. This section also deals with the fortification of multigrain flour and challenges associated with PUFA fortification. It also highlights the important roles of encapsulation on bioavailability, with examples of fortification in dairy, egg, bakery, confectionery, and other products. This book delves into the critical realm of fortifying our food supply to address the complex nutritional challenge and is a tribute to the progress that has been made in food fortification over the past few decades, as well as a call to action for the work that still lies ahead.