Nanomaterial-Plant Dynamics

Chapter 1: Understanding The Transport, Toxicity, And Risk Assessment of Nanoparticles And Engineered Nanoparticles In Plants.- Chapter 2: Phytotoxic Effects of Nanomaterials: Understanding Risks For Sustainable Agriculture.- Chapter 3: Metal And Metal-Oxide Nanoparticles In Seed Priming: A Novel Route For Sustainable Agriculture.- Chapter 4: Crossroads of Innovation And Risk: Ecotoxicological Perspectives On Nanomaterials In Plant-Associated Organism.- Chapter 5: Nanotechnology Interventions In Cereal Crops: Towards Sustainable Food Security.- Chapter 6: The Effect of Metallic Nanoparticles On The Metabolic Processes of Populus Species, Including Development, Growth, Physiology, Defense And Phytoremediation Activities.- Chapter 7: Nanomaterial Interactions In Plant Biotechnology: Insights From Tissue Culture And Stress Physiology.- Chapter 8: Environmental Fate of Nanomaterials: Soil and Water Interactions.- Chapter 9: Nano-Enabled Modulation of Soil Fertility And Plant Nutrition Under Environmental (Drought, Temperature, And Salinity) Stresses: Mechanisms And Risks.- Chapter 10: Impact of Nanomaterials On Gene Expression In Crop Plants.- Chapter 11: The Use of Selenium Nanoparticles (Senps) In Fertilising Crop Plants.- Chapter 12: Breaking The Salt Barrier: Nanoparticle Shield For Crop Stress Tolerance.- Chapter 13: Exploring The Mechanisms of Nanomaterials In Sustainable Remediation And Toxicity Assessment Towards Improving Plant Growth And Crop Productivity .- Chapter 14: Integrating Nanomaterials Into Fertilizer Systems For Sustainable Agriculture And Human Health Protection.- Chapter 15: Nanoparticle Uptake Mechanisms And Imaging In Plants.- Chapter 16: Use of Magnetics Nanoparticles In Heavy Metal Removal.