Next-Generation Plant Breeding Approaches for Stress Resilience in Cereal Crops

Chapter 1. Next Generation Breeding Approaches for Stress Resilience in Cereals: Current Status and Future Prospects.- Chapter 2. Genome Wide Association Mapping and Genomic Selection Approaches for Stress Resilience in Rice.- Chapter 3. Genome-wide association studies and genomic predictions for climate-change resilience in wheat.- Chapter 4. Genomic Selection for Enhanced Stress Tolerance in Maize.- Chapter 5. Genome-Wide Association Studies and Genomic Selection for Nutrient Use Efficiency in Cereals.- Chapter 6. Doubled Haploidy: An Accelerated Breeding Tool for Stress Resilience Breeding in Cereals.- Chapter 7. Rapid Generation Advancement and Fast-Track Breeding Approaches in Wheat Improvement.- Chapter 8. Integrating Advanced Molecular, Genomic and Speed Breeding Methods for Genetic Improvement of Stress Tolerance in Rice.- Chapter 9. CRISPR Genome Editing Brings Global Food Security into the First Lane: Enhancing Nutrition and Stress Resilience in Crops.- Chapter 10. Genome Editing for Stress Tolerance in Cereals: Methods, Opportunities and Applications.- Chapter 11. Editing Plant Genome with CRISPR/Cas: A Sustainable Strategy for Disease Management.- Chapter 12. CRISPR/Cas for Improved Stress Tolerance in Rice.- Chapter 13. Harnessing CRISPR/Cas tools for installing virus resistance in cereals: An overview.- Chapter 14. Genomic and bioinformatic resources for next generation breeding approaches towards enhanced stress tolerance in cereals.

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• Reprodução e propagação das plantas
• Ciência agrícola
• Colheitas de cereais
• Biotecnologia

Cereals;Climate Change;Next Generation Plant Breeding;Stress Resilience;Accelerated Genetic Gain