Department of Botany, University of Toronto, Ontario, Canada M5S 1A1.
Plant Physiol. 1977 Nov;60(5):662-5. doi: 10.1104/pp.60.5.662.
The relative magnitudes of the hydraulic resistances, water capacities, and water potential equilibration time constants for the single cell, for the apoplast, and for the symplast in higher plant tissue are assessed. Swelling of beetroot (Beta vulgaris, var. ;Detroit Red') storage tissue sections in pure water is measured using a displacement transducer. This method of measurement avoids the difficulty of solute diffusion in the apoplast. Theoretical analysis of the experimental results shows that the main path of water flow into the tissue is the apoplast rather than the symplast, that the main resistance to water flow into the cells is usually the cell membrane rather than the apoplast, but that in some cases the apoplast resistance and water capacity can contribute significantly to the water potential equilibration time constant of the tissue.
评估了单个细胞、质外体和高等植物组织共质体的水力阻力、水容量和水势平衡时间常数的相对大小。使用位移传感器测量了在纯水中甜菜根(Beta vulgaris,var. ;Detroit Red')贮藏组织切片的膨胀。这种测量方法避免了质外体中溶质扩散的困难。对实验结果的理论分析表明,水流入组织的主要途径是质外体而不是共质体,水流入细胞的主要阻力通常是细胞膜而不是质外体,但在某些情况下,质外体阻力和水容量可以显著影响组织的水势平衡时间常数。