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Nanoenabled Enhancement of Plant Tolerance to Heat and Drought Stress on Molecular Response.

Weichen ZhaoZhangguo WuMeseret AmdeGuikai ZhuYujing WeiPingfan ZhouQinghua ZhangMaoyong SongZhiqiang TanPeng ZhangYuKui RuiIseult Lynch
Published in: Journal of agricultural and food chemistry (2023)
Global warming has posed significant pressure on agricultural productivity. The resulting abiotic stresses from high temperatures and drought have become serious threats to plants and subsequent global food security. Applying nanomaterials in agriculture can balance the plant's oxidant level and can also regulate phytohormone levels and thus maintain normal plant growth under heat and drought stresses. Nanomaterials can activate and regulate specific stress-related genes, which in turn increase the activity of heat shock protein and aquaporin to enable plants' resistance against abiotic stresses. This review aims to provide a current understanding of nanotechnology-enhanced plant tolerance to heat and drought stress. Molecular mechanisms are explored to see how nanomaterials can alleviate abiotic stresses on plants. In comparison with organic molecules, nanomaterials offer the advantages of targeted transportation and slow release. These advantages help the nanomaterials in mitigating drought and heat stress in plants.
Keyphrases
  • heat stress
  • plant growth
  • heat shock
  • climate change
  • heat shock protein
  • arabidopsis thaliana
  • human health
  • genome wide identification
  • risk assessment
  • public health
  • cell wall
  • anti inflammatory