Biotic Stress Tolerance in Horticultural Crops

1. Horticultural crops biotic stresses in present climatic scenario<br>2. Conventional breeding for biotic stress management in horticultural crops<br>3. Hybrids and biotic stress tolerance in horticultural crops<br>4. Speed breeding for breeding the resistant or tolerant crops<br>5. Molecular breeding for biotic stress tolerance in horticultural crops<br>6. Epigenetics in horticultural crops: consequences and application in biotic stress tolerance<br>7. Genomics assisted breeding approaches for biotic stress tolerance<br>8. Functional genomics approaches for combating the effect of biotic stresses<br>9. Crosstalk between miRNA and plant biotic stresses<br>10. Programmed Cell Death in plants: a key player for combating the effect of biotic stresses<br>11. Transcription Factors: A tool box for countering the effect of biotic stresses<br>12. Latest molecular and biochemical approaches for mitigating the effects of biotic stresses<br>13. Current approaches and molecular mechanism in horticultural crops to mitigate the effects of fungal diseases:<br>14. Current approaches in horticultural crops to mitigate the effects of bacterial diseases<br>15. Current approaches in horticultural crops to mitigate the effect of viral diseases<br>16. Advancement in transgenics for combating biotic stresses<br>17. Recent applications of biotechnological approaches to elucidate the biology of plant-nematode interactions<br>18. Role of phytohormones as master regulators during the biotic stresses<br>19. Use of modern physical tools for mitigating the effect of biotic stresses