Approaches for Potato Crop Improvement and Stress Management


Book Description

This edited book provides an all-inclusive coverage of latest research in crop improvement and stress management in potato crop. It is composed of 17 chapters covering breeding, diseases & pest management with the view to enhancing the total production and quality under the scenario of climate change. The book also explores harvesting, storage, post-harvest management, and processing of potato. The book has special focus on the use of high throughput next generation sequencing (NGS) techniques, modern genomics tools, genome editing techniques such as CRISPR systems that could help the potato breeding programs and, also in development of biotic and abiotic stress resistant varieties. Potato is the world’s third most important food crop after wheat and rice in terms of human consumption. It is the staple crop providing maximum nutrients per unit area, time and money and is the most versatile crop with the highest industrial production potential in India being the second largest potato producing country after China. As a major food crop, the potato has the most important role to play in the United Nations’ Sustainable Development Goals’ 2030 Agenda for zero hunger, achieving food security, improved nutrition, and promote sustainable agriculture. This book is unique in its approach for providing in depth knowledge enabling readers to learn the subject fully on different strategies, new perspectives and fully understanding different topics of diversity, interaction and improvement for stress management in potato. It is a relevant reading material for researchers, students, practitioners and other stakeholders involved in improvement of potato crop.







The Potato Crop


Book Description

This book is open access under a CC BY 4.0 license. This book provides a fresh, updated and science-based perspective on the current status and prospects of the diverse array of topics related to the potato, and was written by distinguished scientists with hands-on global experience in research aspects related to potato. The potato is the third most important global food crop in terms of consumption. Being the only vegetatively propagated species among the world’s main five staple crops creates both issues and opportunities for the potato: on the one hand, this constrains the speed of its geographic expansion and its options for international commercialization and distribution when compared with commodity crops such as maize, wheat or rice. On the other, it provides an effective insulation against speculation and unforeseen spikes in commodity prices, since the potato does not represent a good traded on global markets. These two factors highlight the underappreciated and underrated role of the potato as a dependable nutrition security crop, one that can mitigate turmoil in world food supply and demand and political instability in some developing countries. Increasingly, the global role of the potato has expanded from a profitable crop in developing countries to a crop providing income and nutrition security in developing ones. This book will appeal to academics and students of crop sciences, but also policy makers and other stakeholders involved in the potato and its contribution to humankind’s food security.




The Potato Genome


Book Description

This book describes the historical importance of potato (Solanum tuberosum L.),potato genetic resources and stocks (including S. tuberosum group Phureja DM1-3 516 R44, a unique doubled monoploid homozygous line) used for potato genome sequencing. It also discusses strategies and tools for high-throughput sequencing, sequence assembly, annotation, analysis, repetitive sequences and genotyping-by-sequencing approaches. Potato (Solanum tuberosum L.; 2n = 4x = 48) is the fourth most important food crop of the world after rice, wheat and maize and holds great potential to ensure both food and nutritional security. It is an autotetraploid crop with complex genetics, acute inbreeding depression and a highly heterozygous nature. Further, the book examines the recent discovery of whole genome sequencing of a few wild potato species genomes, genomics in management and genetic enhancement of Solanum species, new strategies towards durable potato late blight resistance, structural analysis of resistance genes, genomics resources for abiotic stress management, as well as somatic cell genetics and modern approaches in true-potato-seed technology. The complete genome sequence provides a better understanding of potato biology, underpinning evolutionary process, genetics, breeding and molecular efforts to improve various important traits involved in potato growth and development.




Handbook of Potato Production, Improvement, and Postharvest Management


Book Description

Potatoes are a crucial food crop around the world, grown in nearly 150 countries. The Handbook of Potato Production, Improvement, and Postharvest Management compiles everything you need to know about potato crop production in one well-organized reference. Leading international authorities clearly discuss the biology, genetics, breeding, diseases, and effective approaches for improvement of crop and handling after harvest. This one-of-a-kind text explores, from interdisciplinary perspectives, every aspect of potato crop management from seed germination to end use while presenting the most current research available.




