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This edited book covers all aspects of omics approaches used for the varietal improvement of millets in changing climatic conditions. Millets are the collection of small-grained cereal grasses, that are grown for human carbohydrate needs. They are among the oldest crops, mainly divided into two groups – Major and small millets based on seed size. Small millets are earlier considered orphan crops, but recently due to their nutritional values, they are getting importance in cultivation. This book explores the genomics, transcriptomics, proteomics, metabolomics, bioinformatics, and other omics tools that are being widely used to get a clear understanding of mechanistic approaches taken by plant genes to tolerate stress. Various reports are published based on field breeding on these crops, and recently the genome of some of the small millets is released, and many omics studies are published related to its application in varietal improvements. This book reviewed all those recent studies and is of interest to research students, plant breeding scientists, teachers that are working in agriculture and plant biotech universities. Along with this, the book serves as reference material for undergraduate and graduate students of agriculture, and biotechnology. National and international agricultural scientists, policymakers will also find this to be a useful read.
Millets are popularly known as “nutri-cereals” due to their high calcium, dietary fiber, polyphenol, vitamins, and protein content. Millet crops have the potential to aid in food security efforts in regions where natural and manmade causes are deteriorating land resources. Nutriomics of Millet Crops emphasizes the importance of nutriomics of millet crops in the context of universal health, highlighting biotechnological advancements offering enrichment of the nutritional value of millets. Millet crops have the potential to be a staple crop, demonstrating an economically feasible approach to combat micronutrient malnutrition. Features: Presents comprehensive studies on health-promoting nutritional components of millets. Provides enumeration on molecular breeding strategies for improvement of millet nutraceuticals. Discusses genomics-assisted breeding for enhancement of nutritional quality in millets. Includes information related to sensory and biofortification of millet-based foods. By assessing the relevance of millets in sustainable global agro-ecosystems due to their nutritional and agronomic attributes, the United Nations celebrated 2023 as the “International Year of Millets.” This book complements this effort and is useful to researchers and policy planners working across the disciplines of plant breeding and food technology. Nutriomics of Millet Crops also encourages young researchers to explore this promising field.
This edited volume is the first book that explicitly explains the link between the extraordinarily small-scale microbial processes and the growth and yield attributes of millet crops. This book includes chapters emphasizing on the effects of rhizosphere biology on long-term millet crop management. Millets are a collection of small-grained cereal grasses that are grown for human carbohydrate needs. They are among the oldest crops, mainly divided into two groups: major and small millets based on seed size. Major millets are composed of sorghum (Sorghum bicolor) and pearl millet (Pennisetum glaucum); while small millets are composed of six species that includes finger millet (Eleusine coracana (L.)), little millet (Panicum sumatrense), kodo millet (Paspalum scrobiculatum (L.)), foxtail millet (Setaria italica (L.)), barnyard millet (Echinochloa frumentacea (L.)), and proso millet (Panicum miliaceum (L.). These crops are earlier considered as orphan crops, but recently due to their nutritional values it is gaining the importance. Various reports are published based on role of rhizosphere on growth and health of these crops. The rhizosphere being a dynamic interface among the plant roots and soil microbes provides a number of advantages to the millets too. The soil properties in rhizospheric region are also different as compared to the bulk soil. This book discovers the functional attributes of rhizosphere in promoting the healthy growth of millet crop and achieving higher yield during the changing climatic condition. This book is of interest to university teachers, scientists working in the millets, and policymakers in agricultural departments. Also, the book serves as additional reading material for undergraduate and graduate students of agriculture, biotechnology, microbiology, genetics, and soil science.
This book aims to contribute to the discourse on climate crisis by bringing together high-quality empirical research on adaptive approaches and sustainability case studies from across the world. The book is divided into six sections. The introductory section has two chapters which sets the ground of the book as it discusses the framing of climate crisis and the different approaches towards it. It also situates the book within the global discourse. The first chapter seeks the traditional approaches to bridge the gap in the new climate science, while the second chapter delivers the ultimate reasons for temperature change, global warming and its consequences (extreme weather events) in a comprehensive way. It is hoped that the book as a whole will provide a timely synthesis of a rapidly growing and important field of climate science but will also bring forward new and stimulating ideas that will shape a coherent and fruitful vision for future work for the community of Undergraduates, Postgraduates, Ph.D. Scholars and Researchers in the fields of environmental sciences, humanistic and social sciences and geography. In addition, policy and decision makers, environmentalists, NGOs, corporate sectors, social scientists, and government organizations will find this book to be of great value. We believe that a diverse group of academics, scientists, geographers, environmentalists, environmental regulators, social scientists, and sustainable scientists with a common interest within the earth environmental sciences and humanistic and social sciences will find this book to be a comprehensive source for reference. Also, we strongly deemed that it will also provide some support for various levels of organizations and administrations for developing and achieving UN Sustainable Development Goals by 2030 in purview of climate change.
