• Ahmad, I. & Wainwright, S. J. (1976). Ecotype differences in leaf surface properties of Agrostis stolontfera from salt marsh, spray zone and inland habitats. New Phytologist, 76, 361366.
  • Ashby, W. C. & Beadle, N. C. W. (1957). Studies in halophytes. Salinity factors in the growth of Australian salt bushes. Ecology 38, 344352.
  • Baker, E. A. & Holloway, P. J. (1971). Scanning electron microscopy of waxes on plant surfaces. Micron, 2, 364.
  • Chafe, S. C. & Wardrop, A. P. (1973). Fine structural observations in the epidermis: II. The cuticle. Planta 109, 3948.
  • Crips, C. C. (1965). The bipolymer cutin. Ph.D. Thesis, University of California.
  • Delf, E. M. (1912). Transpiration in succulent plants. Annals of Botany 26, 143155.
  • Esau, K. (1953). Plant Anatomy. John Wiley, New York , London and Sydney .
  • Fitter, A. H. & Hay, R. K. M. (1981). Environmental Physiology of Plants. Academic Press, London .
  • Flowers, T. J. (1972). Salt tolerance in Suaeda maritima (L.) Dum. The effect of sodium chloride on growth respiration and soluble enzymes in a comparative study with Pisum sativum L. Journal of Experimental Botany 23, 310321.
  • Hall, D. M. (1966). A study of the surface wax deposits on apple fruit. Australian Journal of Biological Sciences 19, 10171025.
  • Kamp, H. (1930). Untersuchungen uber Kutikularbau and kutikulare Transpiration von Blattern. Jarhrbucher für Wissenschaftliche Botanik 72, 403465.
  • Kleinkopf, G. E., Wallace, A. & Hartosock, T. L. (1976). Salt tolerant potential source of leaf protein Plant Science Letters, 7, 313320.
  • Longstreth, D. J. & Nobel, P. S. (1979). Salinity effects on leaf anatomy. Plant Physiology 63, 700703.
  • Martin, J. T. & Juniper, B. E. (1970). The Cuticle of Plants. Edward Arnold, London .
  • Merida, T., Schonherr, J. & Schmidt, H. W. (1981). Fine structure of plant cuticles in relation to water permeability: the fine structure of the cuticle of Clivia miniata Reg. leaves. Planta 152, 259267.
  • Rao, G. C., Basha, S. K. M. & Rao, G. R. (1981). Effect of sodium chloride salinity on amount and composition of epicuticular wax and cuticular transpiration rate in peanut Arachis hypogaea Indian Journal of Experimental Biology, 19, 880881.
  • Roelofsen, P. A. (1952). On the submicroscopic structures of cuticular cell walls. Acta botanica Neerlandica 1, 99114.
  • Sargent, C. (1976). The occurrence of a secondary cuticle in Libertia eleganus (Iridaceae). Annals of Botany, 40, 355359.
  • Schratz, E. (1934). Beitrage zur biologie der halophyten. I. Zur keimungsphysiologie. Jahrbucher fur wissenschaftliche Botanik 80, 112142.
  • Shalhevet, J., Mass, E. V., Hoffman, G. J. and Ogata, G. (1976). Salinity and the hydraulic conductance of roots. Physiologia Plantarum 38, 224232.
  • Siadat-Pour, A. (1978). Physiological Studies on Suaeda maritima. Ph.D. Thesis, University of Sussex.
  • Sitte, P. & Rennier, R. (1963). Untersuchungen an cuticularen Zellwandschichten. Planta, 60, 1940.
  • St. Omer, L. & Schlesinger, W. H. (1980). Field and greenhouse investigations of the effect of increasing salt stress on the anatomy of Jaumea carnosa carnosa a salt marsh species. American Journal Botany 67, 14551465.
  • Uphof, J. CT. (1941). Halophytes. Botanical Review 7, 157.
  • Waisel, Y. (1972). Biology of Halophytes. Academic Press, London .
  • Wattendorf, F. & Holloway, P. J. (1980). Studies on the ultrastructure and histochemistry of plant cuticle. Annals of Botany 46, 1328.