贮藏条件对种子变质和老化的影响:如何提高种子寿命

Seeds Pub Date : 2024-01-09 DOI:10.3390/seeds3010005
Françoise Corbineau
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引用次数: 0

摘要

种子可分为以下几类:正统种子,即能忍受脱水的种子;顽固种子,即含水量高且无法承受强烈干燥的种子;或中间种子,即能忍受脱水但在低温干燥储存期间死亡的种子。种子的寿命取决于种子的类别,不同物种的种子寿命也不尽相同。正统种子活力和存活率的丧失速度主要取决于温度和种子含水量(MC);MC 和贮藏温度越低,寿命越长。最终,在液氮中贮藏或通过适应性强的工艺进行种子超干燥应可实现长期贮藏。正统种子的老化与多种形式的细胞和新陈代谢损伤(膜完整性、能量代谢以及 DNA、RNA 和蛋白质损伤)有关,其中活性氧在其中发挥着重要作用。有趣的是,打底处理可以通过恢复抗氧化系统来重振老化种子。顽固种子的贮藏非常困难,因为它们必须放置在潮湿的培养基中以避免脱水,而且温度要低到足以防止发芽,但又要高到足以避免冷害。有必要更好地了解老化所涉及的机制,以确定标记,从而估计种子的寿命。
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The Effects of Storage Conditions on Seed Deterioration and Ageing: How to Improve Seed Longevity
Seeds are classified as either: orthodox, seeds that tolerate dehydration; recalcitrant, seeds that are high in moisture content and cannot withstand intensive desiccation; or intermediate, seeds that survive dehydration but die during dry storage at low temperatures. Seed lifespan depends on the seed category and also varies from one species to another. The rate of loss of vigor and viability of orthodox seeds depends mainly on temperature and seed moisture content (MC); the lower the MC and storage temperature, the longer the longevity. Ultimately, storage in liquid nitrogen or seed ultra-drying by well-adapted processes should allow for long-term storage. The ageing of orthodox seeds is associated with numerous forms of cellular and metabolic damage (membrane integrity, energy metabolism, and the impairment of DNA, RNA, and proteins) in which reactive oxygen species play a prominent role. Interestingly, priming treatment can reinvigorate aged seeds by restoring the antioxidant systems. The storage of recalcitrant seeds is very difficult since they must be placed in a wet medium to avoid dehydration and at temperatures low enough to prevent germination but warm enough to avoid chilling injury. A better understanding of the mechanisms involved in ageing is necessary to identify markers in order to estimate seed longevity.
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