Engineered Nanomaterials for Sustainable Agricultural Production, Soil Improvement and Stress Management: Plant Biology, sustainability and climate change
Editat de Azamal Husenen Limba Engleză Paperback – 24 iul 2022
In addition, the book includes an international representation of authors who have crafted chapters with clarity, reviewing up-to-date literature with lucid illustrations. It will be an important resource for researchers, nanobiotechnologists, agriculturists and horticulturists who need a comprehensive reference guide.
- Broadens the role of smart engineered (carbon, fullerene or metal based, and more) nanomaterials, with up-to-date literature and practical illustrations
- Equips readers with information on a number of morpho-physiological, biochemical, molecular phenomenon, and smart agricultural production
- Enriches our understanding of various smart crop plants resilient to abiotic and biotic stresses in terms of nanomaterials exposure
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Specificații
ISBN-13: 9780323919333
ISBN-10: 0323919332
Pagini: 546
Ilustrații: 170 illustrations (50 in full color)
Dimensiuni: 191 x 235 mm
Greutate: 0.93 kg
Editura: ELSEVIER SCIENCE
Seria Plant Biology, sustainability and climate change
ISBN-10: 0323919332
Pagini: 546
Ilustrații: 170 illustrations (50 in full color)
Dimensiuni: 191 x 235 mm
Greutate: 0.93 kg
Editura: ELSEVIER SCIENCE
Seria Plant Biology, sustainability and climate change
Public țintă
Researchers and academics as agronomists, agriculturists, plant scientists, biotechnologists, and those who are working in the field of plant ecophysiology and environment. Researchers and master’s students in agriculture, agronomy, plant ecophysiology, toxicology, biotechnology, nanotechnology, molecular biologyCuprins
1. Emerging role of nanoparticles in sustainable agricultural crop production and protection: An overview 2. Emerging role of gold nanoparticles for healthier crop plants growth and enhanced yield 3. Emerging role of silver nanoparticles for healthier crop plants growth and enhanced yield 4. Physiological, biochemical, and molecular performance of crop plants exposed to cerium oxide nanoparticles 5. Physiological, biochemical, and molecular performance of crop plants exposed to zinc oxide nanoparticles 6. Physiological, biochemical, and molecular performance of crop plants exposed to copper oxide nanoparticles 7. Physiological, biochemical, and molecular performance of crop plants exposed to titanium oxide nanoparticles 8. Physiological, biochemical, and molecular performance of crop plants exposed to iron oxide nanoparticles 9. Physiological, biochemical, and molecular performance of crop plants exposed to aluminium oxide nanoparticles 10. Effect of chitosan nanoparticles on crop plants growth and physiology 11. Assessment of carbon and fullerene nanomaterials for sustainable crop plants growth and production 12. Role of nanocomposite for sustainable crop plants growth and production 13. Emerging concept of nanofertilizers for sustainable crop plants growth and production 14. Engineered nanomaterials in crop plants drought stress management 15. Engineered nanomaterials in crop plants salinity stress management 16. Engineered nanomaterials in crop plants temperature/heat stress management: A new-fangled approach 17. Engineered nanomaterials in crop plants nutrients stress management 18. Emerging concept of engineered nanomaterials in soil improvement for higher crop plants growth and production 19. Emerging concept of smart engineered nanomaterials for plant disease diagnosis and management 20. Nanosensors: A tool from the vault of science for crop plants growth, development, production and protection