Influence of the Level of Nitrate Nutrition on Ion Uptake and Assimilation, Organic Acid Accumulation, and Cation-Anion Balance in Whole Tomato Plants

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RESUMO

Tomato plants (Lycopersicon esculentum L. var. Ailsa Craig) were grown in water culture in nutrient solution in a series of 10 increasing levels of nitrate nutrition. Using whole plant data derived from analytical and yield data of individual plant parts, the fate of anion charge arising from increased NO3 assimilation was followed in its distribution between organic anion accumulation in the plant and OH− efflux into the nutrient solution as calculated by excess anion over cation uptake. With increasing NO3 nutrition the bulk of the anion charge appeared as organic anion accumulation in the plants. OH− efflux at a maximum accounted for only 20% of the anion charge shift. The major organic anion accumulated in response to nitrate assimilation was malate. The increase in organic anion accumulation was paralleled by an increase in cation concentration (K+, Ca2+, Mg2+, Na+). Total inorganic anion levels (NO3−, SO42−, H2PO4−, Cl−) were relatively constant. The effect of increasing NO3 nutrition in stimulating organic anion accumulation was much more pronounced in the tops than in the roots.

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