黄瓜和盐

Q3 Agricultural and Biological Sciences

Australian Journal of Crop Science Pub Date : 2023-07-01 DOI:10.21475/ajcs.23.17.06.p3915

Bayan Al-Momany, Saeid Abu-Romman

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引用次数: 0

摘要

盐度在全球范围内变得越来越大。土壤盐碱化对干旱半干旱地区蔬菜作物的生产提出了巨大的挑战。黄瓜(Cucumis sativus L.)是全球第四大蔬菜作物。本文综述了黄瓜对盐胁迫的复杂网络效应，以及黄瓜对盐胁迫的反应方式。盐胁迫对黄瓜几乎所有生长阶段和产量构成抑制。Na+和/或Cl-离子在黄瓜组织中的积累扰乱了其他离子的吸收，导致离子失衡，影响气孔的开放。然而，土壤中高水平的NaCl抑制了根介质中的水分吸收，使黄瓜面临渗透胁迫。渗透胁迫通过改变酶活性广泛地中断代谢途径。离子胁迫和渗透胁迫都能诱导活性氧在黄瓜组织中积累。ROS通过降低总叶绿素水平和降解PSII以及破坏类囊体膜直接抑制光合作用。最终，nacl胁迫抑制了黄瓜种子萌发、根、芽生长发育、果实品质和产量

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Cucumber and salinity

Salinity is becoming more expanded globally. Soil salinity imposes a great challenge for vegetable-crops production in arid and semiarid regions. Cucumber (Cucumis sativus L.) is the fourth most important vegetable crop worldwide. In this review, we discuss the complex network of effects, and the ways cucumber responds to salinity. Salt stress inhibits almost all growth phases and yield components of cucumber. Accumulation of Na+ and/or Cl- ions in cucumber tissues disturbs the absorption of other ions causing ionic imbalance which affect stomatal opening. Nevertheless, high levels of NaCl in soil inhibit water uptake in the root medium exposing cucumber to osmotic stress. Osmotic stress broadly interrupts metabolic pathways by altering enzymatic activity. Both, ionic and osmotic stresses induce ROS amassing in cucumber tissues. ROS directly constrain photosynthesis by decreasing levels of total chlorophyll and degrading PSII as well as corrupting thylakoid membranes. Ultimately, NaCl-induced stress inhibits cucumber seed germination, roots and shoots growth and development, fruit quality and yield production

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