Handbook of Plant and Crop Physiology

97. MG Pitman. Ion transport into the xylem. Annu Rev Plant Physiol 28:71–88, 1977.


98. F Malek, DA Baker. Proton co-transport of sugars in phloem loading. Planta 135:297–299, 1977.


99. MG Pitman. Uptake of potassium and sodium by seedlings of Sinapsis alba. Aust J Biol Sci 19:257–259, 1966.


100. A Poljakoff-Mayber. Morphological and anatomical changes in plants as a response to salinity stress. In: A Pol-
     jakoff-Mayber, J Gale, eds. Plants in Saline Environments. Berlin: Springer-Verlag, 1975, pp 97–117.


101. R Stelzer, A Lauchli. Salt and flooding tolerance of Puccinellia peisonis. II. Structural differentiation of the
     root in relation to function. Z Pflanzenphysiol 84:95–108, 1977.


102. MA Hajibagheri, JL Hall, TJ Flowers. The structure of the cuticle in relation to cuticular transport in leaves of
     the halophyte Suaeda maritima(L.) dum. New Phytol 94:25–131, 1983.


103. D Aspinall. Metabolic effects of water and salinity stress in relation to expansion of the leaf surface. Aust J
     Plant Physiol 13:59–73, 1986.


104. LR Rajasekaran, PE Kriedemann, D Aspinall, LG Paleg. Physiological significance of proline and glycinebe-
     taine: maintaining photosynthesis during NaCl stress in wheat. Photosynthetica 34:357–366, 1997.


105. CSV Rajendrakumar, T Suryanarayana, AR Reddy. DNA helix destabilization by proline and betaine: possi-
     ble role in the salinity tolerance process. FEBS Lett 410:201–205, 1997.


106. NC Turner, MM Jones. Turgor maintenance by osmotic adjustment: a review and evaluation. In: NC Turner,
     PJ Kramer, eds. Adaptation of Plants to Water and High Temperature Stress. New York: John Wiley & Sons,
     1980, pp 87–103.


107. M Tal. Genetics of salt tolerance in higher plants: theoretical and practical considerations. Plant Soil
     89:199–226, 1985.


108. AR Yeo. Salt tolerance in the halophyte Suaeda maritima(L.) dum: intracellular compartmentation of ions. J
     Exp Bot 32:487–497, 1981.


109. GR Stewart, JA Lee. Role of proline accumulation in halophytes. Planta 120:279–289, 1974.


110. GR Stewart, AD Hanson. Proline accumulation as a metabolic response to water stress. In: NC Turner, PJ
     Kramer, eds. Adaptation of Plants to Water and High Temperature Stress. New York: John Wiley & Sons,
     1980, pp 173–189.


111. S Treichel. The effect of NaCl on the concentration of proline in different halophytes. Z Pflanzenphysiol
     76:56–58, 1975.


112. AD Hanson, WD Hitz. Metabolic responses of mesophytes to plant water deficits. Annu Rev Plant Physiol
     33:163–203, 1982.


113. G Parameshwara. Stress effects in alfalfa (Medicago sativa) seedlings in relation to proline and betaines. PhD
     dissertation, University of Adelaide, Adelaide, Australia, 1984.


114. R Storey, RG Wyn Jones. Quaternary ammonium compounds in plants in relation to salt resistance. Phyto-
     chemistry 16:447–453, 1977.


115. H Greenway, R Munns, J Gibbs. Effects of accumulation of 3-O-methylglucose on levels of endogenous os-
     motic solutes in Chlorella emersonii. Plant Cell Environ 5:405–412, 1982.


116. CM Grieve, EV Maas. Betaine accumulation in salt stressed sorghum. Physiol Plant 61:167–171, 1984.


117. RG Wyn Jones, R Storey. In: LG Paleg, D Aspinall, eds. Betaines, Physiology and Biochemistry of Drought
     Resistance in Plants. Sydney: Academic Press, 1981, pp 171–203.


118. RG Wyn Jones, R Storey. Salt stress and comparative physiology in the graminae. II. Glycinebetaine and pro-
     line accumulation in two salt and water stressed barley cultivars. Aust J Plant Physiol 5:817–829, 1978.


119. Z Kefu, R Munns, RW King. Abscisic acid levels in NaCl treated barley, cotton, and saltbush. Aust J Plant
     Physiol 18:17–24, 1991.


120. JF Thomson, CR Stewart, CJ Morris. Changes in aminoacid content of excised leaves during incubation. I. The
     effect of water content of leaves and atmospheric oxygen level. Plant Physiol 41:1578–1584, 1966.


121. I Ahmad, F Larher, AF Mann, SF McNally, GR Stewart. Nitrogen metabolism of halophytes. IV. Characteris-
     tics of glutamine synthetase from Triglochin maritima. New Phytol 91:585–595, 1982.


122. LG Paleg, TJ Douglas, A vonDaal, DB Kuch. Proline, betaine and other organic solutes protect enzymes
     against heat inactivation. Aust J Plant Physiol 8:107–114, 1981.


123. RL Jeffries, T Rudmik. The responses of halophytes to salinity: an ecological perspective. In: RC Staples, GH
     Toenniessen, eds. Salinity Tolerance in Crop Plants: Strategies for Crop Improvement. New York: John Wiley
     & Sons, 1984, pp 213–227.


124. R Weinberg. Modification of foliar solute concentrations by calcium in two species of wheat stressed with
     sodium chloride and or potassium chloride. Physiol Plant 73:418–425, 1988.


125. R Weimberg, HR Lerner, A Poljakoff-Mayber. A relationship between potassium and proline accumulation in
     salt stressed Sorghum bicolor. Physiol Plant 55:5–10, 1982.


126. G Voetberg, CR Stewart. Steady state proline levels in salt shocked barley leaves. Plant Physiol 76:567–570,


127. 
     


128. WD Hitz, AD Hanson. Determination of glycinebetaine by pyrolysis–gas chromatography in cereals and
     grasses. Phytochemistry 19:2371–2374, 1980.


129. N Ahmad, RG Wyn Jones. Glycinebetaine, proline and inorganic ion levels in barley seedlings following tran-
     sient stress. Plant Sci Lett 15:231–237, 1979.


130. AD Hanson, CE Nelson. Betaine accumulation and C^14 formate metabolism in water stressed barley leaves.
     Plant Physiol 62:305–312, 1978.

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