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Full Description
Rice production is increasingly challenged by abiotic stresses—such as extreme temperatures, drought, salinity, and flooding—which undermine both yield and grain quality. Tackling these constraints is crucial for global food security and depends on improved farming practices, the development of resilient cultivars, and the adoption of emerging technologies.
Advances of Rice Research for Abiotic Stress Tolerance, Second Edition integrates new research across multiple fronts, including advances in genetic markers, modern breeding approaches, and biotechnological tools. It updates readers on cutting‑edge methodologies to mitigate climate‑related impacts and introduces expanded content on microbiome‑driven resilience, sustainable cultivation and intensification techniques, and genome‑editing applications that enhance crop performance under environmental stress.
By capturing current global trends alongside practical solutions in rice science, the volume serves researchers, educators, and professionals working across agronomy, plant physiology, molecular biology, soil science, and related disciplines.
Contents
1. Managing abiotic stresses with rice agriculture to achieve sustainable food security: Bangladesh dilemma
2. Growth and Morphological Alteration of Rice under Major Abiotic Stresses
3. Effects of Salinity on Rice and Rice Weeds: Short- and Long-Term Adaptation Strategies and Weed Management
4. Drought Stress and its Management in Rice: Mechanisms, Impacts, and Adaptive Strategies
5. Hotter Climates, Smarter Rice: Coping with Heat Stress Through Adaptive Reprogramming and Tolerance
6. Coping with Cold: How Rice Responds and Survives
7. Flooding Stress in Rice under Climate Change: Physiological Responses and Tolerance Mechanisms
8. Metal and Metalloid Toxicity in Rice: Stress Responses and Mitigation Strategies
9. Aluminum Sensitivity in Rice: An Underlying Molecular Insight for Tolerance with Reference to Transcriptional And Epigenetic Regulations
10. Strategies to Reduce Arsenic Stress in Rice: Physiological, Biochemical, and Molecular Perspectives
11. Abiotic Stress- Induced Oxidative Stress in Rice: Mechanisms and Mitigation Strategies
12. Engineering of Abiotic Stress Tolerance by Modulating Antioxidant Defense Systems
13. Harnessing Biostimulants to Mitigate Salt Stress Damage in Rice
14. Enhancing rice resilience to abiotic stress: The role of osmolytes
15. Responses of Biofertilizers for Sustainable Rice Production Under Different Abiotic Stresses
16. Agronomic Approaches to Improve Rice Production Under Abiotic Stress
17. Seed Priming with Phytohormone to Mitigate Abiotic Stress Tolerance in Rice
18. Nanoparticles as Emerging Tools for Enhancing Abiotic Stress Tolerance in Rice
19. Nano-Enabled Biochar Composites and Native Fungal Symbionts for Arsenic Immobilization in Anaerobic Flooded Deltaic Rice Soils
20. Molecular Tools and Strategies to Improve Abiotic Stress Resilience in Rice: Recent Progress and Future Directions
21. Proteomics and Post-Translational Modifications of Heat Stress-Associated Proteins in Rice
22. Developing Rice (Oryza sativa) Tolerance to Abiotic Stress Through Gene Editing Technologies
23. Biotechnology for Enhancing Rice Tolerance to Abiotic Stress
24. From Conventional Breeding to Gene Editing: Advances in Biotechnological Strategies for Improving Abiotic Stress Tolerance in Rice
25. Strategies for Salt Stress Tolerance in Rice: Breeding to Genome Editing
26. Climate Resilient Rice Crop Improvement Using CRISPR-Cas Technology
27. Epigenetic Modulation of FKBP12-Dependent Pathways in Drought-Induced Oxidative Stress Resilience in Upland Rice Genotypes
28. Plant Probiotic Bacteria Enhance Rice Tolerance to Abiotic Stresses
29. Advances in arbuscular mycorrhizal fungi application for abiotic stress tolerance in rice
30. Climate Change and Socioeconomic Disturbance in Rice Production
31. Phytohormone-Mediated Improvement of Salt Stress Tolerance in Rice
32. Seed Priming in Rice: A Promising Tool for Enhancing Abiotic Stress Tolerance
