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Plant breeding is a cornerstone of human innovation, evolving from the domestication of wild plants to today’s designed genotype by integration of genetic engineering, bioinformatics, and artificial intelligence. Next Generation Plant Breeding offers a comprehensive exploration of this journey, presenting both foundational techniques and cutting-edge advancements that drive modern crop improvement.
This book covers a wide range of topics, from traditional methods like domestication, heterosis, and reverse breeding to advanced technologies such as speed breeding, genome editing, and bioinformatics tools. It also highlights efforts to improve nutritional quality, enhance climate resilience, and ensure sustainable agricultural practices.
Designed for researchers, students, and professionals, Next Generation Plant Breeding blends historical context with future-oriented approaches. It emphasizes the critical role of plant breeding in addressing global challenges, from food security to environmental sustainability, inspiring innovation for a resilience and, food-security for future.
Next Generation Plant Breeding equips readers to tackle challenges like climate resilience, food security, and malnutrition. It provides practical solutions for sustainable crop development, enhanced nutrition, and adaptability using advanced tools such as AI, bioinformatics, and genome editing. By bridging traditional and modern breeding methods, the book empowers readers to innovate and improve global agricultural outcomes.
1. Domestication as a Primary Breeding Approach for Crop Plants
2. Harnessing Pollination in Crop Plants and Pollen Selection Application in Plant Breeding
3. Heterosis Breeding in Crop Improvement
4. Diallel Breeding and Genetic Investigation
5. Reverse Breeding: An Innovative NextGen Breeding Tool to Sustain Hybrids by Producing Homozygous Founder Lines
6. CIS Breeding: Developing the Future of Crop Improvement
7. Leveraging MAGIC Populations for Genetic Advancement
8. Speed Breeding: A Powerful Tool for Accelerating Crop Breeding
9. Perspectives in Breeding Varieties for Organic Agriculture
10. Breeding Millet Crops to Nutri-Millets
11. Pseudocereals for Nutritional and Health Security
12. Targeted Improvement of Plant Nutritional Quality Traits in Millet Crops: An Assessment and Progress
13. Synthetic Seeds and Scope for Crop Improvement
14. Advances in Tissue Culture Techniques in Vegetable Crops for Genetic Transformation
15. Plant Tissue Regeneration Techniques for Genetic Transformation in Fruit Crops
16. Modernizing Maize Breeding in the Tropics using Doubled Haploid Technology
17. Harnessing the Wealth of Haplotypes in Crop Breeding
18. Relevance and Realization of Breeding Value for Genetic Improvement in Crops
19. Genomic Tools for Plant Breeding.
20. Genomics for Enhancing the Traits for Climate Resilience
21. Chromosome Engineering and Prospectives in Plant Breeding
22. Harnessing CRISPR Mediated Genome Editing Technologies in Plant Breeding: A Comprehensive Review
23. Nanotechnology in Plant Breeding and Genetics
24. Epigenetic Regulations for Drought Tolerance in Plants
25. Genomes Outside the Nucleus Contribute to Photosynthesis, Productivity and Impact Crop Improvement
26. Innovative Breeding Methods in Medicinal and Aromatic Plants
27. Modern Strategies in Forest Tree Improvement: Methods, Achievements and Perspectives
28. Breeding Clonally Propagated Crops
29. Molecular Approaches for Understanding Metabolic Pathways Development in Insect-Plant Interaction and Deciphering Candidate Genes
30. Artificial Intelligence in Crop Breeding
31. Fast Tracking Plant Breeding through Bioinformatics
32. Advances in In Silico Methodologies for Designing Crop Breeding
