牡丹与芍药品种的叶片在气孔频度、气孔大小等方面存在极显著差异。
并借助于计算机对三种植物的各器官各部分的气孔分布进行差异性检验和总体比较。
单纯地把气孔密度、气室大小作为抗旱指标是不正确的。
口腔粘膜鳞状细胞癌早期临床诊断与病理诊断的相关分析
1·The resistance of stomatic diffusion, evapotranspiration rate and daily progress of water potential in leaves of the four kinds of crops were determined at the same time in their heading stages.
在四种作物的抽穗期同时测定其气孔扩散阻力、蒸腾速率与叶水势日变化。
2·The best regression models (e. g. Ulmus pumila) of leaf content against air SO2 and leaf stomatic resistance could explain that the sulfur acted as pollutant entered plant mainly through stoma.
植物叶片硫含量与大气SO2和气孔阻力的回归模型说明,以污染状态进入植物体的硫,主要通过气孔进入;
3·In the plant organs, the stomatic distribution characteristics of leaf epidermis may be taken as an evidence of plant classification.
在植物不同的器官中,叶表面的气孔分布特征可以作为植物分类的佐证。