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Wheat Science
Globally, significant work has been done to enhance our current understanding of the nutritional and anti-nutritional properties, processing, storage, bioactivity, and product development of wheat, opening new frontiers for further improvement. Wheat Science: Nutritional and Anti-Nutritional Properties, Processing, Storage, Bioactivity, and Product Development addresses the topics associated with the advances in understanding the wheat biochemical, nutritional, and rheological quality. Improving crop varieties by either conventional breeding or transgenic methods to obtain nutritionally enhanced crops has the advantage of making a one-time investment in research and development to have susta...
The Globalization of Wheat
In The Globalization of Wheat, Marci R. Baranski explores Norman Borlaug’s complicated legacy as godfather of the Green Revolution. Winner of the Nobel Peace Prize in 1970 for his role in fighting global hunger, Borlaug, an American agricultural scientist and plant breeder who worked for the Rockefeller Foundation, left a legacy that divides opinions even today. His high-yielding dwarf wheat varieties, known as miracle seeds, effectively doubled and tripled crop yields across the globe, from Kenya to India and Argentina to Mexico due to their wide adaptation. But these modern seeds also required expensive chemical fertilizers and irrigation, both of which were only available to wealthier f...
Fundamentals of Field Crop Breeding
This book is an advanced textbook and a reference book for the post-graduate plant-breeding students and the plant breeders. It consolidates fundamental concepts and also the latest advances in plant-breeding practices including development in crop genomics. It contains crop wise explanation on origin, reproduction, genetics of yield contributing traits, biotic and abiotic stresses, nutritional improvement and crop specific plant-breeding procedures and techniques. The chapters are planned to describe crop-focused breeding procedure for the major crop plants as per their economic importance. The recent developments in breeding of field crops have been reported. The recent progress made in mapping traits of economic importance has been critically reviewed for each crop. The progress made in markers assisted selected in few crops has been summarized. This book bridges the knowledge gap and bring to the researchers and students information on modern breeding tools for developing biotic and abiotic stress tolerant, climate resilient and micronutrient rich varieties of field crops. The chapters in book are contributed by experienced Plant Breeders.
Heat Stress In Food Grain Crops: Plant Breeding and Omics Research
Heat Stress In Food Grain Crops: Plant Breeding and Omics Research is a timely compilation of advanced research on heat stress affecting crop yield, plant growth & development of common food grain and cereal crops. Chapters in the book cover several aspects of crop science including the identification of potential gene donors for heat tolerance, physiological mechanisms of adaptation to heat stress, the use of conventional and modern tools of breeding for imparting tolerance against terminal temperature stress and precise mapping of heat tolerant QTLs through biparental and genome wide association mapping. The use of genomics and phenomics methods is focused on through chapters dedicated to important crops such as groundnut, pearl millet, maize, chickpea, mungbean and wheat. Authors of the respective chapters explain the importance of harnessing a diverse crop genepool for sustaining crop production under conditions of increasing heat stress. Readers will be able to understand the relevance of functional genomics in elucidating candidate genes and their regulatory functions contributing to heat tolerance
Wheat Disease Resistance: Diagnosis, Germplasm Mining, and Molecular Breeding
As one of the primary staple crops, wheat feeds around 35% of the world’s population, playing a crucial role in ensuring global food security. Wheat production faces numerous threats, among which pests and diseases cause an estimated 10%-16% loss of global wheat yield. Fortunately, some wheat and its related species carry genes that allow for resistance to one or more diseases during the growing period. How to identify, locate and clone these resistance genes is one of the important keys to rapid and effective wheat breeding for disease-resistant varieties. The utilization of excellent germplasm resources and the cultivation of new varieties cannot be separated from the development of key technologies. Recent innovations in genomic tools have made it possible to edit the susceptible genes in crops, opening up new opportunities in molecular breeding for disease-resistant varieties. Meanwhile, further development of crop variety identification and screening systems to achieve disease-resistant variety isolation and evaluation in a high-precision, high-sensitivity, and high-throughput manner can provide effective technical support for accelerating disease-resistant wheat breeding.
Omics Technologies for Sustainable Agriculture and Global Food Security (Vol II)
This edited book brings out a comprehensive collection of information on the modern omics-based research. The main focus of this book is to educate researchers about utility of omics-based technologies in rapid crop improvement. In last two decades, omics technologies have been utilized significantly in the area of plant sciences and has shown promising results. Omics technology has potential to address the challenge of food security in the near future. The comprehensive use of omics technology occurred in last two decades and helped greatly in the understanding of complex biological problems, improve crop productivity and ensure sustainable use of ecosystem services. This book is of interest to researchers and students of life sciences, biotechnology, plant biotechnology, agriculture, forestry, and environmental sciences. It is also a useful knowledge resource for national and international agricultural scientists.
