Molecular Breeding in Wheat, Maize and Sorghum
portes grátis
Molecular Breeding in Wheat, Maize and Sorghum
Strategies for Improving Abiotic Stress Tolerance and Yield
Hossain, Professor Mohammad Anwar; Seneweera, Dr Saman; Acuna, Andrea; Arora, Arushi; Henry, Professor Robert; Rakshit, Dr Sujay; Alam, Dr Mobashwer; Amalraj, John; Arguello, Maria; Ali, Muhammad Amjad
CABI Publishing
07/2021
552
Dura
Inglês
9781789245431
15 a 20 dias
1483
Descrição não disponível.
Chapter 1: Recent Understanding on Molecular Mechanisms of Plant Abiotic Stress Response and Tolerance Chapter 2: Breeding Strategies to Enhance Abiotic Stress Tolerance and Yield Improvement in Wheat, Maize and Sorghum Chapter 3: Recent Advancement of Molecular Breeding for Improving Salinity Tolerance in Wheat Chapter 4: Genomics and Molecular Physiology for Improvement of Drought Tolerance in Wheat Chapter 5: Molecular Breeding for Improving Heat Stress Tolerance in Wheat Chapter 6: Molecular Breeding for Improving Waterlogging Tolerance in Wheat Chapter 7: Molecular Breeding for Improving Aluminium Resistance in Wheat Chapter 8: Molecular Breeding for Enhancing Iron and Zinc Content in Wheat Grains Chapter 9: Recent Advancements of Molecular Breeding and Functional Genomics for Improving Nitrogen-, Phosphorus- and Potassium-Use Efficiencies in Wheat Chapter 10: Molecular Breeding for Improving Yield in Wheat: Recent Advances and Future Perspectives Chapter 11: Tools for Transforming Wheat Breeding: Genomic Selection, Rapid Generation Advance and Database-Based Decision Support Chapter 12: CRISPR-Mediated Gene Editing in Wheat for Abiotic Stress Tolerance Chapter 13: Application of Pangenomics for Wheat Molecular Breeding Chapter 14: Recent Advancement of Molecular Understanding for Combating Salinity Stress in Maize Chapter 15: Isolation of Genes/Quantitative Trait Loci for Drought Stress Tolerance in Maize Chapter 16: The Genetic Architecture and Breeding Towards Cold Tolerance in Maize: Review Chapter 17: Physiological and Molecular Mechanisms Underlying Excess Moisture Stress Tolerance in Maize: Molecular Breeding Opportunities to Increase Yield Potential Chapter 18: Recent Molecular Breeding Advances for Improving Aluminium Tolerance in Maize and Sorghum Chapter 19: Physiological and Molecular Interventions for Improving Nitrogen-Use Efficiency in Maize Chapter 20: Recent Advancement in Molecular Breeding for Improving Nutrient-Use Efficiency in Maize Chapter 21: Molecular Breeding for Increasing Nutrition Quality in Maize: Recent Progress Chapter 22: Molecular Breeding for Improving Yield in Maize: Recent Advances and Future Perspectives Chapter 23: CRISPR-Mediated Genome Editing in Maize for Improved Abiotic Stress Tolerance Chapter 24: Molecular Breeding for Combating Salinity Stress in Sorghum: Progress and Prospects Chapter 25: Quantitative Trait Locus mapping and Genetic Improvement to Strengthen Drought Tolerance in Sorghum Chapter 26: Improving Abiotic Stress Tolerance to Adapt Sorghum to Temperate Climatic Regions Chapter 27: Isolation of Quantitative Trait Loci/Gene(s) Conferring Cadmium Tolerance in Sorghum Chapter 28: Molecular Breeding for Increasing Micronutrient Content in Sorghum Chapter 29: Ideotype Breeding for Improving Yield in Sorghum: Recent Advances and Future Perspectives
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Salt stress; drought stress; heat stress; cold stress; heavy metal stress; waterlogging stress; aluminium stress; low nutrient stress; ideotype breeding; yield improvement; stress tolerance; water use efficiency; nutrient use efficiency; marker assisted breeding; QTL; molecular breeding
Chapter 1: Recent Understanding on Molecular Mechanisms of Plant Abiotic Stress Response and Tolerance Chapter 2: Breeding Strategies to Enhance Abiotic Stress Tolerance and Yield Improvement in Wheat, Maize and Sorghum Chapter 3: Recent Advancement of Molecular Breeding for Improving Salinity Tolerance in Wheat Chapter 4: Genomics and Molecular Physiology for Improvement of Drought Tolerance in Wheat Chapter 5: Molecular Breeding for Improving Heat Stress Tolerance in Wheat Chapter 6: Molecular Breeding for Improving Waterlogging Tolerance in Wheat Chapter 7: Molecular Breeding for Improving Aluminium Resistance in Wheat Chapter 8: Molecular Breeding for Enhancing Iron and Zinc Content in Wheat Grains Chapter 9: Recent Advancements of Molecular Breeding and Functional Genomics for Improving Nitrogen-, Phosphorus- and Potassium-Use Efficiencies in Wheat Chapter 10: Molecular Breeding for Improving Yield in Wheat: Recent Advances and Future Perspectives Chapter 11: Tools for Transforming Wheat Breeding: Genomic Selection, Rapid Generation Advance and Database-Based Decision Support Chapter 12: CRISPR-Mediated Gene Editing in Wheat for Abiotic Stress Tolerance Chapter 13: Application of Pangenomics for Wheat Molecular Breeding Chapter 14: Recent Advancement of Molecular Understanding for Combating Salinity Stress in Maize Chapter 15: Isolation of Genes/Quantitative Trait Loci for Drought Stress Tolerance in Maize Chapter 16: The Genetic Architecture and Breeding Towards Cold Tolerance in Maize: Review Chapter 17: Physiological and Molecular Mechanisms Underlying Excess Moisture Stress Tolerance in Maize: Molecular Breeding Opportunities to Increase Yield Potential Chapter 18: Recent Molecular Breeding Advances for Improving Aluminium Tolerance in Maize and Sorghum Chapter 19: Physiological and Molecular Interventions for Improving Nitrogen-Use Efficiency in Maize Chapter 20: Recent Advancement in Molecular Breeding for Improving Nutrient-Use Efficiency in Maize Chapter 21: Molecular Breeding for Increasing Nutrition Quality in Maize: Recent Progress Chapter 22: Molecular Breeding for Improving Yield in Maize: Recent Advances and Future Perspectives Chapter 23: CRISPR-Mediated Genome Editing in Maize for Improved Abiotic Stress Tolerance Chapter 24: Molecular Breeding for Combating Salinity Stress in Sorghum: Progress and Prospects Chapter 25: Quantitative Trait Locus mapping and Genetic Improvement to Strengthen Drought Tolerance in Sorghum Chapter 26: Improving Abiotic Stress Tolerance to Adapt Sorghum to Temperate Climatic Regions Chapter 27: Isolation of Quantitative Trait Loci/Gene(s) Conferring Cadmium Tolerance in Sorghum Chapter 28: Molecular Breeding for Increasing Micronutrient Content in Sorghum Chapter 29: Ideotype Breeding for Improving Yield in Sorghum: Recent Advances and Future Perspectives
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