玉米幼苗受淹水胁迫导致根系缺氧。
Submergence stress result in oxygen limitation in maize roots.
SUB1C在不同的单倍体型中都存在,在受到淹水胁迫后作用于增强GA应答的下游。
SUB1C is invariably present and acts downstream of the enhancement of GA responsiveness during submergence.
采用焦锑酸钾沉淀法,对遭受淹水胁迫的玉米幼苗初生根根尖分生细胞内钙离子分布变化情况进行了电镜细胞化学观察。
Potassium antimonate was employed to ultrastructurally locate calcium ions in seminal root apical meristematic cells of maize seedings subjected to flooding stress.
结果表明:淹水胁迫下,不同树种的相对电导率及丙二醛含量均呈上升趋势,而游离脯氨酸含量的变化则存在显著差异。
The results showed that electric conductivity and MDA content of different tree species had the trend of increment, but the change of proline content was varied under waterlogging stress.
因此,SUB1A除了增强水稻对淹水胁迫的耐受性外,还提高了水稻在干旱缺水和解除涝害引发的快速脱水时的存活率。
Therefore, in addition to providing robust submergence tolerance, SUB1A improves survival of rapid dehydration following desubmergence and water deficit during drought.
中等供水处理扦插苗在水分利用效率、苗木生长及生物量方面,显著高于淹水和干旱胁迫处理。
On water use efficiency, growth and biomass accumulation of seedlings, the seedlings under intermediate water supply treatment are better than those of flooding and drought treatment.
中度、重度干旱胁迫和淹水条件下,中性转化酶、酸性转化酶和蔗糖合成酶降低,蛋白酶活性增加。
In moderate and high drought stress and waterlogging conditions, neutral invertase, acid invertase and sucrose synthase activity reduced and protease activity enhanced.
干旱胁迫条件下,插穗生根率不如中等供水处理和淹水处理。
Under drought stress condition, rooting percent is smaller than that of intermediate water supply treatment and flooding treatment.
红树植物的胎生现象是对潮间带盐胁迫、淹水、土壤缺氧和潮水冲击等综合生境的适应,而不是单独其中一种胁迫因子的适应。
Vivipary in mangrove plants is an adaptation to the integrated stresses of salt, waterlogging and tide, but not any single stress.
红树植物的胎生现象是对潮间带盐胁迫、淹水、土壤缺氧和潮水冲击等综合生境的适应,而不是单独其中一种胁迫因子的适应。
Vivipary in mangrove plants is an adaptation to the integrated stresses of salt, waterlogging and tide, but not any single stress.
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