With more consumers moving away from traditional cereal-based foods due to concerns about health impacts, including wheat intolerance, the sector must develop next-generation nutritionally-enhanced cereal products to maximise market potential. Improving the nutritional and nutraceutical properties of wheat and other cereals reviews key research into the nutritional components of cereals and their role in preventing chronic diseases, such as type 2 diabetes and cancer. Initial chapters cover our understanding of the nutritional value of starch, antioxidants and lipids in wheat. The book also details the interactions of these components with the gut and whether the way they are processed can inhibit or optimise benefits to overall human health. Final chapters review the key steps in nutritional enhancement of cereals such as wheat, spelt and millet. Edited by Professor Trust Beta, University of Manitoba, Canada, Improving the nutritional and nutraceutical properties of wheat and other cereals will be an excellent reference framework for academic researchers in cereal science, arable farmers, manufacturers/suppliers of cereal nutrition products, as well as government and private sector agencies supporting cereal production.

This specially curated collection features four reviews of current and key research on fusarium in cereal crops. The first chapter describes how progress can be built over current agricultural practices in integrated pest management plans. It also addresses the disease cycle of Fusarium head blight, host-pathogen interactions, genetic resistance, the role of mycotoxins, as well as the impact of the disease on yields and loss of crop quality. The second chapter reviews current research on the main fungal diseases affecting barley, as well as what we know about the mechanisms of barley genetic resistance to fungal pathogens. It features detailed discussions on biotrophic foliar diseases such as stem rust and powdery mildew and necrotrophic diseases such as spot blotch and Fusarium head blight. The third chapter reviews control measures for Fusarium head blight, wheat blast and powdery mildew, including the development of resistant cultivars. The final chapter considers the current status of global wheat production, the impact of crop loss on food security and the emergence of the current regulatory environment surrounding pesticides. It also features discussions on the current status of the global fungicide market.

Rice is the major staple food in Asia, and food security means rice security for most Asians. By the year 2025, we need to produce about 60% more rice than we do today to meet the growing demand. Efficient use of inputs is vital to safely produce the additional food from limited resources with minimal impact on the environment. This book reviews emerging knowledge-intensive technologies and decision aids for improved nutrient management in rice, technology adoption constraints at the farm level, and innovative approaches for field evaluation and promotion of new technologies to farmers. It is highly useful to rice scientists and development workers, students of agronomy, soil science, and plant nutrition, and crop consultants and extension workers in rice all over the world.

Barley: Properties, Functionality and Applications provides a systematic introduction and a comprehensive examination of barley science. Recent research has raised the importance of barley finding that barley is a rich source of phenolic compounds, dietary fiber, vitamins, and minerals. Studying the properties of barley provides a basis for better utilizing it, in addition to further development of barley as a sustainable crop. This book will explore knowledge about barley production, grain structure, chemistry and nutritional aspects, primary processing technologies, product formulations and the future prospects of barley. The book also discusses how the limitations of using barley in food products may be overcome by processing of barley grains. Thermal and food preparation methods applied to cereals improves their texture, palatability and nutritive value by gelatinization of starch, denaturation of proteins, increased nutrient availability, inactivation of heat labile toxic compounds and other enzyme inhibitors Key Features: Contains information on the physical, functional and antioxidant properties in barley flour Deals with the latest development in physical, chemical and enzymatic modification of native barley starch Explores the utilization of malt and malt products in brewing and additionally in distilling, vinegar production and commercially as a food ingredients Provides information in enhancing shelf life and its utilization in phytochemical rich product development. With comprehensive knowledge on nutritional and non-nutritional aspects of barley, this book provides the latest information for grain science professionals and food technologists alike. It will be a useful supplementary text for classes teaching cereal technology, cereal science, cereal chemistry, food science, food chemistry, and nutritional properties of cereals.

