References
- Amberger , A. 1954 . Einfluß von Kalium und Stickstoff auf Ferment‐und Kohlenhydrathaushalt von Grünpflanzen . Z. Pflanzenernaehr., Dueng. und Bodenk. , 66 : 211 – 222 .
- Bernstein , L. and Hayward , H.E. 1958 . Physiology of salt tolerance . Ann.Rev.Plant Physiol. , 9 : 25 – 46 .
- Chang , C.W. 1978 . Alpha‐amylase activity and starch content in cotton leaves . Plant Physiol. , 61 ( Supplement 529 )
- Chang , C.W. in press . Enzymic degradation of starch in cotton leaves . Phytochemistry ,
- Fekete , M.A.R. de and Vieweg , G.H. 1974 . “ Starch metabolism: Synthesis versus degradation pathways ” . In Plant carbohydrate chemistry , Edited by: Pridham , J.B. 127 – 144 . London, New York : Academic Press .
- Gericke , S. and Kurmies , B. 1952 . Die colorimetrische Phosphorsäurebestimmung mit Ammonium‐Vanadat‐Molybdat und ihre Anwendung in der Pflanzenanalyse . Z. Pflanzenernaehr., Dueng. und Bodenk. , 59 : 235 – 247 .
- Greenway , H. and Munns , R. 1980 . Mechanisms of salt tolerance in halophytes . Ann.Rev.Plant Physiol. , 31 : 149 – 190 .
- Hawker , J.S. and Walker , R.R. 1978 . The effect of sodium chloride on expansion rates and invertase activity of leaves . Austr. J. Plant Physiol. , 5 : 73 – 80 .
- Hawker , J.S. , Marschner , H. and Downton , W.J.S. 1974 . Effects of sodium and potassium on starch synthesis in leaves . Austr. J. Plant Physiol. , 1 : 491 – 501 .
- Hellebust , J.A. 1976 . Osmoregulation . Ann.Rev.Plant Physiol. , 27 : 485 – 505 .
- Levi , C. and Preiss , J. 1978 . Amylopectin degradation in pea chloroplast extracts . Plant Physiol. , 61 : 218 – 220 .
- Lowry , O.H. , Rosebrough , R.H. , Farr , A.L. and Randall , R.J. 1951 . Protein measurement with the Folin phenol reagent . J. Biol. Chem. , 193 : 265 – 275 .
- Manners , O.J. 1974 . “ Some aspects of the enzymic degradation of starch ” . In Plant carbohydrate chemistry , Edited by: Pridham , J.B. 109 – 125 . London, New York : Academic Press .
- Marschner , H. and Doering , H.W. . Effect of K+ and Na+ on ADPG‐starch synthetase . Proceedings of the 13th IPI‐Colloquium of the International Potash Institute . York, England. pp. 101 – 113 .
- Matar , Y. , Doering , H.W. and Marschner , H. 1975 . Auswirkungen von NaCl and Na2SO4 auf Substanzbildung, Mineralstoffgehalt und Inhaltstoffe bei Spinat und Salat . Z. Pflanzenernaehr. Bodenk. , 138 : 295 – 307 .
- Mayer , F.C. , Campbell , R.E. , Smith , A.K. and McKinney , L.L. 1961 . Soybean phosphatase. Purification and properties . Arch. Biochem. Biophys. , 94 : 301 – 307 .
- Ozbun , J.L. , Hawker , J.S. , Greenberg , E. , Lammel , C , Preiss , J. and Lee , E.Y.C. 1973 . Starch synthetase, phosphorylase, ADP‐glucose pyrophosphorylase, and UDP‐glucose pyrophosphorylase in developing maize kernels . Plant Physiol. , 51 : 1 – 5 .
- Rains , D.W. 1972 . Salt transport by plants in relation to salinity . Ann.Rev.Plant Physiol. , 23 : 367 – 388 .
- Rathert , G. 1982a . Influence of extreme K:Na ratios and high substrate salinity on plant metabolism of crops differing in salt tolerance. V. Ion‐specific salinity effects on invertase in leaves of bushbeans and sugarbeet plants . J. Plant Nutr. , 5 : 97 – 109 .
- Rathert , G. 1982b . _____ VI. Mineral distribution variability amongdifferent salt tolerant cotton varieties . J. Plant Nutr. , 5 : 183 – 194 .
- Rathert , G. and Doering , H.W. 1981 . _____ IV. Ion‐specific salinity effects on amylases in leaves of bushbean and sugarbeet plants . J. Plant Nutr. , 4 : 261 – 277 .
- Rathert , G. , Doering , H.W. and Witt , J. 1981 . _____ III. K/Na effects on the carbohydrate pattern of bushbean and sugarbeet plants in response to the salt tolerance of the species . J. Plant Nutr. , 4 : 131 – 141 .
- Ricardo , C.P.P. and Sovia , D. 1974 . Development of tuberous roots and sugar accumulation as related to invertase activity and mineral nutrition . Planta , 118 : 43 – 55 .
- Whelan , W.J. 1955 . “ Phosphorylases from plants ” . In Methods in Enzymology I , Edited by: Colowick , S.P. and Kaplan , N.O. 192 New York : Academic Press .