Cereal grains have been the principal component of human diet for thousands of years and have played a major role in shaping human civilization. Around the world, rice, wheat, and maize, and to a lesser extent, sorghum and millets, are important staples critical to daily survival of billions of people. More than 50% of world daily caloric intake is derived directly from cereal grain consumption. Most of the grain used for human food is milled to remove the bran (pericarp) and germ, primarily to meet sensory expectations of consumers. The milling process strips the grains of important nutrients beneficial to health, including dietary fiber, phenolics, vitamins and minerals. Thus, even though ample evidence exists on the health benefits of whole grain consumption, challenges remain to developing food products that contain significant quantities of whole grain components and meet consumer expectations.
This book presents some of the latest research endeavors that aim to improve our understanding of how the chemistry of various grain components can be manipulated to improve contribution of cereals to human health. Most of the topics are based on the Cereal Grains Symposium, at the 2011 American Chemical Society held in Anaheim, CA, March 27-31.

The application of machines and better power sources to enhance agricultural production has been one of the most significant developments in agriculture. Mechanization of agriculture is needed for development and optimal utilization of natural resources leading to higher productivity and reduced cost of production for greater profitability, economic competitiveness and sustainability. Mechanization also imparts capacity to the farmers to carry out farm operations with dignity, comfort and freedom from drudgery, making the farming agreeable vocation for educated youth as well. It helps the farmers to achieve timeliness in farm operations and apply costly input with reduced quantity for better efficacy and efficiency. Small and marginal farmers can now make use of high capacity agricultural machines on custom hire basis. The results of this development can be seen in many aspects such as increase in productivity and production per worker, precision in application of crop inputs, increase in cropping intensity due to timeliness of operations, increase in the quality of produce, reduction in grain losses and increase in farm employment. Mechanization is particularly advantageous when it can minimize a high peak labour demand that occurs over a relatively short period of time each year. Mechanization also encourages better management of farm inputs, improvement in working conditions and performance of jobs that would otherwise be difficult by hand. It also helps in reducing the cost of production. This book 'Mechanization of Cultivated Crops' covers the farm tools and equipment used in different operations such as land development, tillage, seeding/planting, interculture, fertilizer application, plant protection, harvesting and threshing and residue management. The book can be referred as a textbook for the under graduate students of agriculture and under graduate and post graduate students of agricultural engineering.

The book contains articles contributed by experts from various parts of the country from research institutes like CFTRI, DRFL, SLIET, CIPET, ICAR, PAU etc.. This book will be a valuable addition to the literature on food grains that has been designed systematically to include basis and advanced knowledge on quality management in addition to the collection of articles in the fields of: Quality Strategies, Approaches and Management, Quality Evaluation of Grains and its Constituents , Value Addition, Post Harvest Plant Operations and Quality Management, Product Development Status and New Strategies, Storage and Handling, Grading and Trends of Milling Industries

Cereals are the major sources of energy and provide proteins, dietary fibre, minerals, vitamins and other nutritional factors to the human beings. Among cereals, wheat, barley, rice and maize are the major sources of food and feed. There are large numbers of cereal based products being consumed across the world all of which have specific quality requirements. In addition cereals have been explored for their use in several industrial applications such as bio-fuels and biodegradable products. Therefore, improving quality of cereals for food, feed and industrial applications has paramount importance in world economy. However, the improvement in the processing and nutritional quality of cereals depends on understanding the chemical and the genetic constituents governing quality traits. Excellent progress has been made in understanding the chemical and molecular basis of cereal quality. The book contains detailed aspects of the quality requirements of different products of wheat, rice, maize and barley and also the chemical and molecular components governing these traits. The strategy to improve these cereals using markers assisted selection and transgenic approach has been discussed in greater detail in the book.

Insect Pests of Millets: Systematics, Bionomics, and Management focuses on protecting the cultivated cereals that many worldwide populations depend on for food across the semi-arid tropics of the world. Providing coverage of all the major cultivated millets, including sorghum, pearlmillet, finger millet, barnyard millet, prosomillet, little millet, kodomillet, and foxtail millet, this comprehensive book on insect pests is the first of its kind that explores systematics, bionomics, distribution, damage, host range, biology, monitoring techniques, and management options, all accompanied by useful illustrations and color plates. By exploring the novel aspects of Insect-plant relationships, including host signaling orientation, host specialization, pest - host evolutionary relationship, and biogeography of insects and host plants, the book presents the latest ecologically sound and innovative techniques in insect pest management from a general overview of pest management to new biotechnological interventions.