Barley: Properties, Functionality and Applications provides a systematic introduction and a comprehensive examination of barley science. Recent research has raised the importance of barley finding that barley is a rich source of phenolic compounds, dietary fiber, vitamins, and minerals. Studying the properties of barley provides a basis for better utilizing it, in addition to further development of barley as a sustainable crop. This book will explore knowledge about barley production, grain structure, chemistry and nutritional aspects, primary processing technologies, product formulations and the future prospects of barley. The book also discusses how the limitations of using barley in food products may be overcome by processing of barley grains. Thermal and food preparation methods applied to cereals improves their texture, palatability and nutritive value by gelatinization of starch, denaturation of proteins, increased nutrient availability, inactivation of heat labile toxic compounds and other enzyme inhibitors Key Features: Contains information on the physical, functional and antioxidant properties in barley flour Deals with the latest development in physical, chemical and enzymatic modification of native barley starch Explores the utilization of malt and malt products in brewing and additionally in distilling, vinegar production and commercially as a food ingredients Provides information in enhancing shelf life and its utilization in phytochemical rich product development. With comprehensive knowledge on nutritional and non-nutritional aspects of barley, this book provides the latest information for grain science professionals and food technologists alike. It will be a useful supplementary text for classes teaching cereal technology, cereal science, cereal chemistry, food science, food chemistry, and nutritional properties of cereals.

Wheat Blast provides systematic and practical information on wheat blast pathology, summarises research progress and discusses future perspectives based on current understanding of the existing issues. The book explores advance technologies that may help in deciding the path for future research and development for better strategies and techniques to manage the wheat blast disease. It equips readers with basic and applied understanding on the identification of disease, its distribution and chances of further spread in new areas, its potential to cause yield losses to wheat, the conditions that favour disease development, disease prediction modelling, resistance breeding methods and management strategies against wheat blast. Features: Provides comprehensive information on wheat blast pathogen and its management under a single umbrella Covers disease identification and diagnostics which will be helpful to check introduction in new areas Discusses methods and protocol to study the different aspects of the disease such as diagnostics, variability, resistance screening, epiphytotic creation etc. Gives deep insight on the past, present and future outlook of wheat blast research progress This book's chapters are contributed by experts and pioneers in their respective fields and it provides comprehensive insight with updated findings on wheat blast research. It serves as a valuable reference for researchers, policy makers, students, teachers, farmers, seed growers, traders, and other stakeholders dealing with wheat.

Climate change is expected to have a drastic impact on agronomic conditions including temperature, precipitation, soil nutrients, and the incidence of disease pests, to name a few. To face this looming threat, significant progress in developing new breeding strategies has been made over the last few decades.

The first volume of "Genomics and Breeding for Climate-Resilient Crops" presents the basic concepts and strategies for developing climate-resilient crop varieties. Topics covered include: conservation, evaluation and utilization of biodiversity; identification of traits, genes and crops of the future; genomic and molecular tools; genetic engineering; participatory and evolutionary breeding; bioinformatics tools to support breeding; funding and networking support; and intellectual property, regulatory issues, social and political dimensions.

This book provides a comprehensive review of advances in breeding techniques for cereals such as wheat, barley maize and rye. Part 1 discusses ways of better exploiting genetic diversity through techniques such as trait introgression. Parts 2-3 then summarise developments in the use of doubled haploids and hybrid breeding methods. Parts 4-5 review advances in high throughput phenotyping and its use in identifying markers for breeding using techniques such as genome-wide association studies and nested association mapping.

Diseases remain a serious problem in wheat and barley cultivation. It has been estimated that around 20% of global crop production is lost to diseases. Leading fungal diseases affecting wheat and barley include rusts, Septoria blotches, powdery mildew, tan spot, spot blotch, net blotch, scald and Fusarium species. Conventional control using fungicides faces a number of challenges such as increasing regulation and the spread of fungicide resistance. This collection sums up the wealth of research addressing this challenge. Part 1 reviews the latest research on understanding the main fungal diseases of cereals. Part 2 discusses key challenges in integrated disease management of wheat and barley. These challenges include developing new fungicides, the problem of fungicide resistance, breeding disease-resistance varieties, improving disease identification and the use of natural antifungal compounds. With its distinguished editor and international team of expert authors, this will be a standard reference for cereal scientists in universities, government and other research centres and companies involved in wheat cultivation.

