Nanoparticle transportation in plants is a growing study area with many potential uses in agriculture. A summary of the difficulties and opportunities related to nanoparticle transportation in plants is presented in this chapter, with an emphasis on the distribution techniques. The difficulties in delivering nanoparticles to plants are emphasized, highlighting the necessity of creative solutions to maximize transport effectiveness. Research on plants’ absorption and translocation methods has shown that they react differently to various kinds of nanoparticles. Nanoparticles exhibit the ability to improve plant development, absorption of nutrients, and resilience to stress because of their diverse characteristics. Although studies have demonstrated that nanoparticles may be taken by plants and affect their physiological processes, it is still unknown how exactly they are absorbed and transported. The chapter covers the future possibilities of nanoparticles as cutting-edge products in agriculture, spurring a paradigm change towards stress-resilient systems for agriculture, and gives comprehensive information on the mechanisms involved in their transportation in plants.

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Nanoparticle Transportation in Plants: Mechanistic Insights and Applications

  • Mohsen Mohamed Elsharkawy

摘要

Nanoparticle transportation in plants is a growing study area with many potential uses in agriculture. A summary of the difficulties and opportunities related to nanoparticle transportation in plants is presented in this chapter, with an emphasis on the distribution techniques. The difficulties in delivering nanoparticles to plants are emphasized, highlighting the necessity of creative solutions to maximize transport effectiveness. Research on plants’ absorption and translocation methods has shown that they react differently to various kinds of nanoparticles. Nanoparticles exhibit the ability to improve plant development, absorption of nutrients, and resilience to stress because of their diverse characteristics. Although studies have demonstrated that nanoparticles may be taken by plants and affect their physiological processes, it is still unknown how exactly they are absorbed and transported. The chapter covers the future possibilities of nanoparticles as cutting-edge products in agriculture, spurring a paradigm change towards stress-resilient systems for agriculture, and gives comprehensive information on the mechanisms involved in their transportation in plants.