There have been several advancements made in high-throughput protein technologies creating immense possibilities for studying proteomics on a large scale. Researchers are exploring various proteomic techniques to unravel the mystery of plant stress tolerance mechanisms. Plant Proteomics: Implications in Growth, Quality Improvement, and Stress Resilience introduces readers to techniques and methodologies of proteomics and explains different physiological phenomena in plants and their responses to various environmental cues and defense mechanisms against pathogens. The main emphasis is on research involving applications of proteomics to understand different aspects of the life cycle of plant species including dormancy, flowering, photosynthetic efficiency, nitrogen assimilation, accumulation of nutritional parameters, secondary metabolite production, reproduction and grain yield as well as signalling responses during abiotic and biotic stresses. The book takes a unique approach, encompassing high throughput and sophisticated proteomic techniques while integrating proteomics with other “omics.” Features: Integrates the branch of proteomics with other “omics” approaches including genomics and metabolomics, giving a holistic view of the overall “omics” approaches. Covers various proteomics approaches for the identification of biological processes, future perspectives, and upcoming applications to identify diverse genes in plants. Presents readers with various proteomics tools for the improvement of plant growth, quality, and resilience against climate change, and pathogen infection. Enables researchers in identifying novel proteins that could be used as target to generate plants with improved traits. Prof. Aryadeep Roychoudhury is currently working as Professor in the Discipline of Life Sciences, Indira Gandhi National Open University, New Delhi, India. Earlier, he served as Assistant Professor at the Post Graduate Department of Biotechnology, St. Xavier’s College (Autonomous), Kolkata, West Bengal, India. He received his B.Sc. (Hons.) in Botany from Presidency College, Kolkata, and M.Sc. in Biophysics and Molecular Biology, University of Calcutta, West Bengal, India. He earned his Ph.D. from Jadavpur University, Kolkata in the area of stress biology in plants. Following his Ph.D. work, he joined as Research Associate (Post doctorate) at the University of Calcutta, pursuing translational research on transgenic rice. He is presently involved in active research in the field of abiotic stress responses in plants with perspectives to the physiology, molecular biology and cell signaling under diverse stress conditions. He has 23 years of research experience in the concerned discipline. Prof. Roychoudhury has handled several government-funded projects as principal investigator and supervised five Ph.D. students as principal investigator. He has published over 250 articles in peer-reviewed journals and chapters in books of international and national repute. He has edited many books with Wiley, Elsevier, and Springer, and has also handled Special Issues as Guest Editor for several renowned international journals. He is a regular reviewer of articles in high-impact, international journals, Life Member of different scientific associations and societies, and the recipient of the Young Scientist Award 2019, conferred upon him by International Foundation for Environment and Ecology, at University of Allahabad, Prayagraj, Uttar Pradesh. His name is included in the Stanford University’s List of World’s Top 2% Influential Scientists.
Increasing human population pressure, especially in developing countries, indicates a massive increase in the consumption of livestock products. Fodder crops are the primary and cheapest source of feed for livestock, but feed shortages or poor-quality fodder are particular constraints to the world's livestock sector. These shortages affect milk production, adult and calf health, calving rates, and livestock numbers. Summer crops including cereal, legume, grass, and tree fodder, provide an economical source of nutrients suitable for animal health as well as improve their breeding efficiency. Sustainable Summer Fodder: Production, Challenges, and Prospects presents the unique opportunities and difficulties of supportable cultivation and growth of summer fodder crops and the various methods for enabling crop preservation. It details conventional modern approaches to sustainable production and advanced molecular approaches to develop high-yielding fodder crops. FEATURES * Contains information on cultivation, growth, productivity, and protection from pests and diseases of various summer fodder crops * Presents approaches to sustainable production, summarizes fodder preservation methods; and details molecular approaches to develop high-yielding fodder crops * Provides insights into agronomic aspects of cereal, legume, grass, and tree species cultivated as summer fodder worldwide * Discusses the trends in insect pests and diseases, their field identification, and various control methods This book is an essential resource for agronomists, horticulturalists, livestock farmers and practitioners, and students working in the field.