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Drought, arguably the greatest threat to food production worldwide, was the focal point of a high-level, weeklong workshop supported by The Rockefeller Foundation and CIMMYT, held in May 2004 in Cuernavaca, Mexico.
This volume will be the only existing single-authored book offering a science-based breeder’s manual directed at breeding for water-limited environments. Plant breeding is characterized by the need to integrate information from diverse disciplines towards the development and delivery of a product defines as a new cultivar. Conventional breeding draws information from disciplines such as genetics, plant physiology, plant pathology, entomology, food technology and statistics. Plant breeding for water-limited environments and the development of drought resistant crop cultivars is considered as one of the more difficult areas in plant breeding while at the same time it is becoming a very pressing issue. This volume is unique and timely in that it develops realistic solutions and protocols towards the breeding of drought resistant cultivars by integrating knowledge from environmental science, plant physiology, genetics and molecular biology.
Climate Change and Crop Stress: Molecules to Ecosystems expounds on the transitional period where science has progressed to 'post-genomics' and the gene editing era, putting field performance of crops to the forefront and challenging the production of practical applicability vs. theoretical possibility. Researchers have concentrated efforts on the effects of environmental stress conditions such as drought, heat, salinity, cold, or pathogen infection which can have a devastating impact on plant growth and yield. Designed to deliver information to combat stress both in isolation and through simultaneous crop stresses, this edited compilation provides a comprehensive view on the challenges and impacts of simultaneous stresses. Presents a multidisciplinary view of crop stresses, empowering readers to quickly align their individual experience and perspective with the broader context Combines the mechanistic aspects of stresses with the strategic aspects Presents both abiotic and biotic stresses in a single volume
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 second volume of Genomics and Breeding for Climate-Resilient Crops describes various genomic and breeding approaches for the genetic improvement of the major target traits. Topics covered include: flowering time; root traits; cold, heat and drought tolerance; water use efficiency; flooding and submergence tolerance; disease and insect resistance; nutrient use efficiency; nitrogen fixation; carbon sequestration; and greenhouse gas emissions.
This publication opens with the inevitable introduction, moves on to the present traditional approach to breeding for yield stability, and then enumerates a detailed discussion of the physiological approach to breeding for resistance to specific stresses. Not all environmental stresses are covered, omitting those for which little can be said today on practical breeding solutions.
Developing Climate Resilient Crops; A window for improving global food security and safety project is timely, as the world is gradually waking up to the fact that a global food crisis of enormous proportions is brewing. Climate change is creating immense problems for the agricultural productivity worldwide, resulting in higher food prices. This book elucidates the causative aspects of climate modification related to agriculture, soil and plants, and discusses the relevant resulting mitigation process and also how new tools and resources can be used to develop climate resilient crops . Salient Features: Addresses the limits of the anthropogenic global warming theory advocated by the Intergovernmental Panel on Climate Change. Presents the main characters (drought tolerance, heat tolerance, water use efficiency, disease resistance, nitrogen use efficiency, nitrogen fixation, and carbon sequestration) necessary for climate resilient agriculture. Delivers both theoretical and practical aspects, and serves as base line information for future research. Provides valuable resource for those students engaged in the field of environmental sciences, soil sciences, agricultural microbiology, plant pathology, and agronomy. Highlights factors that are threatening future food production
Concise Oxford Dictionary defines Resilience as recoiling; springing back; resuming its original shape after bending, stretching, compression etc. With five components of crop production –space, water, energy, light, nutrients- limiting, there are stresses on crops to perform at threshold input yielding optimum output. Droughts and floods, cold and heat waves, forest fires, landslides and mud slips, ice storms, dust storms, hailstorms, thunder clouds associated with lightening and sea level rise are throwing new challenges to farming. This dangerously narrow level of food base prompts to widen the base of grains, vegetables, fruits, spices, industrial crops, mushrooms and aromatic plants. The emphasis so far was more on terrestrial plants, forest plants and lesser on lower plants. The aquatic plants-fresh water, brackish water, marine- were not much explored for edible use except by Chinese and Japanese. Halophytes, bryophytes, ferns and sea weeds are so far climate resilient. The Indo-Burmese Centre of origin (Hindustan centre including North East) is abode of several plants of possible vegetable, fruit and spicy value. The New Life styles consequent to migration for employment have brought newer food and dietary patterns. The urbanization and smaller family size are leading to pre-cooked foods and visitation to restaurants. s on bryophytes, halophytes, microalgae, chasmophytes, pseudocereals, medicinal mushrooms, speciality mushrooms, palmyrah palms, bramakamal, tropical tuber crops, dragon fruits, broad dhaniya, plants for dyes, kale and ornamental ginger are authored by eminent working scientists from 21 Universities and Research Institutes in Japan and India. The crops for the future especially climate resilient are to be identified and promoted in an emerging production scenario of new life style foods and convenient speciality foods getting attention by the new generation. The present book Climate Resilient Crops for the Future carries 17 s authored by men of eminence in respective areas concerning to the above areas.
Key features: Describes the effects and responses of the macro and micro levels of crops under the different components of climate change Reports on the adaptation and resilience of food production systems within the changing climate Covers how plants cope with the changing climate including physiological, biochemical, phenotype, and ecosystem responses Provides an in-depth discussion on the importance of agricultural education connected to climate change Presenting an overview of agroecology within the framework of climate change, this book looks at the impact of our changing climate on crop production and agroecosystems, reporting on how plants will cope with these changes, and how we can mitigate these negative impacts to ensure food production for the growing population. It explores the ways that farmers can confront the challenges of climate change, with contributed chapters from around the world demonstrating the different challenges associated with differing climates. Examples are provided of the approaches being taken right now to expand the ecological, physiological, morphological, and productive potential of a range of crop types. Giving readers a greater understanding of the mechanisms of plant resilience to climate change, this book provides new insights into improving the productivity of an individual crop species as well as bringing resistance and resiliency to the entire agroecosystem. It offers a strong foundation for changing research and education programs so that they build the resistance and resilience that will be needed for the uncertain climate future ahead.
Merging topical data from recently published review and research articles, as well as the knowledge and insight of industry experts, Omics Applications in Crop Science delves into plant science, and various technologies that use omics in agriculture. This book concentrates on crop breeding and environmental applications, and examines the applicatio