1. The importance of nutritional regulation of plant water flux.
- Author
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Cramer, Michael D., Hawkins, Heidi-Jayne, and Verboom, G. Anthony
- Subjects
PHOTOSYNTHESIS ,STOMATA ,LEAVES ,PLANT transpiration ,AQUAPORINS ,PLANT hormones - Abstract
Transpiration is generally considered a wasteful but unavoidable consequence of photosynthesis, occurring because water is lost when stomata open for CO
2 uptake. Additionally, transpiration has been ascribed the functions of cooling leaves, driving root to shoot xylem transport and mass flow of nutrients through the soil to the rhizosphere. As a consequence of the link between nutrient mass flow and transpiration, nutrient availability, particularly that of NO3 − , partially regulates plant water flux. Nutrient regulation of transpiration may function through the concerted regulation of: (1) root hydraulic conductance through control of aquaporins by NO3 − , (2) shoot stomatal conductance ( gs ) through NO production, and (3) pH and phytohormone regulation of gs . These mechanisms result in biphasic responses of water flux to NO3 − availability. The consequent trade-off between water and nutrient flux has important implications for understanding plant distributions, for production of water use-efficient crops and for understanding the consequences of global-change-linked CO2 suppression of transpiration for plant nutrient acquisition. [ABSTRACT FROM AUTHOR]- Published
- 2009
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