Stress-Resilient Crops by Chen, Jen-Tsung;

Short description:

This volume describes cutting edge technologies ("omics," CRISPR, and nanotechnology) as they can be applied to the development of vital new stress-tolerant crops able to withstand climate change effects.

Long description:

Climate change and the increase in environmental stress that it causes has made the need for more stress-tolerant crops to be developed worldwide.
This book presents cutting-edge coordinated "omics-CRISPR-nanotechnology" strategies for combating diverse stressors and complicated or multiple stress conditions experienced by crops today. It covers both abiotic and biotic stresses including salinity, temperature, drought, heavy metals, pests and pathogens, and proposes ways to develop stress-tolerant crops with high-yield and high-quality traits through the integration or coordination of three mainstream technologies (multiple omics, CRISPR/Cas9, and nanotechnology).
This book is a valuable reference and guide to crucial aspects of methods, applications, and future directions and it opens the door for students and researchers to efficiently view these critical subtopics of plant science and technology and inspire ideas for future experiments.
These techniques will help create a more sustainable agriculture in line with the Sustainable Development Goals (SDGs) of the United Nations and the Paris Agreement.

The book:

· Presents strategies for coordinating multiple omics, CRISPR/Cas9, and nanotechnology techniques for crop improvement
· Describes ways to develop abiotic and biotic stress-tolerant crops
· Summarizes current achievements in developing climate-smart agriculture

Table of Contents:

• Chapter 1: Developing Nutritionally-Enhanced Crop through Approaches of Functional Genomic and CRISPR/Cas Technologies
• Chapter 2: High-Yield Crops Developed by Climate-Resilient Strategies
• Chapter 3: Disease-Resistant Crops: Plant Protection through Nanotechnology and CRISPR- Enhanced Plant Immunity
• Chapter 4: Salinity-Resilient Crops Reprogramed Using Modern Molecular-Nanotechnology Tools
• Chapter 5: Future Crop Designing: Anti-Stress Capacities Gained by CRISPR-mediated Releasing the Potent of Functional Genomes
• Chapter 6: Mitigating Abiotic Stress using Nanoparticles and Involved Cellular Processes studied by Multiple Omics
• Chapter 7: Smart and Stress-Resilient Agriculture Achieved by Engineered Nanomaterials and Nanobiotechnology
• Chapter 8: Abiotic Stress Resilience of CRISPR-Edited Crops and Underlying Mechanisms Dissected by High-Throughput Omics Technologies
• Chapter 9: Food and Nutritional Security Achieved by Coordinated Nanotechnology-Omics-CRISPR Strategies
• Chapter 10: Exploring the Interaction of Nanomaterials with Crops Based on Multiple OMICS Tools
• Chapter 11: Stress Resilient Crops: Advanced Breeding Using Coordinated Strategies against Changing Climate
• Chapter 12: Integrated Omics and CRISPR Tools for Speed and Precision Genetic Engineering in Crops
• Chapter 13: Reprograming Epigenomes by CRISPR-Based Technology Against Plant Diseases
• Chapter 14: Profiling Plant-Pathogen Interactions by Integrative Omics Tools Leads to Speed Breeding of CRISPR-Edited Disease-Tolerant Crops
• Chapter 15: Revealing Complicated Plant-microbial-nanoparticle Interactions using Bioinformatics and Multi-omics Tools
• Chapter 16: Dissecting Stress-Tolerant Traits of CRISPR-Edited Crops by High-Throughput Omics Technologies
• Chapter 17: Molecular Insights into CRISPR-Edited Pest Resistant Crops Studied by Multiple Omics Approaches
• Chapter 18: Multiple Omics Evaluation on Stress-Resilient CRISPR-Edited Crops in Single Cell and Spatially Resolution
• Chapter 19: Transgene-Free CRISPR-Edited Crops for Stress-Resilient Agriculture: Technological Advancements and Applications
• Chapter 20: Resilient Capacity against Rising Temperature gained by Coordinated Approaches of CRISPR/Cas with Functional Genomics
• Chapter 21: Multi-Stress Tolerant Crops: Identification and Functional Analysis of Hub Genes and Regulating Responses of Complicated Stressors
• Chapter 22: Climate-Smart Crops: Delivering Tolerant Genes Based on Engineered Nanocarriers and CRISPR/Cas Genome Editing System
• Chapter 23: Metagenomic Insights into Plant-Probiotic Bacterial Interactions Boosting Crop Growth and Yield
• Chapter 24: Plant Disease Resistance through CRISPR/Cas Genome Editing: Opportunities and Challenges