Plants under drought stress environment, the structure of adaptive changes in plant drought stress mark antagonist characteristics.
植物干旱环境胁迫下的结构适应性变化是植物颉颃干旱逆境的标志性特征。
With the research of chlorophyll fluorescence parameters may reflect the energy utilization in photosynthetic reaction center and changes of biological activity when the plants under drought stress.
结合叶绿素荧光参数的研究,可以反映出当植物受到干旱胁迫时,光合反应中心的能量利用情况和生物活性的变化。
This article explains the relation between plants and polyamines content under the adverse circumstances of drought percolation, water content, salt and temperature stress.
本文介绍了植物在干旱渗透、水分、盐和温度胁迫等几种逆境中与多胺的含量关系。
In plants under drought conditions, results showed that: in most metrics, the grassland than 1 Longmu 801, outstanding performance, reflecting its excellent anti-stress quality.
在盆栽干旱条件下,结果表明:在多数测量指标中,草原1号优于龙牧801,表现优异,体现了其优良的抗逆境品质。
Importantly, transgenic plants accumulated higher fresh weight under long-term osmotic stress, and also have shown retention of more water than the wild type during drought stress.
更重要的是,与野生型相比,转基因植株在长期的渗透胁迫下会积累更高的鲜重,同时在干旱胁迫中能够保留更多的水分。
Importantly, transgenic plants accumulated higher fresh weight under long-term osmotic stress, and also have shown retention of more water than the wild type during drought stress.
更重要的是,与野生型相比,转基因植株在长期的渗透胁迫下会积累更高的鲜重,同时在干旱胁迫中能够保留更多的水分。
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