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Mechanistic insight on boron-mediated toxicity in plant vis-a-vis its mitigation strategies: a review.

Biswaranjan BeheraMrunalini KanchetiMohammed Basit RazaAalok ShivVikas MangalGajendra RathodMuhammad Ahsan AltafAwadhesh KumarTariq AftabMilan Kumar LalRahul Kumar TiwariMuhammad Adnan ShahidBrajesh Singh
Published in: International journal of phytoremediation (2022)
Boron (B) is an essential micronutrient, crucial for the growth and development of crop plants. However, the essential to a toxic range of B in the plant is exceptionally narrow, and symptoms develop with a slight change in its concentration in soil. The morphological and anatomical response, such as leaf chlorosis, stunted growth, and impairment in the xylem and phloem development occurs under B-toxicity. The transport of B in the plant occurs via transpiration stream with the involvement of B-channels and transporter in the roots. The higher accumulation of B in source and sink tissue tends to have lower photosynthetic, chlorophyll content, infertility, failure of pollen tube formation and germination, impairment of cell wall formation, and disruption of membrane systems. Excess B in the plant hinders the uptake of other micronutrients, hormone transport, and metabolite partitioning. B-mediated reactive oxygen species production leads to the synthesis of antioxidant enzymes which help to scavenge these molecules and prevent the plant from further oxidative damage. This review highlights morpho-anatomical, physiological, biochemical, and molecular responses of the plant under B toxicity and thereby might help the researchers to understand the related mechanism and design strategies to develop B tolerant cultivars.
Keyphrases
  • cell wall
  • oxidative stress
  • reactive oxygen species
  • plant growth
  • type diabetes
  • metabolic syndrome
  • depressive symptoms
  • insulin resistance
  • arabidopsis thaliana