Leaf relative water content of nitrogen fertilizer treatments had no distinct difference, when soil relative water content was 80%q.
土壤相对含水量80% Q时,各施氮处理叶片相对含水量差异不大。
Moreover, it can increase leaf relative water content (RWC) and photosynthesis characteristic while under drought stress, for which it has a promising prospect.
在干旱胁迫下,能有效提高叶片含水量,增强植物的光合特性,因此具有良好的发展前景。
Cell sap concentration and relative water content of leaf change with the irrigation maximum chanage, that can show condition of plant water.
细胞汁液浓度、相对含水量对土壤含水量十分敏感,其含量可以反映植株叶片水分状况。
Shanyou 63. Half-dried treatment had little influence on leaf water potential and relative water content but endogenous ABA content of leaves and grains significantly increased.
当一半根系受干旱胁迫时,叶片的水势和相对含量变化很小,但叶片和籽粒内aba的含量显著增加。
Shanyou 63. Half-dried treatment had little influence on leaf water potential and relative water content but endogenous ABA content of leaves and grains significantly increased.
当一半根系受干旱胁迫时,叶片的水势和相对含量变化很小,但叶片和籽粒内aba的含量显著增加。
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