1. Wheat and abiotic stress challenges: an overview
2. Mitigation of abiotic stress tolerance in wheat through conventional breeding
3. Speed breeding: a powerful tool for mitigating abiotic stresses in wheat
4. Marker assisted breeding for abiotic stress tolerance in wheat crop
5. Epigenetics and abiotic stress tolerance in wheat crops: consequences and application
6. Physiological and biochemical approaches for mitigating the effect of abiotic stresses in wheat
7. Role of phytohormones in regulating abiotic stresses in wheat
8. Abiotic stresses induced ROS production in Wheat: Consequences, survival mechanisms and mitigation strategies
9. Regulation of circadian for enhancing abiotic stress tolerance in wheat
10. Changes in root behaviour of wheat species under abiotic stress conditions
11. Role of photosynthesis in regulating abiotic stress conditions in wheat
12. CRISPR-Cas Genome Editing for the Development of Abiotic Stress Tolerance in Wheat
13. Functional genomics approaches for combating the effect of abiotic stresses in wheat
14. Role of Transcriptomics in countering the effect of abiotic stresses in wheat
15. Patterns of protein expression in wheat under stress conditions and its identification by proteomics tools
16. Crosstalk between small-RNAs and wheat abiotic stresses
17. Combined abiotic stresses in wheat species
18. Wheat responses to radiation stress and its adaptive mechanism
19. Advancement in mitigating the effects of drought stress in wheat
20. Advancement in mitigating the effects of heavy metals toxicity in wheat
21. Advancement in mitigating the effects of boron stress in wheat
22. Advancement in mitigating the effects of waterlogging stress in wheat
23. Advancement of transgenic wheat (Triticum aestivum L.) to survive against abiotic stresses in the era of the changing climate
24. Plant-microbes interactions in wheat to deal with abiotic stress
25. Role of nanotechnology in combating abiotic stresses in wheat
26. Climate change as a cause of abiotic stresses in wheat