Genetic and Genomic Resources For Cereals Improvement is the first book to bring together the latest available genetic resources and genomics to facilitate the identification of specific germplasm, trait mapping, and allele mining that are needed to more effectively develop biotic and abiotic-stress-resistant grains. As grain cereals, including rice, wheat, maize, barley, sorghum, and millets constitute the bulk of global diets, both of vegetarian and non-vegetarian, there is a greater need for further genetic improvement, breeding, and plant genetic resources to secure the future food supply. This book is an invaluable resource for researchers, crop biologists, and students working with crop development and the changes in environmental climate that have had significant impact on crop production. It includes the latest information on tactics that ensure that environmentally robust genes and crops resilient to climate change are identified and preserved.

Agriculture depends on improved cultivars, and cultivars are developed through proper plant breeding. Unfortunately, applied plant breeding programs that are focused on cereal commodity crops are under serious erosion because of lack of funding. This loss of public support affects breeding continuity, objectivity, and, perhaps equally important, the training of future plant breeders and the utilization and improvement of plant genetic resources currently available. Breeding programs should focus not only on short-term research goals but also on long-term genetic improvement of germplasm. The research products of breeding programs are important not only for food security but also for commodity-oriented public and private programs, especially in the fringes of crop production. Breeding strategies used for long-term selection are often neglected but the reality is that long-term research is needed for the success of short-term products. An excellent example is that genetically broad-based public germplasm has significantly been utilized and recycled by industry, producing billions of dollars for industry and farmers before intellectual property rights were available. Successful examples of breeding continuity have served the sustainable cereal crop production that we currently have. The fact that farmers rely on public and private breeding institutions for solving long-term challenges should influence policy makers to reverse this trend of reduced funding. Joint cooperation between industry and public institutions would be a good example to follow. The objective of this volume is to increase the utilization of useful genetic resources and increase awareness of the relative value and impact of plant breeding and biotechnology. That should lead to a more sustainable crop production and ultimately food security. Applied plant breeding will continue to be the foundation to which molecular markers are applied. Focusing useful molecular techniques on the right traits will build a strong linkage between genomics and plant breeding and lead to new and better cultivars. Therefore, more than ever there is a need for better communication and cooperation among scientists in the plant breeding and biotechnology areas. We have an opportunity to greatly enhance agricultural production by applying the results of this research to meet the growing demands for food security and environmental conservation. Ensuring strong applied plant breeding programs with successful application of molecular markers will be essential in ensuring such sustainable use of plant genetic resources.

The main purpose of this book is to introduce black rice to a wider circle of people. Although there have been research on different aspects of black rice, the information is scattered and not easily accessible to laypersons. The book intends to cover all the aspects of black rice from research, history, to its development. As such, the book will be suitable for both rice researchers and non-professionals who want to know more about this unique rice crop. Black rice, also known as forbidden rice, is packed with high level of nutrients and antioxidants. The antioxidants found in black rice is higher than the blueberries (that contain highest amount of anthocyanins). Black rice is black due to anthocyanin content in the outer layer of its kernel. Legend tells that this rice was consumed only by royals in China and it was expected that this rice would increase life span of the king. Consumption of black rice without approval was hanged. Ordinary individuals were not allowed to consume black rice. Thus this rice is also known as forbidden rice and Emperor's rice. Now this black heirloom rice is widely available in different parts of the world. Researchers have found that black rice reduce Reactive Oxygen Species (ROS), the free radicals produced in the body which is the cause of many diseases. This rice also reduce diabetes, inflammation, heart attack, allergy and obesity; reduce the growth of cancer, improves digestive system and is panacea of many health problems. Thus this rice is also known as long life rice. Food nutritionists consider black rice as modern super foods. The cultivation method of black rice is similar to general rice cultivation practices. There are many varieties available in black rice which is of different Asian origin but Chinese black rice is the most famous among them. Black rice has a wide range of applications because its bran is used as a natural food colouring dye, and it is also used to prepare noodles, pasta, porridge, wine etc. This rice takes slightly longer time to cook than widely available white rice. In modern era, black rice serve as one of the best food materials available to us to maintain our health with regular physical exercise.