Kent's Technology of Cereals: An Introduction for Students of Food Science and Agriculture, Fifth Edition, is a classic and well-established book that continues to provide students, researchers and practitioners with an authoritative and comprehensive study of cereal technology. This new edition has been thoroughly updated with new sections, including extrusion cooking and the use of cereals for animal feed. In addition, it offers information on statistics, new products, the impact of climate changes and genetics, new economic trends, nutrition regulations and new technologies. The book is useful for students, researchers, and industrial practitioners alike, covering the full spectrum of cereal grain production, processing, and use for foods, feeds, fuels, industrial materials, and other uses.

Grain legumes are characterised by their nutritional value, an ability to grow rapidly and improve soil health. This makes them a key rotation crop in promoting food security. However, yields are constrained by factors such as pests and diseases as well as vulnerability to poor soils, drought and other effects of climate change. This collection reviews the wealth of research addressing these challenges. Volume 2 assesses key research on particular types of grain legume with chapters on developing improved varieties as well as improvements in cultivation techniques. The book covers common beans, lentils, soybeans, groundnuts, cowpea, faba beans and pigeonpea. With its distinguished editorial team and international range of expert authors, this will be a standard reference for the grain legume research community and farmers of these important crops. It is accompanied by a companion volume which reviews general advances in breeding and cultivation techniques.

The third most important cereal crop after wheat and corn, rice is a staple food for more than half of the world's population. This includes regions of high population density and rapid growth, indicating that rice will continue to be a major food crop in the next century. Mineral Nutrition of Rice brings together a wealth of information on the ecophysiology and nutrient requirements of rice. Compiling the latest scientific research, the book explains how to manage essential nutrients to maximize rice yield. The book examines 15 essential or beneficial nutrients used in irrigated, upland, and floating rice across a range of geographic regions. For each mineral, the text details the cycle in the soil-plant system as well as the mineral's functions, deficiency symptoms, uptake in plants, harvest index, and use efficiency. It then outlines management practices, covering application methods and timing, adequate rates, the use of efficient genotypes, and more. The author, an internationally recognized expert in mineral nutrition for crop plants, also proposes recommendations for the judicious use of fertilizers to reduce the cost of crop production and the risk of environmental pollution. Color photographs help readers identify nutrient deficiency symptoms and take the necessary corrective measures. Packed with useful tables and illustrations, this comprehensive reference guides readers who want to know how to increase rice yield, reduce production costs, and avoid environmental pollution from fertilizers. It offers practical information for those working in agricultural research fields, in laboratories, and in classrooms around the world.

The green revolution in India about 50 years ago transformed India's image then as begging bowl to bread basket. This transformation during the 1960s took just about 4 years. The yield increases achieved in wheat and then in rice which occurred in just about half decade is far in excess of the yield increases during the preceding 4000 years. This remarkable feat was achieved with the leadership of the author using the dwarf wheat types which had been produced by Norman Borlaug in Mexico.The research and development of green revolution of wheat and rice at the Indian Agricultural Research Institute, New Delhi was led by the author along with his team of students and co-workers. He has published over 100 papers on green revolution and the ever-green revolution which is a refinement of the former. This book is a compilation of just about 40 of his numerous research papers, monographs and books published by him on this subject.The papers in this book bring out the scientific basis of the modification of the plant type so as to be responsive to exogenous addition of chemical fertilizers and irrigation. The ideal plant type enables capture of adequate sunlight and using the chemical fertilizers added to the soil, produce substantial photosynthetic starch. And because the plants have short and thick culm, they are able to withstand enormous amounts of grains in their ears. This indeed was the basis of breaking the yield barriers associated with native varieties. The book also brings out that green revolution had established the food security at the national level but not at the individual household levels of millions of resource-poor rural small and marginal farming, fishing and landless families. Further green revolution was commodity-centric and the manner of its practice led to environmental degradation and social inequities. This author realized as early as 1972 that system of agriculture in India should be designed to fight both the famines of food and rural livelihoods. In pursuit of it, this author further designed an evergreen revolution with systems approach. What this means is providing concurrent attention to ecological foundations of agriculture and the livelihoods of the rural people.The book also brings out that green revolution was a team effort involving scientists, policy makers, administrators, farmers and students.This book is an outstanding example of green revolution providing a breathing space by putting the cereal grain production rate ahead of the population growth rate and then when food security has been adequately established, the system is changed to achieve productivity in perpetuity without causing environmental and social harm.

