Handbook of Plant and Crop Physiology

(Steven Felgate) #1

  1. CPL Grof, M Johnston, PF Brownell. Effect of sodium nutrition on the ultrastructure of chloroplasts of C 4
    plants. Plant Physiol 89:539–543, 1989.

  2. D Ohta, T Matoh, E Takahashi. Early responses of sodium-deficient Amaranthus tricolorL. plants to sodium
    application. Plant Physiol 84:112–117, 1987.

  3. D Ohta, S Yasuoka, T Matoh, E Takahashi. Sodium stimulates growth of Amaranthus tricolorL. plants through
    enhanced nitrate assimilation. Plant Physiol 89:1102–1105, 1989.

  4. TC Hsiao, A Lauchli. Role of potassium in plant-water relations. Adv Plant Nutr 2:281–312, 1986.

  5. HJ Evans, GJ Sorger. Role of mineral elements with emphasis on the univalent cations. Annu Rev Plant Phys-
    iol 17:47–76, 1966.

  6. RG Wyn Jones, A Pollard. Proteins, enzymes and inorganic ions. In: DL Laidman, RG Wyn Jones eds. Ency-
    clopedia of Plant Physiology, New Series, Vol 15B, Berlin: Springer-Verlag, 1983, pp 528–562.

  7. WS Pierce, N Higinbotham. Compartments and fluxes of K, Naand ClinAvenacoleoptile cells. Plant
    Physiol 46:660–673, 1970.

  8. TS Gibson, J Spiers, CJ Brady. Salt-tolerance in plants. II. In vitro translation of mRNAs from salt-tolerant and
    salt-sensitive plants on wheat germ ribosomes. Responses to ions and compatible organic solutes. Plant Cell
    Environ 7:579–587, 1984.

  9. RA Leigh, RG Wyn Jones. Cellular compartmentation in plant nutrition: the selective cytoplasm and the
    promiscuous vacuole. Adv Plant Nutr 2:249–279, 1986.

  10. GJ Wagner. Compartmentation in plant cells: the role of the vacuole. In: LL Creasy, G Hrazdina, eds. Cellular
    and Subcellular Localization in Plant Metabolism. New York: Plenum, 1982, pp 1–45.

  11. A Lauchli, R Pfluger. Potassium transport through plant cell membranes and metabolic role of potassium in
    plants. In: Potassium Research—Review and Trends, Berlin: International Potash Institute, 1979, pp 111–163.

  12. RG Wyn Jones. CJ Brady J Speirs. Ionic and osmotic relations in plant cells. In: DC Laidman, RG Wyn Jones,
    eds. Recent Advances in the Biochemistry of Cereals. New York: Academic Press, 1979, pp 63–103.

  13. WS Iljin. Zusammensetzung der Salze in der Pflanze auf verschiedenen Standorten. Kalkpflanzen. Beih Bot
    Zbl 50:95–137, 1932.

  14. DMR Harvey, JL Hall, TJ Flowers, B Kent. Quantitative ion localization within Suaeda maritimaleaf meso-
    phyll cells. Planta 151:555–560, 1981.

  15. RA Leigh, T ApRees, WA Fuller, J Banfield. The location of acid invertase activity and sucrose in vacuoles of
    storage root of beetroot (Beta vulgaris). Biochem J 178:539–547, 1979.

  16. M Thom, A Maretzki, E Komor. Vacuoles from sugarcane suspension cultures. I. Isolation and partial charac-
    terization. Plant Physiol 69:1315–1319, 1982.

  17. WJ Cram. Negative feedback regulation of transport in cells. The maintenance of turgor, volume and nutrient
    supply. In: U Luttge, MG Pitman, eds. Encyclopedia of Plant Physiology, New Edition, Vol 2A, Transport in
    Plant Cells, Berlin: Springer Verlag, 1976, pp 284–316.

  18. F Marty, D Branton, RA Leigh. Plant vacuoles. In: NE Tolbert, ed. The Biochemistry of Plants: A Compre-
    hensive Treatise, Vol 1. New York: Academic Press, 1980, pp 625–658.

  19. RA Leigh, A Deri Tomos. An attempt to use isolated vacuoles to determine the distribution of sodium and
    potassium in cells of storage roots of redbeet (Beta vulgarisL.). Planta 159:469–475, 1983.

  20. MG Pitman. The determination of the salt relations of the cytoplasmic phase in beet root tissue. Aust J Biol Sci
    16:647–668, 1963.

  21. RJ Poole. Effect of sodium on potassium fluxes at the cell membrane and vacuole membrane of red beet. Plant
    Physiol 47:731–734, 1971.

  22. AES Macklon. An examination, by compartmental flux analysis, of the development of sodium and chloride
    absorption capacities in beet root disks. J Exp Bot 27:651–657, 1976.

  23. MG Pitman, A Lauchli, R Stelzer. Ion distribution in roots of barley seedlings measured by electron probe X-
    ray microanalysis. Plant Physiol 68:673–679, 1981.

  24. RA Leigh, RG Wyn Jones. A hypothesis relating critical potassium concentrations for growth to the distribu-
    tion and functions of this ion in the plant cell. New Phytol 97:1–13, 1984.

  25. WD Jeschke, O Wolf. External potassium supply is not required for root growth in saline conditions: experi-
    ments with Ricinus communisL. Grown in a reciprocal split-root system. J Exp Bot 39:1149–1167, 1988.

  26. H Kawasaki, H Takada, S Kamisaka. Requirement of sodium chloride for the action of gibberellic acid in stim-
    ulating hypocotyl elongation of a halophyte Salicornia herbaceaL. Plant Cell Physiol 19:1415–1425, 1978.

  27. AR Yeo. Salt tolerance in the halophyte Suaeda maritimaL. Dum.: intracellular compartmentation of ions. J
    Exp Bot 32:487–497, 1981.

  28. WD Jeschke. K-Naexchange at cellular membranes, intracellular compartmentation of cations, and salt tol-
    erance. In: Salinity Tolerance in Plants: RC Staples, GH Toennissen, eds. Strategies for Crop Improvement.
    New York: Wiley, 1984, pp 37–66.

  29. RG Wyn Jones, J Gorham. Osmoregulation. In: OL Lange, PS Nobel, CB Osmond, H Zeigler, eds. Encyclo-
    pedia of Plant Physiology, Vol 12c. Berlin: Springer-Verlag, 1983, pp 35–58.

  30. TJ Flowers. Halophytes. In: DA Baker, JL Hall, eds. Ion Transport in Plant Cells and Tissues. Amsterdam: El-
    sevier, 1975.

  31. R Collander. Selective absorption of cations by higher plants. Plant Physiol 16:691–720, 1941.


SODIUM—A FUNCTIONAL NUTRIENT IN PLANTS 381

Free download pdf