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Table of Contents
1. The harsh environment and resilient plants
An overview
2. Expression and regulation of stress-responsive genes in plants under harsh environmental conditions
3. Genome editing: A tool from the vault of science for engineering climate-resilient cereals
4. Advancement in molecular and fast breeding programmes for climate resilient agriculture practices
5. Recombinant DNA technology for sustainable plant growth and production
6. Regulatory role of micro-RNAs in plants under challenging environmental conditions with special focus on drought and salinity
7. Molecular mechanisms of heat shock proteins for sustainable plant growth and production
8. Physiological and molecular responses to heavy metals stresses in plants
9. Morpho-anatomical, physiological, biochemical and molecular responses of plants to air pollution
10. Physiological and molecular responses to high, chilling and freezing temperature in plant growth and production: consequences and mitigation possibilities
11. Physiological and molecular responses to salinity due to excessive Na+ in plants
12. Physiological and molecular responses to drought, submergence and excessive watering in plants
13. Mitogen-activated protein kinase, plants and heat stress
14. Cross talk between heme oxygenase 1 and lateral root development for salt tolerance
15. Salt-tolerant plant growth promoting rhizobacteria: A new-fangled approach for improving crop yield
16. Improving resilience against drought stress among crop plants through inoculation of plant growth-promoting rhizobacteria
17. Trends in biosensors and current detection methods for stress monitoring of plants growing in adverse environmental conditions
18. Secondary metabolites for sustainable plant growth and production under adverse environment conditions
19. Medicinal plants and their pharmaceutical properties under adverse environment conditions
20. Progress and major research challenges under changing environmental conditions.
An overview
2. Expression and regulation of stress-responsive genes in plants under harsh environmental conditions
3. Genome editing: A tool from the vault of science for engineering climate-resilient cereals
4. Advancement in molecular and fast breeding programmes for climate resilient agriculture practices
5. Recombinant DNA technology for sustainable plant growth and production
6. Regulatory role of micro-RNAs in plants under challenging environmental conditions with special focus on drought and salinity
7. Molecular mechanisms of heat shock proteins for sustainable plant growth and production
8. Physiological and molecular responses to heavy metals stresses in plants
9. Morpho-anatomical, physiological, biochemical and molecular responses of plants to air pollution
10. Physiological and molecular responses to high, chilling and freezing temperature in plant growth and production: consequences and mitigation possibilities
11. Physiological and molecular responses to salinity due to excessive Na+ in plants
12. Physiological and molecular responses to drought, submergence and excessive watering in plants
13. Mitogen-activated protein kinase, plants and heat stress
14. Cross talk between heme oxygenase 1 and lateral root development for salt tolerance
15. Salt-tolerant plant growth promoting rhizobacteria: A new-fangled approach for improving crop yield
16. Improving resilience against drought stress among crop plants through inoculation of plant growth-promoting rhizobacteria
17. Trends in biosensors and current detection methods for stress monitoring of plants growing in adverse environmental conditions
18. Secondary metabolites for sustainable plant growth and production under adverse environment conditions
19. Medicinal plants and their pharmaceutical properties under adverse environment conditions
20. Progress and major research challenges under changing environmental conditions.