Nanotechnology for Abiotic Stress Tolerance and Management in Crop Plants
portes grátis
Nanotechnology for Abiotic Stress Tolerance and Management in Crop Plants
Pudake, Ramesh Namdeo; Gill, Sarvajeet Singh; Tripathi, Ravi Mani
Elsevier Science Publishing Co Inc
03/2024
370
Mole
Inglês
9780443185007
15 a 20 dias
Descrição não disponível.
1. Status of impact of abiotic stress on global agriculture
2. Molecular mechanism of abiotic stress regulation in crop plants
3. Introduction to fundamentals of nanoparticle synthesis, characterization, and properties
4. Role of nanotechnology in crop management
5. Molecular mechanism of nanomaterial interaction with plants
6. Role of nanoparticles to protect plant from abiotic stress by scavenging reactive oxygen species
7. Recent advances in field of plant nano nutrition
8. Nanosensors for monitoring soil parameters related to abiotic stress in plants
9. Recent advances in abiotic stress detection with help of plant wearable sensors
10. Monitoring plant health with in-planta nanosensors
11. Status and opportunities of visible detection of heavy metal ions in irrigation water using nanomaterials
12. Nanobiotechnology in genetic engineering for abiotic stress resistance in crops
13. Effect of engineered nano materials on the crop growth parameters under drought stress
14. Applications of bio-based nanomaterials in alleviation of plant abiotic stress
15. Nanozymes mediated enhancement in resistance to abiotic stress in crops
16. Genetic and physiological mechanism of nano particle-based plant growth promotion
17. Seed priming with engineered nanomaterials for mitigating abiotic stress in plants
18. Boosting of stress tolerance in crop plants with the help of bio fertilizer and nano materials
19. IOTs: Internet of Things systems for smart plant health monitoring under abiotic stresses
20. Development of stimuli-responsive nano-based formulations as an opportunity for crop stress management
2. Molecular mechanism of abiotic stress regulation in crop plants
3. Introduction to fundamentals of nanoparticle synthesis, characterization, and properties
4. Role of nanotechnology in crop management
5. Molecular mechanism of nanomaterial interaction with plants
6. Role of nanoparticles to protect plant from abiotic stress by scavenging reactive oxygen species
7. Recent advances in field of plant nano nutrition
8. Nanosensors for monitoring soil parameters related to abiotic stress in plants
9. Recent advances in abiotic stress detection with help of plant wearable sensors
10. Monitoring plant health with in-planta nanosensors
11. Status and opportunities of visible detection of heavy metal ions in irrigation water using nanomaterials
12. Nanobiotechnology in genetic engineering for abiotic stress resistance in crops
13. Effect of engineered nano materials on the crop growth parameters under drought stress
14. Applications of bio-based nanomaterials in alleviation of plant abiotic stress
15. Nanozymes mediated enhancement in resistance to abiotic stress in crops
16. Genetic and physiological mechanism of nano particle-based plant growth promotion
17. Seed priming with engineered nanomaterials for mitigating abiotic stress in plants
18. Boosting of stress tolerance in crop plants with the help of bio fertilizer and nano materials
19. IOTs: Internet of Things systems for smart plant health monitoring under abiotic stresses
20. Development of stimuli-responsive nano-based formulations as an opportunity for crop stress management
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Heat stress; drought stress; plant growth; biosensors; nanoagrochemicals; nanoformulation; nano bionics; nanobiofertilizers; nanostimulants
1. Status of impact of abiotic stress on global agriculture
2. Molecular mechanism of abiotic stress regulation in crop plants
3. Introduction to fundamentals of nanoparticle synthesis, characterization, and properties
4. Role of nanotechnology in crop management
5. Molecular mechanism of nanomaterial interaction with plants
6. Role of nanoparticles to protect plant from abiotic stress by scavenging reactive oxygen species
7. Recent advances in field of plant nano nutrition
8. Nanosensors for monitoring soil parameters related to abiotic stress in plants
9. Recent advances in abiotic stress detection with help of plant wearable sensors
10. Monitoring plant health with in-planta nanosensors
11. Status and opportunities of visible detection of heavy metal ions in irrigation water using nanomaterials
12. Nanobiotechnology in genetic engineering for abiotic stress resistance in crops
13. Effect of engineered nano materials on the crop growth parameters under drought stress
14. Applications of bio-based nanomaterials in alleviation of plant abiotic stress
15. Nanozymes mediated enhancement in resistance to abiotic stress in crops
16. Genetic and physiological mechanism of nano particle-based plant growth promotion
17. Seed priming with engineered nanomaterials for mitigating abiotic stress in plants
18. Boosting of stress tolerance in crop plants with the help of bio fertilizer and nano materials
19. IOTs: Internet of Things systems for smart plant health monitoring under abiotic stresses
20. Development of stimuli-responsive nano-based formulations as an opportunity for crop stress management
2. Molecular mechanism of abiotic stress regulation in crop plants
3. Introduction to fundamentals of nanoparticle synthesis, characterization, and properties
4. Role of nanotechnology in crop management
5. Molecular mechanism of nanomaterial interaction with plants
6. Role of nanoparticles to protect plant from abiotic stress by scavenging reactive oxygen species
7. Recent advances in field of plant nano nutrition
8. Nanosensors for monitoring soil parameters related to abiotic stress in plants
9. Recent advances in abiotic stress detection with help of plant wearable sensors
10. Monitoring plant health with in-planta nanosensors
11. Status and opportunities of visible detection of heavy metal ions in irrigation water using nanomaterials
12. Nanobiotechnology in genetic engineering for abiotic stress resistance in crops
13. Effect of engineered nano materials on the crop growth parameters under drought stress
14. Applications of bio-based nanomaterials in alleviation of plant abiotic stress
15. Nanozymes mediated enhancement in resistance to abiotic stress in crops
16. Genetic and physiological mechanism of nano particle-based plant growth promotion
17. Seed priming with engineered nanomaterials for mitigating abiotic stress in plants
18. Boosting of stress tolerance in crop plants with the help of bio fertilizer and nano materials
19. IOTs: Internet of Things systems for smart plant health monitoring under abiotic stresses
20. Development of stimuli-responsive nano-based formulations as an opportunity for crop stress management
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
