干旱胁迫及恢复过程中盐渍化卡里佐枳橙幼苗的叶片水分关系和净气体交换响应
Leaf water relations and net gas exchange responses of salinized Carrizo citrange seedlings during drought stress and recovery.
作者信息
Pérez-Pérez J G, Syvertsen J P, Botía P, García-Sánchez F
机构信息
University of Florida, IFAS, Citrus Research and Education Center, 700 Experiment Station Road, Lake Alfred, FL 33850, USA.
出版信息
Ann Bot. 2007 Aug;100(2):335-45. doi: 10.1093/aob/mcm113. Epub 2007 Jun 15.
BACKGROUND AND AIMS
Since salinity and drought stress can occur together, an assessment was made of their interacting effects on leaf water relations, osmotic adjustment and net gas exchange in seedlings of the relatively chloride-sensitive Carrizo citrange, Citrus sinensis x Poncirus trifoliata.
METHODS
Plants were fertilized with nutrient solution with or without additional 100 mm NaCl (salt and no-salt treatments). After 7 d, half of the plants were drought stressed by withholding irrigation water for 10 d. Thus, there were four treatments: salinized and non-salinized plants under drought-stress or well-watered conditions. After the drought period, plants from all stressed treatments were re-watered with nutrient solution without salt for 8 d to study recovery. Leaf water relations, gas exchange parameters, chlorophyll fluorescence, proline, quaternary ammonium compounds and leaf and root concentrations of Cl(-) and Na(+) were measured.
KEY RESULTS
Salinity increased leaf Cl(-) and Na(+) concentrations and decreased osmotic potential (Psi(pi)) such that leaf relative water content (RWC) was maintained during drought stress. However, in non-salinized drought-stressed plants, osmotic adjustment did not occur and RWC decreased. The salinity-induced osmotic adjustment was not related to any accumulation of proline, quaternary ammonium compounds or soluble sugars. Net CO(2) assimilation rate (A(CO2)) was reduced in leaves from all stressed treatments but the mechanisms were different. In non-salinized drought-stressed plants, lower A(CO2) was related to low RWC, whereas in salinized plants decreased A(CO2) was related to high levels of leaf Cl(-) and Na(+). A(CO2) recovered after irrigation in all the treatments except in previously salinized drought-stressed leaves which had lower RWC and less chlorophyll but maintained high levels of Cl(-), Na(+) and quaternary ammonium compounds after recovery. High leaf levels of Cl(-) and Na(+) after recovery apparently came from the roots.
CONCLUSIONS
Plants preconditioned by salinity stress maintained a better leaf water status during drought stress due to osmotic adjustment and the accumulation of Cl(-) and Na(+). However, high levels of salt ions impeded recovery of leaf water status and photosynthesis after re-irrigation with non-saline water.
背景与目的
由于盐分和干旱胁迫可能同时发生,因此对它们对相对氯敏感的卡里佐枳橙(Citrus sinensis x Poncirus trifoliata)幼苗叶片水分关系、渗透调节和净气体交换的相互作用影响进行了评估。
方法
用含或不含额外100 mM NaCl的营养液对植株施肥(盐处理和非盐处理)。7天后,对一半植株停止灌溉10天进行干旱胁迫。因此,共有四种处理:干旱胁迫或水分充足条件下的盐化和非盐化植株。干旱期过后,对所有胁迫处理的植株用不含盐的营养液重新浇水8天以研究恢复情况。测定了叶片水分关系、气体交换参数、叶绿素荧光、脯氨酸、季铵化合物以及叶片和根系中Cl(-)和Na(+)的浓度。
主要结果
盐分增加了叶片Cl(-)和Na(+)浓度并降低了渗透势(Ψ(π)),从而在干旱胁迫期间维持了叶片相对含水量(RWC)。然而,在非盐化干旱胁迫植株中,未发生渗透调节且RWC降低。盐分诱导的渗透调节与脯氨酸、季铵化合物或可溶性糖的任何积累均无关。所有胁迫处理的叶片中净CO(2)同化率(A(CO2))均降低,但机制不同。在非盐化干旱胁迫植株中,较低的A(CO2)与低RWC有关,而在盐化植株中,A(CO2)降低与叶片中高水平的Cl(-)和Na(+)有关。除先前盐化干旱胁迫叶片外,所有处理在灌溉后A(CO2)均恢复,这些叶片RWC较低且叶绿素较少,但恢复后仍维持高水平的Cl(-)、Na(+)和季铵化合物。恢复后叶片中高水平的Cl(-)和Na(+)显然来自根系。
结论
经盐分胁迫预处理的植株由于渗透调节以及Cl(-)和Na(+)的积累,在干旱胁迫期间维持了更好的叶片水分状况。然而,高浓度的盐离子阻碍了用非盐水重新灌溉后叶片水分状况和光合作用的恢复。
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