Rice is one of the most important foods in the world. As the demand for rice continues to increase, there is an urgent need to increase yields in the face of such challenges as climate change, threats from pests and diseases and the need to make cultivation more resource-efficient and sustainable. Drawing on an international range of expertise, this collection focuses on ways of improving the cultivation of rice at each step in the value chain, from breeding to post-harvest storage. Volume 2 reviews research in improving cultivation in such areas as irrigation and nutrition as well as developments in disease and pest management. Achieving sustainable cultivation of rice Volume 2: Cultivation, pest and disease management will be a standard reference for rice scientists in universities, government and other research centres and companies involved in rice cultivation. It is accompanied by Volume 1 which reviews research in breeding, nutritional and other aspects of rice quality.

"These books present a comprehensive coverage of issues facing wheat production globally. The authors represent the top scientists involved in the diverse areas that are important for sustainable wheat production and will this book provides an excellent resource for those interested in wheat improvement and production." Dr Hans-Joachim Braun, Director Global Wheat Program and CRP Wheat, International Maize and Wheat Improvement Center (CIMMYT), Mexico Wheat is the most widely cultivated cereal in the world and a staple food for around 3 billion people. It has been estimated that demand for wheat could increase by up to 60% by 2050. There is an urgent need to increase yields in the face of such challenges as climate change, threats from pests and diseases and the need to make cultivation more resource-efficient and sustainable. Drawing on an international range of expertise, this collection focuses on ways of improving the cultivation of wheat at each step in the value chain, from breeding to post-harvest storage. Volume 1 reviews research in wheat breeding and quality traits as well as diseases and pests and their management. Chapters in Part 1 review advances in understanding of wheat physiology and genetics and how this has informed developments in breeding, including developing varieties with desirable traits such as drought tolerance. Part 2 discusses aspects of nutritional and processing quality. Chapters in Part 3 cover research on key wheat diseases and their control as well as the management of insect pests and weeds. Achieving sustainable cultivation of wheat Volume 1: Breeding, quality traits, pests and diseases will be a standard reference for cereal scientists in universities, government and other research centres and companies involved in wheat cultivation. It is accompanied by Volume 2 which reviews improvements in cultivation techniques.

"These books present a comprehensive coverage of issues facing wheat production globally. The authors represent the top scientists involved in the diverse areas that are important for sustainable wheat production and will this book provides an excellent resource for those interested in wheat improvement and production." Dr Hans-Joachim Braun, Director Global Wheat Program and CRP Wheat, International Maize and Wheat Improvement Center (CIMMYT), Mexico Wheat is the most widely cultivated cereal in the world and a staple food for around 3 billion people. It has been estimated that demand for wheat could increase by up to 60% by 2050. There is an urgent need to increase yields in the face of such challenges as climate change, threats from pests and diseases and the need to make cultivation more resource-efficient and sustainable. Drawing on an international range of expertise, this collection focuses on ways of improving the cultivation of wheat at each step in the value chain, from breeding to post-harvest storage. Volume 2 reviews research in improving cultivation techniques. Chapters in Part 1 review topics such as variety selection, seed and root growth, water and nutrient management. Part 2 goes on to discuss broader issues such as sustainable intensification and organic cultivation. The final part of the collection covers ways of improving wheat cultivation in the developing world. Achieving sustainable cultivation of wheat Volume 2: Cultivation techniques will be a standard reference for cereal scientists in universities, government and other research centres and companies involved in wheat cultivation. It is accompanied by Volume 1 which reviews breeding, quality traits, pests and diseases.

