| Abstract: | Hordeum vulgare cv. California Mariout was established in sandculture at two different NaCl concentrations (0.5 mol m–3‘control’ and 100 mol m–3) in the presenceof 6.5 mol m–3 K +. Between 16 and 31 d after germination,before stem elongation started, xylem sap was collected by useof a pressure chamber. Collections were made at three differentsites on leaves 1 and 3: at the base of the sheath, at the baseof the blade, i.e. above the ligule, and at the tip of the blade.Phloem sap was collected from leaf 3 at similar sites throughaphid stylets. The concentrations of K +, Na+, Mg2+ and Ca2+were measured. Ion concentrations in xylem sap collected at the base of leaves1 and 3 were identical, indicating there was no preferentialdelivery of specific ions to older leaves. All ion concentrationsin the xylem decreased from the base of the leaf towards thetip; these gradients were remarkably steep for young leaves,indicating high rates of ion uptake from the xylem. The gradientsdecreased with leaf age, but did not disappear completely. In phloem sap, concentrations of K+ and total osmolality declinedslightly from the tip to the base of leaves of both controland salt-treated plants. By contrast, Na+ concentrations inphloem sap collected from salt-treated plants decreased drasticallyfrom 21 mol m–3 at the tip to 7.5 mol m–3 at thebase. Data of K/Na ratios in xylem and phloem sap were used to constructan empirical model of Na+ and K+ flows within xylem and phloemduring the life cycle of a leaf, indicating recirculation ofNa+ within the leaf. Key words: Hordeum vulgare, xylem transport, phloem transport, NaCl-stress |
