Cucumber (Cucumis sativus L.) plants were precultured for 7 days in either optimal (10 μm) or low (0.5 μm) Fe conditions and then grown for further 5 days in a N-free nutrient solution with (+Fe) or without (-Fe) 10 μm Fe. Thereafter NO3 - (4 mm) was added to the nutrient solution for 24 h and, concomitantly, half of the -Fe plants were treated with 1 μm Fe complexed to water extractable humic substances (WEHS). Supply of NO 3 - to +Fe-N-deprived plants caused a large induction in the capacity to take up the anion by roots, which was accompanied by a rise in root-shoot NO3 - concentration. The -Fe plants showed a lower level of induction of NO3 - uptake and hence a lower accumulation of the anion in the tissues, these effects being reversed by supply of Fe-WEHS. Supply of either NO3 -- or NH4 +-N (+/- Fe-WEHS) to -Fe plants promoted the development of the root FeIII-chelate reductase activity, but the capacity of roots to take up the Fe2+ remained unaffected. Results show that an inadequate Fe supply can limit the acquisition of NO3 -, whereas NO 3 - supply can affect Fe uptake by influencing the development and maintenance of a high FeIII-chelate reducing capacity. © CSIRO 2007.

Short-term interactions between nitrate and iron nutrition in cucumber

Nikolic M.;Pinton R
2007-01-01

Abstract

Cucumber (Cucumis sativus L.) plants were precultured for 7 days in either optimal (10 μm) or low (0.5 μm) Fe conditions and then grown for further 5 days in a N-free nutrient solution with (+Fe) or without (-Fe) 10 μm Fe. Thereafter NO3 - (4 mm) was added to the nutrient solution for 24 h and, concomitantly, half of the -Fe plants were treated with 1 μm Fe complexed to water extractable humic substances (WEHS). Supply of NO 3 - to +Fe-N-deprived plants caused a large induction in the capacity to take up the anion by roots, which was accompanied by a rise in root-shoot NO3 - concentration. The -Fe plants showed a lower level of induction of NO3 - uptake and hence a lower accumulation of the anion in the tissues, these effects being reversed by supply of Fe-WEHS. Supply of either NO3 -- or NH4 +-N (+/- Fe-WEHS) to -Fe plants promoted the development of the root FeIII-chelate reductase activity, but the capacity of roots to take up the Fe2+ remained unaffected. Results show that an inadequate Fe supply can limit the acquisition of NO3 -, whereas NO 3 - supply can affect Fe uptake by influencing the development and maintenance of a high FeIII-chelate reducing capacity. © CSIRO 2007.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11390/850688
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