Heat Stress in Food Grain Crops
Heat Stress In Food Grain Crops: Plant Breeding and Omics Research is a timely compilation of advanced research on heat stress affecting crop yield, plant growth & development of common food grain and cereal crops. Chapters in the book cover several aspects of crop science including the identifi...
Clasificación: | Libro Electrónico |
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Otros Autores: | , , |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
Singapore :
Bentham Science Publishers,
2020.
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Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover
- Title
- Copyright
- End User License Agreement
- Contents
- Preface
- List of Contributors
- Mitigating Heat Stress in Wheat: Integrating Omics Tools With Plant Breeding
- Karnam Venkatesh1,*, Vikas Gupta1, Senthilkumar K.M.2, Mamrutha H.M.1 and Gyanendra Pratap Singh1
- INTRODUCTION
- IMPACT OF HEAT STRESS ON WHEAT PRODUCTION
- Heat Stress, Extent of Damage/Threat to Wheat Area and Mechanisms Affected
- MECHANISM OF HEAT TOLERANCE ADOPTION BY PLANTS
- Avoidance Mechanisms by Way of Phenotypic Adjustments
- Tolerance Mechanisms
- TRAITS OF IMPORTANCE FOR HEAT TOLERANCE AND THEIR PHENOTYPING TECHNIQUES
- Canopy Temperature
- Leaf Chlorophyll Content
- Canopy Greenness/Stay Green Canopy
- Earliness Perse in Wheat
- Photosynthetic Efficiency
- Cell Membrane Thermal Stability
- WHEAT IMPROVEMENT FOR HEAT TOLERANCE, INTEGRATING PLANT BREEDING AND OMICS TOOLS
- Breeding for Heat Tolerance in Wheat
- Germplasm Identification for Heat Tolerance
- Heat Tolerant Varieties by Conventional Selection
- QTLs for Heat Tolerance
- Marker Assisted Recurrent Selection for Improving Heat Stress Tolerance
- OMICS APPROACHES FOR IDENTIFICATION OF HIGH TEMPERATURE STRESS TOLERANCE GENES
- Transcriptomics
- Proteomics
- Metabolomics
- Ionomics
- Functional Genomics
- Genetic Engineering
- Genomics Assisted Breeding
- Integration of Omics Tools for Enhancing Thermotolerance
- CONCLUSION
- CONSENT FOR PUBLICATION
- CONFLICT OF INTEREST
- ACKNOWLEDGEMENTS
- REFERENCES
- Genetic Enhancement of Heat Tolerance in Maize Through Conventional and Modern Strategies
- M. G. Mallikarjuna1,*, Jayant S. Bhat2, Firoz Hossain1, Palanisamy Veeraya1, Akshita Tyagi1, Chikkappa G. Karjagi3 and H. C. Lohithaswa4
- INTRODUCTION
- THE RESPONSES OF MAIZE TO HEAT STRESS
- Morphological Responses
- Physiological Responses
- Photosynthesis
- Water Relations and Osmotic Adjustments
- Oxidative Stress
- Hormonal Response
- Molecular Responses
- Heat Shock Proteins (HSPs)
- Signalling Transduction of Heat Stress
- ADAPTIVE MECHANISMS FOR HEAT TOLERANCE IN MAIZE
- FUNCTIONAL GENOMICS
- MAIZE BREEDING FOR HEAT TOLERANCE
- Screening Methodologies and Heat Tolerance Indices
- Genetics of Heat Tolerance in Maize
- Conventional Breeding
- Genomics Assisted Breeding for Heat Tolerance
- Genetic Engineering
- PROSPECTS
- High Throughput and Reliable Phenotyping
- Deciphering the Interactions Between Heat and Other Abiotic Stresses on Maize
- Dissecting Detailed Molecular Mechanisms and Signalling Cascades of Heat Stress Tolerance in Maize
- Use of Next-generation Breeding Tools
- Policy Support
- CONSENT FOR PUBLICATION
- CONFLICT OF INTEREST
- ACKNOWLEDGEMENTS
- REFERENCES