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Nitrate-dependent O2 evolution in intact leaves

Plant Physiology (1991) 96(3) 898-901
DOI: 10.1104/pp.96.3.898
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Abstract

Evolution of O2 by illuminated intact detached leaves from barley (Hordeum vulgare L. cv Athos) and pea (Pisum sativum L. cv Lincoln) in a CO2-saturating atmosphere was enhanced when KNO3 (1-2.5 millimolar) had been previously supplied through the transpiration stream. The extra O2 evolution observed after feeding KNO3 increased with the light intensity, being maximal at near saturating photon flux densities and resulting in no changes in the initial slope of the O2 versus light-intensity curve. No stimulation of O2 evolution was otherwise observed after feeding KCl or NH4Cl. The data indicate that nitrate assimilation uses photosynthetically generated reductant and stimulates the rate of noncyclic electron flow by acting as a second electron-accepting assimilatory process in addition to CO2 fixation.

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APA

De La Torre, A., Delgado, B., & Lara, C. (1991). Nitrate-dependent O2 evolution in intact leaves. Plant Physiology, 96(3), 898–901. https://doi.org/10.1104/pp.96.3.898

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