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引用次数: 0
摘要
干旱和半干旱地区的极端条件包括干旱和盐碱化。这些因素对农业产生了深远的影响。这项工作的目的是研究干旱和再浇水对Pistacia vera 和Pistacia atlantica 的叶片气体交换、叶绿素荧光和矿物质营养的影响。对楷属和芸香属个体施加水分胁迫 23 天,然后补水 7 天。结果表明,P. vera 的水分关系、叶片气体交换和叶绿素含量明显降低。与 P. vera 相比,P. atlantica 在水分状况、叶绿素总含量、叶片气体交换和叶绿素荧光方面受到的影响较小,Zn 和 Fe 的比例稳定,K 和 Cu 甚至有所升高。叶绿素荧光参数的变化尤其表现在最大荧光(Fm)处。相反,在最小荧光(F0)时则没有变化。重新补水后,虽然两种植物的水分状况都完全恢复,但气孔导度(gs)、净光合作用(A)和蒸腾速率(E)的数值仍然低于水分充足的幼苗。亚特兰蒂斯藜对干旱胁迫的适应能力强于 vera 藜。
Effect of drought stress and subsequent re-watering on the physiology and nutrition of Pistacia vera and Pistacia atlantica.
Arid and semi-arid regions are characterised by extreme conditions including drought stress and salinity. These factors profoundly affect the agricultural sector. The objective of this work is to study the effect of drought and re-watering on leaf gas exchange, chlorophyll fluorescence and mineral nutrition in Pistacia vera and Pistacia atlantica . Water stress was applied to individuals of P. vera and P. atlantica for 23days, followed by rehydration for 7days. The results showed a clear reduction in water relations, leaf gas exchange and chlorophyll content in P. vera . Compared to P. vera , P. atlantica maintained less affected water status, total chlorophyll content, leaf gas exchange and chlorophyll fluorescence, stable Zn and Fe proportion, and even elevated K and Cu. The changes in the chlorophyll fluorescence parameter were manifested particularly at the maximal fluorescence (Fm). In contrast, no change was recorded at the minimal fluorescence (F0). After re-hydration, although water status was fully recovered in both species, stomatal conductance (gs), net photosynthesis (A ) and transpiration rate (E ) remain with lower values than the well-watered seedlings. P. atlantica was better adapted to drought stress than P. vera .
期刊介绍:
Functional Plant Biology (formerly known as Australian Journal of Plant Physiology) publishes papers of a broad interest that advance our knowledge on mechanisms by which plants operate and interact with environment. Of specific interest are mechanisms and signal transduction pathways by which plants adapt to extreme environmental conditions such as high and low temperatures, drought, flooding, salinity, pathogens, and other major abiotic and biotic stress factors. FPB also encourages papers on emerging concepts and new tools in plant biology, and studies on the following functional areas encompassing work from the molecular through whole plant to community scale. FPB does not publish merely phenomenological observations or findings of merely applied significance.
Functional Plant Biology is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.
Functional Plant Biology is published in affiliation with the Federation of European Societies of Plant Biology and in Australia, is associated with the Australian Society of Plant Scientists and the New Zealand Society of Plant Biologists.
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