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References

  • Azcon-Bieto, J. (1983). Inhibition of photosynthesis by carbohydrates in wheat leaves. Plant Physiology, 73, 681686.
  • Berry, J. A. & Downton, W. J. S. (1982). Environmental regulation of photosynthesis. In: Photosynthesis: Development, Carbon Metabolism, and Plant Productivity, vol. II. (Ed. by Govindjee), pp. 263343. Academic Press, New York .
  • Cornic, G. & Miginiac (1983). Non-stomatal inhibition of net CO2 uptake by (±) abscisic acid in Pharbitis nil. Plant Physiology, 73, 529533.
  • Davies, W. J., Metcalfe, J., Lodge, T. A. & Da Costa, A. R. (1986). Plant growth substances and the regulation of growth under drought. Australian Journal of Plant Physiology, 13, 105125.
  • Dejong, T. M. (1986). Fruit effects on photosynthesis in Prunus persica. Physiologia Plantarum, 66, 149153.
  • Downton, W. J. S. (1983). Osmotic adjustment during water stress protects the photosynthetic apparatus against photoinhibition. Plant Science Letters, 30, 137143.
  • Downton, W. J. S. & Loveys, B. R. (1978). Compositional changes during grape berry development in relation to abscisic acid and salinity. Australian Journal of Plant Physiology, 5, 415423.
  • Downton, W. J. S., Grant, W. J. R. & Robinson, S. P. (1985) Photosynthetic and stomatal responses of spinach leaves to salt stress. Plant Physiology, 77, 8588.
  • Düring, H. & Loveys, B. R. (1982). Diurnal changes in water relations and abscisic acid in field-grown Vitis vinifera cvs. I. Leaf water potential components and leaf conductance under humid temperate and semi-arid conditions Vitis, 17, 19.
  • Herold, A. (1980). Regulation of photosynthesis by sink activity – the missing link. New Phytologist, 86, 131144.
  • Jones, H. G. (1985). Partitioning stomatal and non-stomatal limitations to photosynthesis. Plant, Cell and Environment, 8, 95104.
  • Loveys, B. R. (1984a). Abscisic acid transport and metabolism in grapevine (Vitis vinifera L.). New Phytologist, 98, 575582.
  • Loveys, B. R. (1984b). Diurnal changes in water relations and abscisic acid in field-grown Vitis vinifera cultivars. III. The influence of xylem-derived abscisic acid on leaf gas exchange. New Phytologist, 98, 563573.
  • Loveys, B. R. & Düring, H. (1984). Diurnal changes in water relations and abscisic acid in field-grown Vitis vinifera cultivars. II. Abscisic acid changes under semi-arid conditions. New Phytologist, 97, 3747.
  • Raschke, K. & Hedrich, R. (1985). Simultaneous and independent effects of abscisic acid on stomata and the photosynthetic apparatus in whole leaves. Planta, 163, 105118.
  • Schulze, E.-D. (1986). Whole-plant responses to drought. Australian Journal of Plant Physiology, 13, 127141.
  • Von Caemmerer, S. & Farquhar, G. D. (1981). Some relationships between the biochemistry of photosynthesis and the gas exchange of leaves. Planta, 153, 376387.