Rice production is affected by changing climate conditions and has the dual role of contributing to global warming through emissions of the greenhouse gas methane. Climate change has been recognized as a major threat to the global environment. Because of insufficient field data, rice-growing countries face a problem when trying to comply with the United Nations Framework Convention on Climate Change stipulations to compile a national inventory of emissions and to explore mitigation options. Given the expected doubling in rice production in Asia, the need to evaluate the interaction between climate change and rice production is critical to forming a sound basis for future directions of technology developments by policy makers, agriculturists, environmentalists, rice producers, and rice consumers. The present book comprises two sections. The first part documents a comprehensive overview of the results achieved from an interregional research effort to quantify methane emission from major rice ecosystems and to identify efficient mitigation options. This research report broadens understanding of the contribution of rice cultivation to methane emissions and clarifies that emissions are relatively low, except in specific rice ecosystems, and that these high emissions could be ameliorated without sacrificing yield. The second section shows results from other projects that investigated the role of rice cultivators in field and laboratory approaches. The findings represent inputs for future modeling approaches in the role of rice cultivators. The expanded database generated by other projects is reflected in modeling efforts.

Rice is one of the most important foods in the world. As the demand for rice continues to increase, there is an urgent need to increase yields in the face of such challenges as climate change, threats from pests and diseases and the need to make cultivation more resource-efficient and sustainable. Drawing on an international range of expertise, this collection focuses on ways of improving the cultivation of rice at each step in the value chain, from breeding to post-harvest storage. Volume 1 reviews research in physiology and breeding and its application to produce varieties with improved traits such as higher yields. It then goes on to discuss nutritional and other aspects of rice quality and the ways these can be enhanced. Achieving sustainable cultivation of rice Volume 1: Breeding for higher quality and yield will be a standard reference for rice scientists in universities, government and other research centres and companies involved in rice cultivation. It is accompanied by Volume 2 which reviews improvements in cultivation techniques, pest and disease management.

Major Fungal Diseases of Rice: Recent Advances provides a comprehensive overview of latest research in rice fungal pathology. There are 25 chapters dealing with the blast, sheath blight, sheath rot, brown spot and scald diseases of rice as well as some broader topics. The book covers recent progress in a number of key fundamental aspects such as pathogenicity, pathogen diversity, molecular characterisation, gene cloning, genetics of host resistance and host-pathogen interactions. It also presents the current status and perspectives in strategic and applied areas such as epidemiology, resistance breeding, biological control, induced resistance, seed-borne diseases and quarantine issues and disease management strategies. This book is essential for rice researchers, pathologists and breeders and will also be suitable for cereal and plant pathologists in general, as there is an extensive coverage of recent research advances in rice blast, a model system in plant pathology.

The semiarid plains of western Kansas and eastern Colorado are hardly the setting for an agricultural empire, but it was here that former field hand John Kriss managed G-K Farms for Wichita entrepreneur Ray Garvey. Their enterprise became one of the largest wheat operations on the plains and yielded Kriss a one million bushel crop.

"Harvesting the High Plains" is the rags-to-riches story of how Kriss applied hard work and common sense to make large-scale farming work under the most adverse conditions. Drawing on correspondence between Kriss and Garvey, it tells how the two men had to make innumerable decisions about the purchase of expensive machinery and of ever larger tracts of land, and how Kriss kept detailed records of crops and rainfall to manage the land carefully, farming thousands of acres in an environmentally sensitive way and retaining a viable operation even during the Dust Bowl years.

In chronicling the story of Kriss's success, historian Craig Miner provides a bold counterpoint to the argument that large, technology-based farming is inherently bad or that only small farmers can be conscientious stewards of the land. He sets his narrative in the context of local and agricultural history-as well as the Kriss family's own story-in order to document the transition to mechanized, specialized farming on the plains. He addresses philosophical and historical questions about the relation between agriculture and nature in a semiarid region, showing that G-K Farms managed to strike a remarkable balance between profit and ecology. He also suggests that G-K may even have done its region more economic good than small farms simply by staying in business during bad times.

The Kriss family still works the land, and although their operation is huge, it still depends on traditional family farming values and approaches. Harvesting the High Plains provides keen insights into their special approach to large-scale farming and gives a human face to the faceless statistics of other agricultural studies.

