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Silicon Differently Affects Apoplastic Binding of Excess Boron in Wheat and Sunflower Leaves.

Jasna SavicJelena PavlovicMilos StanojevicPredrag BosnicLjiljana Kostic KravljanacNina NikolicMiroslav Nikolic
Published in: Plants (Basel, Switzerland) (2023)
Monocots and dicots differ in their boron (B) requirement, but also in their capacity to accumulate silicon (Si). Although an ameliorative effect of Si on B toxicity has been reported in various crops, differences among monocots and dicots are not clear, in particular in light of their ability to retain B in the leaf apoplast. In hydroponic experiments under controlled conditions, we studied the role of Si in the compartmentation of B within the leaves of wheat ( Triticum vulgare L.) as a model of a high-Si monocot and sunflower ( Helianthus annuus L.) as a model of a low-Si dicot, with the focus on the leaf apoplast. The stable isotopes 10 B and 11 B were used to investigate the dynamics of cell wall B binding capacity. In both crops, the application of Si did not affect B concentration in the root, but significantly decreased the B concentration in the leaves. However, the application of Si differently influenced the binding capacity of the leaf apoplast for excess B in wheat and sunflower. In wheat, whose capacity to retain B in the leaf cell walls is lower than in sunflower, the continuous supply of Si is crucial for an enhancement of high B tolerance in the shoot. On the other hand, the supply of Si did not contribute significantly in the extension of the B binding sites in sunflower leaves.
Keyphrases
  • room temperature
  • cell wall
  • stem cells
  • binding protein