Acclimation to long-term water deficit in the leaves of two sunflower hybrids: photosynthesis, electron transport and carbon metabolism
Апстракт
The influence of long-term water deficit on photosynthesis, electron transport and carbon metabolism of sunflower leaves has been examined. Water deficit was imposed from flower bud formation up to the stage of full flowering in the field on two sunflower hybrids with different drought tolerance. CO2 assimilation and stomatal conductance of the intact leaves, determined at atmospheric CO2 and full sunlight (1500-2000 mu mol quanta m(-2) s(-1)), decreased with water deficit, Maximum quantum efficiency of PSII (F-v/F-m) and relative quantum yield of PSII (Phi(II)) determined under similar experimental conditions, did not change significantly in severely stressed leaves. The strong inhibition of the plateau region of the light response curve, determined at high CO2 (5%) in water-deficient sunflower leaves, indicates that photosynthesis is also limited by non-stomatal factors. The decreased slope and the plateau of the CO2 response curves show that the capacity of carboxylation and RuBP re...generation decreased in severely stressed intact leaves. Rubisco specific activity decreased in severely stressed leaves, but Rubisco content increased under prolonged drought. The increase of Rubisco content was significantly higher in leaves of the drought-tolerant sunflower hybrid indicating that a higher Rubisco content could be one factor in conferring better acclimation and higher drought tolerance.
Кључне речи:
Rubisco / Helianthus annuus / gas exchange / drought tolerance / chlorophyll fluorescenceИзвор:
Journal of Experimental Botany, 1999, 50, 330, 127-138Издавач:
- OXFORD UNIV PRESS, OXFORD
Институција/група
Fakultet ekološke poljoprivredeTY - JOUR AU - Panković, Dejana AU - Sakac, Z AU - Kevresan, S AU - Plesnicar, M PY - 1999 UR - https://redun.educons.edu.rs/handle/123456789/25 AB - The influence of long-term water deficit on photosynthesis, electron transport and carbon metabolism of sunflower leaves has been examined. Water deficit was imposed from flower bud formation up to the stage of full flowering in the field on two sunflower hybrids with different drought tolerance. CO2 assimilation and stomatal conductance of the intact leaves, determined at atmospheric CO2 and full sunlight (1500-2000 mu mol quanta m(-2) s(-1)), decreased with water deficit, Maximum quantum efficiency of PSII (F-v/F-m) and relative quantum yield of PSII (Phi(II)) determined under similar experimental conditions, did not change significantly in severely stressed leaves. The strong inhibition of the plateau region of the light response curve, determined at high CO2 (5%) in water-deficient sunflower leaves, indicates that photosynthesis is also limited by non-stomatal factors. The decreased slope and the plateau of the CO2 response curves show that the capacity of carboxylation and RuBP regeneration decreased in severely stressed intact leaves. Rubisco specific activity decreased in severely stressed leaves, but Rubisco content increased under prolonged drought. The increase of Rubisco content was significantly higher in leaves of the drought-tolerant sunflower hybrid indicating that a higher Rubisco content could be one factor in conferring better acclimation and higher drought tolerance. PB - OXFORD UNIV PRESS, OXFORD T2 - Journal of Experimental Botany T1 - Acclimation to long-term water deficit in the leaves of two sunflower hybrids: photosynthesis, electron transport and carbon metabolism EP - 138 IS - 330 SP - 127 VL - 50 DO - 10.1093/jexbot/50.330.127 UR - conv_678 ER -
@article{ author = "Panković, Dejana and Sakac, Z and Kevresan, S and Plesnicar, M", year = "1999", abstract = "The influence of long-term water deficit on photosynthesis, electron transport and carbon metabolism of sunflower leaves has been examined. Water deficit was imposed from flower bud formation up to the stage of full flowering in the field on two sunflower hybrids with different drought tolerance. CO2 assimilation and stomatal conductance of the intact leaves, determined at atmospheric CO2 and full sunlight (1500-2000 mu mol quanta m(-2) s(-1)), decreased with water deficit, Maximum quantum efficiency of PSII (F-v/F-m) and relative quantum yield of PSII (Phi(II)) determined under similar experimental conditions, did not change significantly in severely stressed leaves. The strong inhibition of the plateau region of the light response curve, determined at high CO2 (5%) in water-deficient sunflower leaves, indicates that photosynthesis is also limited by non-stomatal factors. The decreased slope and the plateau of the CO2 response curves show that the capacity of carboxylation and RuBP regeneration decreased in severely stressed intact leaves. Rubisco specific activity decreased in severely stressed leaves, but Rubisco content increased under prolonged drought. The increase of Rubisco content was significantly higher in leaves of the drought-tolerant sunflower hybrid indicating that a higher Rubisco content could be one factor in conferring better acclimation and higher drought tolerance.", publisher = "OXFORD UNIV PRESS, OXFORD", journal = "Journal of Experimental Botany", title = "Acclimation to long-term water deficit in the leaves of two sunflower hybrids: photosynthesis, electron transport and carbon metabolism", pages = "138-127", number = "330", volume = "50", doi = "10.1093/jexbot/50.330.127", url = "conv_678" }
Panković, D., Sakac, Z., Kevresan, S.,& Plesnicar, M.. (1999). Acclimation to long-term water deficit in the leaves of two sunflower hybrids: photosynthesis, electron transport and carbon metabolism. in Journal of Experimental Botany OXFORD UNIV PRESS, OXFORD., 50(330), 127-138. https://doi.org/10.1093/jexbot/50.330.127 conv_678
Panković D, Sakac Z, Kevresan S, Plesnicar M. Acclimation to long-term water deficit in the leaves of two sunflower hybrids: photosynthesis, electron transport and carbon metabolism. in Journal of Experimental Botany. 1999;50(330):127-138. doi:10.1093/jexbot/50.330.127 conv_678 .
Panković, Dejana, Sakac, Z, Kevresan, S, Plesnicar, M, "Acclimation to long-term water deficit in the leaves of two sunflower hybrids: photosynthesis, electron transport and carbon metabolism" in Journal of Experimental Botany, 50, no. 330 (1999):127-138, https://doi.org/10.1093/jexbot/50.330.127 ., conv_678 .