During the last nine millennia or so, man has improved the rice plant, increased its productivity and has found various uses of its parts. The story of rice differs from region to region and has been different in different periods of time. There was a time when tax was collected in the form of rice in Japan, the Southeast Asian kingdoms created hydraulic feats for its cultivation and Ottoman armies advanced with rice as their ration. In recent years, there have been riots due to scarcity of rice and also international efforts to produce enough rice to avoid hunger. The book provides an interesting reading of all such events in the course of its 9000 years long history.

This informative book reviews the challenges of agribusiness in the Southeast Mediterranean. The author focuses on sugarcane cultivation in Egypt to illustrate the impact of climate change on agribusiness, and his method and findings may be helpful for other studies in other regions as well. As climate change creates new risks to human populations and food security, a better analysis is needed to understand this new level of uncertainty and to understand how it will impact agriculture and its relationship with economies, livelihoods, and development. Africa emits low greenhouse gases but is hit the hardest by global warming, posing a serious challenge to increasing agricultural productivity in the Southeast Mediterranean. Sugarcane in Egypt is used as a local food source, for international trade, for the balance of payments, for land and water use, and as a basic product for food and fiber manufacturing. Hence every aspect of the economic structure of Egypt relates to agriculture. The book examines the causes and effects of climate change on agribusiness in the Southeast Mediterranean region, such as its effect on prosperity and net farm incomes crop yields. It considers how to promote agribusiness development in the area and the potential to alleviate poverty in rural areas. It looks at the future of the sugarcane industry in Upper Egypt as a case study of agribusiness, with implications that can be applied globally.

This book addresses aspects of rice production in rice-growing areas of the world including origin, history, role in global food security, cropping systems, management practices, production systems, cultivars, as well as fertilizer and pest management. As one of the three most important grain crops that helps to fulfill food needs all across the globe, rice plays a key role in the current and future food security of the world. Currently, no book covers all aspects of rice production in the rice-growing areas of world. This book fills that gap by highlighting the diverse production and management practices as well as the various rice genotypes in the salient, rice-producing areas in Asia, Europe, Africa, the Americas, and Australia. Further, this text highlights harvesting, threshing, processing, yields and rice products and future research needs. Supplemented with illustrations and tables, this text is essential for students taking courses in agronomy and production systems as well as for agricultural advisers, county agents, extension specialists, and professionals throughout the industry.

Rice is cultivated throughout the world under submerged conditions. The high water requirements and the heavy pesticide load used in rice paddies worldwide have resulted in contamination of associated surface water, such as streams, ditches, rivers and lakes. The uniform risk assessment approach which has been developed for other crops is not applicable to rice paddies, because of the specific conditions applied to rice cultivation.
Pesticide Risk Assessment in Rice Paddies: Theory and Practice fills the gap in information on this subject. Written by experts, this book summarizes the methods used for pesticide risk assessment in rice paddies, the limitations and problems encountered and future developments. It also examines the various agronomic, pesticide application and risk assessment approaches used in different rice cultivated zones in Asia, America and Europe and is an essential reference for those working in this area.
* The only up-to-date book dealing with pesticide risk assessment in the flooded conditions of rice paddies
* Offers guidelines on the use and application of existing modeling tools, specific for rice cultivation
* Presents the differences and similarities in rice cropping systems and how these relate to pesticide risk assessment

Due to political pressures, prior to the 1990s little was known about the nature of human foraging adaptations in the deserts, grasslands, and mountains of north western China during the last glacial period. Even less was known about the transition to agriculture that followed. Now open to foreign visitation, there is now an increasing understanding of the foraging strategies which led both to the development of millet agriculture and to the utilization of the extreme environments of the Tibetan Plateau. This text explores the transition from the foraging societies of the Late Paleolithic to the emergence of settled farming societies and the emergent pastoralism of the middle Neolithic striving to help answer the diverse and numerous questions of this critical transitional period.
* Examines the transition from foraging societies of the Late Paleolithic to the emergence of settled farming societies and the emergent pastoralism of the middle Neolithic
* Explores explanatory models for the links between climate change and cultural change that may have influenced the development of millet agriculture
* Reviews the relationship between climate change and population expansions and contraditions during the late Quaternary