This book covers various genomic and genetic modifications utilized to develop climate-resilient crops. Each subsequent chapter serves as a strategic response to this imperative, revealing advanced research and solutions aimed at enhancing adaptability and resilience of crops. The book traverses diverse aspects of crop breeding, including genomic-assisted breeding, the roles of transcription factors and DNA methylation, and the impact of metabolic and structural changes on crop adaptation to abiotic stress. The book concludes with discussion on the prospects of advancing crop resilience through the integration of genetic, breeding, genomic, biotechnological, and engineering innovations. This section provides insights into the current research landscape and the future of breeding stress-resilient crops. Tailored for researchers, students, and extension agents, this book meets the needs of those seeking knowledge in solutions utilized in crop breeding for agricultural sustainability in extreme climates and the associated challenges.
Table of Contents:
.- Chapter 1: Genomic Innovations for Climate-Smart Crop Development
.- Chapter 2: Potential of Crop Wild Relatives in Developing Abiotic Stress Tolerant Crop Cultivars
.- Chapter 3: Integrative Phenomics Bridging Genomics and Stress Resilience in Crops
.- Chapter 4: Recent Advances in Understanding Heat Stress Responses in Major Pseudocereals
.- Chapter 5: Proteomic Strategies to Uncover Insights into Abiotic Stress Responses
.- Chapter 6: Biomacromolecular Pattern Guided Breeding for Nutritional Quality and Safety Under Heat Stress in Soybean and Peanut
.- Chapter 7: Epigenetics in Crop Abiotic Stress Adaptation and Memory
.- Chapter 8: Harnessing the Potential of Transcription Factors in Developing Drought Resilient Rice
.- Chapter 9: Microgreens for Health and Climate Adaptation Unlocking Therapeutic and Agricultural Potential
.- Chapter 10:Microgreens farming as Climate-Smart Agriculture From Soil to Supplement, Next Generation of Nutrient-Dense Foods
.- Chapter 11:Genomic Advances in Millets for Climate-Resilient Agriculture and Nutritional Security.
About the Author :
Dr. Vijay Gahlaut, working as an associate professor at University Centre for Research & Development, Chandigarh University in Mohali, focuses his research on identifying novel genomic regions and genes governing abiotic stress regulation in crop plants. His expertise spans crop biotechnology, quantitative genetics, QTL/GWAS, and epigenetics. Employing diverse bioinformatic and genomic methods, Dr. Gahlaut has successfully pinpointed crucial genomic regions, epialleles, and candidate genes in various crop species. This research significantly contributes to bolstering crop resilience against challenging environmental conditions, particularly water scarcity and heat stress. With over 80 published research papers in prestigious international journals and notable contributions as an associate editor and independent peer-reviewer, Dr. Gahlaut's impactful achievements led to his induction as a Member of the National Academy of Sciences in India, acknowledging his profound influence in crop genetics and abiotic stress tolerance research.
Dr. Sachin Rustgi is an associate professor of molecular breeding at the Department of Plant and Environmental Sciences at Clemson University. He also serves as a faculty scholar at the Clemson University School of Health Research and the Center for Human Genetics. Additionally, Dr. Rustgi holds the position of adjunct associate professor at the Department of Crop and Soil Sciences, Washington State University, Pullman, and the Department of Genetics and Plant Breeding, Ch. Charan Singh University, Meerut. Dr. Rustgi's research is centered on critical areas such as developing dietary therapies for individuals with celiac disease or allergies to wheat and peanuts. His work also involves creating biomarkers for heat tolerance in crops like wheat, soybean, and peanut, as well as devising innovative strategies to combat major insect pests and fungal pathogens affecting primary crops in South Carolina. His impactful research has resulted in more than a hundred publications in esteemed international journals. In addition to his research contributions, Dr. Rustgi has authored or edited three books.
Dr. Vandana Jaiswal, a senior scientist at Biotechnology Division, CSIR-IHBT in Palampur, India, is dedicated to unraveling the genetics of economically vital traits and enhancing Himalayan crops through molecular methods. Focusing on saffron, a pivotal Himalayan crop with inherent challenges like triploidy and seed sterility, she pioneers genetic improvements utilizing molecular techniques. Dr. Jaiswal's groundbreaking work extends to more than 40 research papers and book chapters, demonstrating her profound contribution to the field. In addition, she serves as an Associate Editor and independent peer reviewer for several journals. Her innovative research underscores her commitment to advancing agricultural genetics and crop improvement in the Himalayan region.
