盐度升高对肉质苏拉光合作用的影响主要是气孔效应

JOURNAL OF OASIS AGRICULTURE AND SUSTAINABLE DEVELOPMENT Pub Date : 2023-11-28 DOI:10.56027/joasd.322023

Ellouzi Hasna, M. Rabhi

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摘要

将 Sulla carnosa Desf.植株置于 0、100、200 和 300 mM NaCl 中 40 天。即使在 300 mM NaCl 的条件下，叶片和茎的生长以及根和叶的含水量也没有受到影响，这证实了该物种的盐生特性。根中 Na+ 的积累和叶中更高浓度的 Na+ 以及 K+ 浓度的下降表明，Na+ 作为一种廉价的渗透调节剂参与了渗透调节。这种典型的盐生反应以及气孔关闭导致的蒸腾速率降低，可以解释肉质红豆杉维持水分状态的能力。有趣的是，气孔对光合作用活动的限制并不影响 Fv/Fm、F0 和 PSII 在光化学过程[Y(II)]、调节性非光化学淬灭[Y(NPQ)]和非调节性非光化学淬灭[Y(NO)]中的能量分配，这表明这种卤叶植物有很强的能力应对超出其光合作用需求的能量。

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The effects of increasing salinity levels on Sulla carnosa photosynthesis are mainly of stomatal nature

Sulla carnosa Desf. plants were subjected to 0, 100, 200, and 300 mM NaCl for 40 days. Leaf and stem growth as well as root and leaf water contents were not affected even at 300 mM NaCl, confirming the halophytic nature of this species. An accumulation of Na+ in roots and at a higher magnitude in leaves together with a decline in K+ concentrations suggest that Na+ involvement in osmotic adjustment as a cheap osmoticum. This typical halophytic response together with the reduced transpiration rate by stomata closure may explain the ability of S. carnosa to maintain its water status. Interestingly, the stomatal limitations of photosynthetic activity did not affect Fv/Fm, F0, and PSII energy distribution to photochemical process [Y(II)], regulated non-photochemical quenching [Y(NPQ)], and non- regulated non-photochemical quenching [Y(NO)], which suggests a high ability of this halophyte to cope with the energy expected to exceed the demand for its photosynthesis.

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JOURNAL OF OASIS AGRICULTURE AND SUSTAINABLE DEVELOPMENT

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