The Potato Crop


Book Description

Currently, climate change due to global warming induced mainly by land use changes (i.e., intensified agriculture and deforestation) is one of the biggest problems that humanity must urgently address. Thus, promoting models of sustainable agricultural production that ensure food security, environmental conservation and livelihoods for local populations is needed. In this context, humanity has the great challenge of integrating agriculture, ecosystems, environment, and people in the sustainable development scheme, especially with the focus on food systems that maintain a sustainable management of biodiversity and ecosystem services. Fortunately, there are currently important advances in knowledge and technologies for the management of agrobiodiversity and agricultural crops of great economic and social relevance (i.e., wheat, corn, potatoes, cassava), which will be essential for future scenarios of environmental change. The potato (Solanum tuberosum) is the third most consumed crop that contributes to global food security. The potato continues to be recommended as a key food for human consumption, especially in the face of current population growth, related to problems with food supply, nutrition, and food security, and also climate change challenges globally. Understanding how abiotic (i.e., climate, nutrients) and biotic (i.e., pests and diseases) factors and management (i.e., genetic resources, planting) determine production and crop growth patterns has been an important issue in potato crop research. Researchers on potato crops aim to improve agricultural resources management, breeding and seed potato production, post-harvest practices, storage, supply chain, and food security. There are also significant knowledge and technological advances in sustainable potato production systems that have remarkably improved potato yields. This book aims to publish an overview about the current state of the art for sustainable potato production systems and achieving global nutrition and food security targets. The chapters of the book deal mainly with theoretical and practical fundamentals on seed potato production, crop growth and production, postharvest and storage of potato tubers. This integrative and comprehensive review is an important contribution to the knowledge of potato crop management and conservation of potato cultivars in the current context of global climate change, hunger, and poverty.




Solanum tuberosum


Book Description

Potato (Solanum tuberosum L.) is the fourth-largest food crop produced in the world with approximately 370 million tonnes. This product is a staple in many diets throughout the world and the underground swollen tubers of the plant are rich sources of proteins, carbohydrates, minerals (K, Mn, Mg, Fe, Cu and P), and vitamins (C, B1, B3, B6, K, folate, pantothenic acid). Improvement of new potato cultivars resistant to biotic and abiotic factors is extremely important, as these are the main reasons for decreased potato production. Seed tuber production and tuber storage under healthy conditions after harvest are two important issues in potato cultivation. As such, this book discusses the importance of the potato plant and examines ways to increase its production and develop new cultivars resistant to stress factors via conventional and biotechnological methods.




Global Climate Change and Plant Stress Management


Book Description

Understand the impact of climate change on plant growth with this timely introduction Climate change has had unprecedented consequences for plant metabolism and plant growth. In botany, adverse effects of this kind are called plant stress conditions; in recent years, the plant stress conditions generated by climate change have been the subject of considerable study. Plants have exhibited increased photosynthesis, increased water requirements, and more. There is an urgent need to understand and address these changes as we adapt to drastic changes in the global climate. Global Climate Change and Plant Stress Management presents a comprehensive guide to the effects of global climate change on plants and plant metabolism. It introduces and describes each climate change-related condition and its components, offering a detailed analysis of the resulting stress conditions, the environmental factors which ameliorate or exacerbate them, and possible solutions. The result is a thorough, rigorous introduction to this critical subject for the future of our biome. Readers will also find: Analysis of global climate change impact on various agricultural practices Socio-economic consequences of climate change and plant stress conditions, and possible solutions Strategies for sustainable agriculture Global Climate Change and Plant Stress Management is essential for researchers, scientists, and industry professionals working in the life sciences, as well as for advanced graduate students.




Plant, Abiotic Stress and Responses to Climate Change


Book Description

Climate change is a serious problem influencing agricultural production worldwide and challenging researchers to investigate plant responses and to breed crops for the changed growing conditions. Abiotic stresses are the most important for crop production, affecting about 96.5% of arable land worldwide. These stress factors include high and low temperature, water deficit (drought) and flooding, salinity, heavy metals, UV radiation, light, chemical pollutants, and so on. Since some of the stresses occurred simultaneously, such as heat and water deficit, causing the interactions of physiological processes, novel multidisciplinary solutions are needed. This book provides an overview of the present state in the research of abiotic stresses and molecular, biochemical, and whole plant responses, helping to prevent the negative impact of global climate change.




Stress Tolerance in Horticultural Crops


Book Description

Stress Tolerance in Horticultural Crops: Challenges and Mitigation Strategies explores concepts, strategies and recent advancements in the area of abiotic stress tolerance in horticultural crops, highlighting the latest advances in molecular breeding, genome sequencing and functional genomics approaches. Further sections present specific insights on different aspects of abiotic stress tolerance from classical breeding, hybrid breeding, speed breeding, epigenetics, gene/quantitative trait loci (QTL) mapping, transgenics, physiological and biochemical approaches to OMICS approaches, including functional genomics, proteomics and genomics assisted breeding. Due to constantly changing environmental conditions, abiotic stress such as high temperature, salinity and drought are being understood as an imminent threat to horticultural crops, including their detrimental effects on plant growth, development, reproduction, and ultimately, on yield. This book offers a comprehensive resource on new developments that is ideal for anyone working in the field of abiotic stress management in horticultural crops, including researchers, students and educators. - Describes advances in whole genome and next generation sequencing approaches for breeding climate smart horticultural crops - Details advanced germplasm tolerance to abiotic stresses screened in the recent past and their performance - Includes advancements in OMICS approaches in horticultural crops