Plant Stress Mitigators

<p>1. Approaches in stress mitigation of plants<br>2. Biocontrol: a novel eco-friendly mitigation strategy for managing plant diseases<br>3. Salicylic Acid Induced Abiotic Stress Tolerance in Plants<br>4. Salicylic Acid Mediated Postharvest Chilling and Disease Stress Tolerance in Horticultural Crops<br>5. Germination and seedling establishment of useful tropical trees for ecological restoration: Implications for conservation against environmental stresses<br>6. Soil health and plant stress mitigation<br>7. Salicylic acid and ascorbic acid as mitigators of chilling stress in plants<br>8. Role of glycine betaine in the protection of plants against environmental stresses<br>9. Effects of plant growth regulators on physiological and phytochemical parameters in medicinal plants under stress conditions<br>10. Proline and soluble carbohydrates biosynthesis and their roles in plants under abiotic stresses<br>11. Switching role of hydrogen sulfide in amelioration of metal stress in plant<br>12. PGPR reduces the adverse effects of abiotic stresses by modulating morphological and biochemical properties in plants<br>13. Role of polyamine in plants under abiotic stresses: Regulation of biochemical interactions<br>14. Prime-omics approaches to mitigate stress response in plant<br>15. Perspectives of using plant growth-promoting rhizobacteria under salinity stress for sustainable crop production<br>16. Biosaline agriculture coupled with efficient management strategies for sustainable agriculture on salt affected Vertisols<br>17. Chemical elicitors- a mitigation strategy for maximize crop yields under abiotic stress<br>18. Role of sulphydryl bioregulator thiourea in mitigating drought stress in crops<br>19. Rhizobacterial-Mediated Tolerance to Plants upon Abiotic Stresses<br>20. Changes in plant secondary metabolite profiles in response to environmental stresses<br>21. Soil microbial inocula: Eco-solution for mitigating salinity stress<br>22. How does silicon help alleviate biotic and abiotic stresses in plants? Mechanisms and future prospects<br>23. Editing genomes to modify plant response to abiotic stress<br>24. Organic compounds as anti-stress stimulants in plants: responses and mechanisms<br>25. The influence of climate change on interactions between environmental stresses and plants<br>26. Biological control of Fusarium wilt in legumes<br>27. Oxidative Stress in Plants and the biochemical response mechanisms<br>28. Nanoparticles treatment ameliorate the side effects of stresses in plants<br>29. Soil moisture-mediated changes in microorganism’s biomass and bioavailability of nutrients in paddy soil<br>30. Trichomes plasticity of plants in response to environmental stresses<br>31. An overview of bacterial bio-fertilizers function on soil fertility under abiotic stresses</p>