Fungi growth in the storage of cereal grain has led to serious losses of grain quality and quantity each year the world over. These fungi and moulds are capable of producing mycotoxins which accumulate in grains. This book contains reviews from 21 experts on the relationship between mould growth in grain and its effects as well as the accumulation of mycotoxins. Discussed are properties of "storage fungi" such as the water and temperature relationship, taxonomy and nomenclature aspects etc. New methods of storage allow for early detection of these mould growths. Significant attention is paid to "Aspergillus" and "Penicillium" species colonizing in cereal grain and their growth requirements. The book touches on the significance of mycotoxins in grain being used for food production and possible detoxification processes. There is considerable attention given to a new technique of decontamination in countries with humid climates involving proper drying techniques at low temperatures or heated air dryers. This volume covers numerous scientific and practical aspects of grain storage on farms and in industries which are important in preventing quality losses and contamination with mycotoxins.

Biological nitrogen fixation (BNF) has become important in rice farming systems because this process diminishes the need for expensive chemical fertilizers which have been associated with numerous health and environmental problems. The extensive exploitation of BNF would provide economic benefits to small farmers, avoiding all malign influences of chemical fertilizers. Meanwhile, advances in biotechnology have brought rice genetics to the threshold of new opportunities for increasing rice production. This volume focuses, in six different sessions, on the role of BNF in the improvement of rice production in the light of the current state of the art of BNF technology transfer and diffusion. New ideas on BNF technology in research, extension information and inoculant technology are also included, together with the socio-economic impacts of using BNF in rice farm systems.

Wheat is the world's most important agricultural commodity. In Europe, where wheat is the main staple, bread wheat (Triticum aestivum) covers the majority of land on which wheat is cropped. Wheat breeders and technologists have contributed greatly to the continued success of bread wheat and its products. The bread-making quality' of a wheat variety can be described in relation to the processing its kernels must undergo to make a good bread. Bread wheat kernels must be suitable for proper milling into a flour that can produce a dough capable of becoming fine bread. The type of bread varies depending on local bread-making practices. Part I of this book contains a study of the anatomy and chemical composition of wheat kernels, and of the fundamental difference between soft' and hard' kernelled varieties. It relates these characteristics to the processes of milling, dough-making and manufacturing of bread, and to biscuit and pasta making. The genetic basis for these characteristics is illustrated, and assay methods for characterizing wheat varieties - ranging from Saunders' chewing test to the most recent developments in glutenin and gliadin research - are evaluated. Part II briefly describes - country by country - how bread-making quality has been integrated into wheat-breeding programmes throughout Europe, and how breeders have attempted to resolve the conflict between yield and quality. It describes how quality wheats travelled' around the world - from their endogenic source in Eastern Europe to North America, and back again to Europe. This explains how specific genetic material can appear in the pedigrees of varieties grown in a wide range of agro-ecological zones. In addition to givingan interesting historical survey, the book points the way forward for breeders' efforts in the future. Bread-Making Quality updates and interprets knowledge in a way that makes it particularly accessible for food technologists, breeders, students, and teachers.

Forty chapters deal with various aspects of tissue culture, in vitro manipulation, and other biotechnological approaches to the improvement of maize.
They are arranged in eight sections: - In Vitro Technology, Callus Cultures and Regeneration of Plants, Somatic Embryogenesis. - Wide Hybridization, Embryo, Ovule, and Inflorescence Culture, in Vitro Fertilization. - Production of Haploids and Double Haploids, Anther and Pollen Culture. - Protoplast Culture, Genetic Transformation. - Somaclonal Variation and Mutations. - Molecular Biology and Physiological Studies. - Proteins and Nutritional Improvement. Pollen Storage, Cryopreservation of Germplasm.

The West African Sahel is the transition zone between the Saharadesert in the north of Africa and the more humid Sudanian zones in the south. Although diverse in many ways, the Sahelian countries have the common problem of a fragile agricultural sector. This predicament is mainly caused by low inherent soil fertility, limited and unpredictable rainfall, frequent droughts, and wind erosion that accelerates soil degradation and desertification, compounded by To assure food production in the future, means rapidly growing populations. of declining soil fertility and increasing must be found to offset the trends soil degradation through wind erosion. This is a challenge for agricultural research. Since 1985, the Special Research Program 308 'Adapted Farming in West Africa' at the UniversityofHohenheimin collaboration with the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT) in Niger, has pursued the developmentof agricultural innovations for smallholder farmers in one of the most ecologically fragile regions of the world. The prevention of soil degradation, the restoration and maintenance of soil fertility, and the increase of land and labor productivity are key objectives of this multidisci plinary research program. From the beginning, a major focus of research has been wind erosion.

