Differences in the physiological state between triticale and maize plants during drought stress and followed rehydration expressed by the leaf gas exchange and spectrofluorimetric methods |
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Authors: | Tomasz Hura Stanis?aw Grzesiak Katarzyna Hura Maciej Grzesiak Andrzej Rzepka |
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Institution: | (1) The Franciszek Górski Institute of Plant Physiology, Polish Academy of Sciences, Niezapominajek 21, 30-239 Kraków, Poland;(2) Department of Plant Physiology, Faculty of Agriculture and Economics, Agricultural University of Cracow, Podłużna 3, 30-239 Kraków, Poland;(3) Department of Plant Physiology, Pedagogical Academy, 2 Podbrzezie, 30-054 Kraków, Poland |
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Abstract: | The studies were carried out in order to estimate differences in the physiological state between triticale and maize plants
subjected to drought stress followed by rehydration. The physiological state of the plants was evaluated by measurements of
leaf water potential, net photosynthesis, transpiration and stomatal conductance. Spectrofluorimetric methods for the study
of blue, green and red fluorescence were applied.
We observed that the soil drought induced a greater water loss in triticale leaves than in maize and consequently caused greater
injuries to the photosynthetic apparatus. Moreover, triticale plant recovery was slower than in maize plants during the rehydration
phase. The effect was probably connected with the higher functional and structural disorganisation of the photosynthetic apparatus
observed during drought stress in triticale. Water stress is responsible for damages to photosystem PS II. The worst light
utilisation in photosynthetic light conversion was recorded as an increase in the intensity of red fluorescence. Drought stress
induced a strong increase in the intensity of blue and green fluorescence in the studied species and it was still high in
maize plants during the first day of rehydration. Increase in the intensity of blue and green fluorescence in maize seems
to be the effect of the photoprotection mechanism which prevents damage to PS II through utilisation of excess energy. |
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Keywords: | blue and green fluorescence drought maize photosynthesis red fluorescence triticale water potential |
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