| Abstract: | Smith, J. A. C. and Nobel, P. S. 1986. Water movement and storagein a desert succulent: anatomy and rehydration kinetics forleaves of Agave deserti.—J. exp. Bot. 37: 1044–1053. Anatomic and kinetic aspects of water storage were investigatedfor the succulent leaves of the desert CAM plant, Agave deserti.An approximately linear relationship was found between the numberof vascular bundles and leaf surface area, both for leaves ofdifferent sizes and also along the length of a single leaf.The bundles, which were distributed throughout the leaf cross-section,were separated from each other by about eight water-storagecells. Even though the cell walls of the water-storage groundtissue made up only 2?5% of the cell volume, they provided about10% of the total cross-sectional area available for water transportradial to the xylem because cell-cell contact in such a directionaveraged 25% of the cell surface area. The rehydration kineticsof partially dehydrated leaf segments were resolved into threephases: (1) a relatively rapid movement into the vascular tissue(half-time of 2 min); (2) water movement into storage in theground tissue (half-time of 59 min); and (3) water movementinto the intercellular air spaces (half-time of about 10 h).Using the observed kinetics for water movement into the storagetissue and standard diffusion theory, the bulk-averaged diffusivityof water in the relatively homogeneous ground tissue (D1) was2?0 ? 10–10 m2 s–1 Using this (D1) and pathway analysis,most of the water moving from the xylem into storage in themassive leaves of A. deserti apparently occurred from cell tocell across the cell membranes rather than through the cellwalls. Key words: Agave deserti, capacitance, diffusivity, leaf anatomy, succulence, water storage |