Cereal uses range from human food and beverages to animal feeds and industrial products. It is human food and beverages which are the predominant uses covered in this book, since the nutritional quality of cereals for animal feed is described in other publications on animal nutrition, and industrial products are a relatively minor use of cereals. Cereals are the main components of human diets and are crucial to human survival. Three species, wheat, rice and maize, account for the bulk of human food. Barley is the major raw material for beer production and ranks fourth in world production. Other species such as sorghum are regionally important. This book covers all the major cereal species: wheat, rice, maize, barley, sorghum, millet, oats, rye and triticale. Specific chapters have been devoted to a description of the major end-uses of each of the species and to definition of the qualities required for each of their end uses. The functional and nutritional quality of cereals determines their suitability for specific purposes and may limit the quality of the end product, influencing greatly the commercial value of grain. An under standing of the factors that determine grain quality is thus important in the maintenance of efficient and sustainable agricultural and food production. The biochemical constituents of the grain that determine quality have been described in chapters on proteins, carbohydrates and other components. An understanding of the relationships between grain composition and quality is important in selecting grain for specific uses."

From the pre-historic era to modern times, cereal grains have been the most important source of human nutrition, and have helped sustain the increasing population and the development of human civilization. In order to meet the food needs of the 21st century, food production must be doubled by the year 2025, and nearly tripled by 2050. Such enormous increases in food productivity cannot be brought about by relying entirely on conventional breeding methods, especially on less land per capita, with poor quality and quantity of water, and under rapidly deteriorating environmental conditions. Complementing and supplementing the breeding of major food crops, such as the cereals, which together account for 66% of the world food supply, with molecular breeding and genetic manipulation may well provide a grace period of about 50 years in which to control population growth and achieve sustainable development. In this volume, leading world experts on cereal biotechnology describe the production and commercialization of the first generation of transgenic cereals designed to substantially reduce or prevent the enormous losses to cereal productivity caused by competition with weeds, and by various pests and pathogens, which is an important first step in that direction.

There are few more emotive, or important, crops in the world than rice the staple food for a huge proportion of the world 's population. This volume presents the latest results of research in crop improvement as well as in molecular and cellular activities in rice. It consists of 26 chapters and is divided into the following four sections: Genome-wide and genome-based research; Signal transduction and development; Evolution and ecology; Improvement of rice.

Abiotic Stresses in Wheat: Unfolding the Challenges presents the current challenges, possibilities, and advancements in research-based management strategies for the adaptation of wheat crops under abiotic-stressed growth conditions. This book comprehensively discusses different abiotic stress conditions in wheat, and also covers current trends in their mitigation using advanced tools to develop resilience in wheat crops. Chapters provide insight into the genetic, biochemical, physiological, molecular, and transgenic advances and emerging frontiers for mitigating the effects of wheat abiotic stresses. This text is the first resource to include all abiotic stresses in one volume, providing important translational insights and efficient comparison.

The world continues to depend heavily upon a relatively small range of crops for food, fuel, fibre and industrial use, while many potentially good, economically acceptable alternatives exist. This book, which is the second in a series looking at underutilized crops, provides thorough details of those underutilized cereals and pseudocereals which are currently benefiting from research and others which have been neglected and deserve more research attention. Cereals and Pseudocereals considers in detail the potential for the following crops: quinoa, buckwheat, grain amaranth, triticale, fonio, intermediate wheatgrass and wild rice. Under the guidance of the International Centre for Underutilized Crops, the contents of this book have been drawn together by Professor Williams, who has wide research experience in the exploitation of new crops. The contents of this book will be of great interest and use to a wide range of people involved in work on the greater exploitation of currently underutilized crops, including upper level students in agricultural, plant and food sciences, researchers in development agencies and scientists working directly on improvement and exploitation of this group of crops.

Advances in Rice Blast Research provides a complete overview of the research undertaken on the rice-blast pathosystem. This book gathers in one volume the most recent works on rice blast fungus genetics and molecular biology of pathogenicity, rice blast fungus population studies, and genetics and molecular biology of rice resistance to blast, including resistance gene cloning. It also presents the latest results on resistance breeding and resistance management strategies, epidemiology and disease management. This book is a must for plant pathologists and breeders working on rice blast and also to plant pathologists and breeders dealing with fungal diseases in general, because the rice-blast pathosystem is a model in plant pathology. Advances in Rice Blast Research provides a complete overview of the research undertaken on the rice-blast pathosystem. This book gathers in one volume the most recent works on rice blast fungus genetics and molecular biology of pathogenicity, rice blast fungus population studies, and genetics and molecular biology of rice resistance to blast, including resistance gene cloning. It also presents the latest results on resistance breeding and resistance management strategies, epidemiology and disease management. This book is a must for plant pathologists and breeders working on rice blast and also to plant pathologists and breeders dealing with fungal diseases in general, because the rice-blast pathosystem is a model in plant pathology.

