Rice Adaptation to Climate Change: Opportunities and Priorities in Molecular Breeding Molecular Breeding for Improving Salinity Tolerance in Rice: Recent Progress and Future Prospects Molecular Breeding for Improving Drought Tolerance in Rice: Recent Progress and Future Perspectives Molecular Breeding for Improving Flooding Tolerance in Rice: Recent Progress and Future Perspectives Molecular Breeding for Improving Heat Stress Tolerance in Rice: Recent Progress and Future Perspectives Molecular Breeding for Improving Cold Tolerance in Rice: Recent Progress and Future Perspectives Molecular Breeding for Lower Cadmium Accumulation in Rice Grain: Progress and Perspectives Molecular Breeding for Improving Arsenic Stress Tolerance in Rice: Recent Progress and Future Perspectives Molecular Breeding for Improving Ozone Tolerance in Rice: Recent Progress and Future Perspectives Molecular Breeding Strategies for Enhancing Rice Yields Under Low Light Intensity Harnessing Tolerance to Low Phosphorus in Rice: Recent Progress and Future Perspectives Molecular Breeding for Improving Nitrogen Use Efficiency in Rice: Progress and Perspectives Dissecting the Molecular Basis of Drought-induced Oxidative Stress Tolerance in Rice Manipulation of photosynthesis to increase rice yield potential Molecular Breeding for Improved ß-carotene Synthesis in Golden Rice: Recent Progress and Future Perspectives Increasing Grain Zinc Concentration in Rice Molecular breeding for Iron bio-fortification in rice grain: recent progress and future perspectives Aromatic Rices: Evolution, Genetics and Improvement Through Conventional Breeding and Biotechnological Methods Genetic Engineering for Increasing Antioxidant Content in Rice: Recent Progress and Future Perspectives Molecular Breeding Approaches for Improvement and Development of Water Saving Aerobic Rice Targeting the ascorbate-glutathione pathway and the glyoxalase pathway for genetic engineering of abiotic stress-tolerance in rice 1. Rice Adaptation to Climate Change: Opportunities and Priorities in Molecular Breeding 2. Molecular Breeding for Improving Salinity Tolerance in Rice: Recent Progress and Future Prospects 3. Molecular Breeding for Improving Drought Tolerance in Rice: Recent Progress and Future Perspectives 4. Molecular Breeding for Improving Flooding Tolerance in Rice: Recent Progress and Future Perspectives 5. Molecular Breeding for Improving Heat Stress Tolerance in Rice: Recent Progress and Future Perspectives 6. Molecular Breeding for Improving Cold Tolerance in Rice: Recent Progress and Future Perspectives 7. Molecular Breeding for Lower Cadmium Accumulation in Rice Grain: Progress and Perspectives 8. Molecular Breeding for Improving Arsenic Stress Tolerance in Rice: Recent Progress and Future Perspectives 9. Molecular Breeding for Improving Ozone Tolerance in Rice: Recent Progress and Future Perspectives 10. Molecular Breeding Strategies for Enhancing Rice Yields Under Low Light Intensity 11. Harnessing Tolerance to Low Phosphorus in Rice: Recent Progress and Future Perspectives 12. Molecular Breeding for Improving Nitrogen Use Efficiency in Rice: Progress and Perspectives 13. Dissecting the Molecular Basis of Drought-induced Oxidative Stress Tolerance in Rice 14. Manipulation of photosynthesis to increase rice yield potential 15. Molecular Breeding for Improved ß-carotene Synthesis in Golden Rice: Recent Progress and Future Perspectives 16. Increasing Grain Zinc Concentration in Rice 17. Molecular breeding for Iron bio-fortification in rice grain: recent progress and future perspectives 18. Aromatic Rices: Evolution, Genetics and Improvement Through Conventional Breeding and Biotechnological Methods 19. Genetic Engineering for Increasing Antioxidant Content in Rice: Recent Progress and Future Perspectives 20. Molecular Breeding Approaches for Improvement and Development of Water Saving Aerobic Rice 21. Targeting the ascorbate-glutathione pathway and the glyoxalase pathway for genetic engineering of abiotic stress-tolerance in rice

Dr Mohammad Anwar Hossain, Professor, Department of Genetics and Plant Breeding, Bangladesh Agricultural University, Bangladesh.Dr Lutful Hassan, Professor, Department of Genetics and Plant Breeding, Bangladesh Agricultural University, Bangladesh.Dr Khandakar Md. Iftekharuddaula, Chief Scientific Officer, Plant Breeding Division, Bangladesh Rice Research Institute, Bangladesh.Dr Arvind Kumar, Director, International Rice Research Institute, South Asia Regional Centre, Varanasi, India.Dr Robert Henry, Professor, Institute Director, Queensland Alliance for Agriculture and Food Innovation, Australia.