Wild emmer is the progenitor of most cultivated wheats and thus an important source of wheat improvement. This book draws the results from multidisciplinary studies on the ecological, genetic, genomic, agronomic, and evolutionary aspects of wild emmer, conducted at many labs around the world.It is divided into the following parts: Origin and Evolution of Wheat - Population Genetics of Wild Emmer Wheat at the Protein and DNA Levels - Genetic Resources of Wild Emmer for Wheat Improvement - Genome Organization and Genetic Mapping - Conclusions and Prospects.The authors describe the evolution of wild emmer as a model organism of a selfer in evolutionary biology, and its rich potential genetic resources for wheat improvement.

This book, written by leading grain scientists from Europe and Africa, examines six such grains that have been important food crops in various parts of the world and have the potential for much greater and more widespread use. The chemistry, nutritional value, food processing technologies and potential applications of three true cereals: sorghum, spelt wheat and the major millet species, and three dicotyledonous pseudocereals: grain amaranth, buckwheat and quinoa are discussed. Just three cereal grains account for more than 75% of all grains produced worldwide. This causes high risks for the future of humankind via catastrophic food crop failures and is detrimental to our long-term health. In addition, the intensive cultivation practices needed to produce the required high yields of these cereals is frequently leading to environmental degradation, and they are often inappropriate in the Developing World.

Genome Mapping and Molecular Breeding in Plants presents the current status of the elucidation and improvement of plant genomes of economic interest. The focus is on genetic and physical mapping, positioning, cloning, monitoring of desirable genes by molecular breeding and the most recent advances in genomics. The series comprises seven volumes: Cereals and Millets; Oilseeds; Pulses, Sugar and Tuber Crops; Fruits and Nuts; Vegetables; Technical Crops; and Forest Trees.

Cereals and Millets form the leading group of field crops, providing staple food for most of the earth s population. This volume, with contributions by 27 eminent scientists, includes chapters on rice, wheat, maize, barley, oats, rye, sorghum, pearl millet, foxtail millet and finger millet. The emphasis is on advanced research on the major crops, including the model plants maize and rice, as well as on future road maps of genomic research for the less-often considered but equally deserving cereals and millets. "

For the researchers of rice blast disease and plant blast resistances, IRBC is an important chance to exchange information and discussion on rice blast, which has been a rather minor topic on international plant pathological meetings. Especially for those in Asia, where the blast is one the most important agricultural concerns, IRBC was a unique opportunity to discuss on rice blast with scientists in the West, in where it is achieving the positions of a model pathogen and a model system to study plant microbe interactions. However, I and probably many of Japanese blast researchers have felt an accumulated frustration that, in world plant pathological conferences, the information presented from Asia is only a small fraction although they have much more information that may be valuable for world plant pathologists and resistance researchers. I have noticed also some concept gaps between the researchers in East and West, particularly in the field resistance and the multiline system. There seems to be few who study field resistance and multilines in the West, while in Japan they are expected to become mainstream strategies to suppress the disease. Surely there is a great value in rd having 3 IRBC in Japan for cultivating wider communication between the scientists of the East and West.

Wheat - An Exceptional Crop: Botanical Features, Chemistry, Utilization, Nutritional and Health Aspects presents the exceptional position of wheat among food crops. The book demonstrates the benefits and drawbacks of wheat from a wheat science, nutrition and technology perspective. Organized into 13 chapters, chapters 1 - 3 present a basic overview of wheat; chapters 4 - 6 explore the overall benefits of wheat for the general population, and chapters 7 - 13 assess wheat-related disorders that affect a small portion of the population. Wheat - An Exceptional Crop: Botanical Features, Chemistry, Utilization, Nutritional and Health Aspects is an exceptional reference for those working in and researching the fields of agronomy, food chemistry, food technology, nutrition, allergology and gastroenterology.

The book contains the proceedings of the Fifth International Wheat Conference at which leading international scientists reviewed current research issues and developments in wheat improvement. The debated topics cover breeding and genetics, genetic resources and importance of free germplasm exchange, breeding for biotic and abiotic stresses, physiology, agronomy and mineral nutrition, grain quality and biotechnology. A significant number of presentations were made by participants from the former USSR and Eastern and Central Europe, making this book also a prime reference for current wheat research and production status in these countries. This book provides an opportunity for wheat scientists interested in global wheat improvement issues to obtain an insight into the research that is currently being conducted worldwide and the prospects of further improvement to meet the increasing demands for this food commodity.