REFERENCES
- Flowers , TJ , Garcia , A , Koyama , M and Yeo , AR . 1997 . Breeding for salt tolerance in crop plants–the role of molecular biology . Acta PhysiolPlant , 19 : 427 – 433 .
- Pasternak , D . 1987 . Salt tolerance and crop production. A comprehensive approach . AnnuRevPhytopathol , 25 : 271 – 291 .
- Werner , JE and Finkelstein , RR . 1995 . Arabidopsismutants with reduced response to NaCl and osmotic stress . PhysiolPlant , 93 : 659 – 666 .
- Epstein , E . 1972 . Mineral Nutrition of Plants: Principles and Perspectives , New York : Wiley .
- Murguia , JR , Belles , JM and Serrano , RA . 1995 . Salt-sensitive 3’(2’),5’-bisphosphate nucleotidase involved in sulfate activation . Science , 267 : 232 – 234 .
- Wu , SJ , Ding , L and Zhu , JK . 1996 . SOS1, a genetic locus essential for salt tolerance and potassium acquisition . Plant Cell , 8 : 617 – 627 .
- Apse , MP and Blumwald , E . 2002 . Engineering salt tolerance in plants . CurrOpinBiotech , 13 : 146 – 150 .
- Maathuis , FJM and Amtmann , A . 1999 . K+nutrition and Na+toxicity: the basis of cellular K+/Na+ratios . AnnBot , 84 : 123 – 133 .
- Cramer , GR . 2002 . “ Sodium–calcium interactions under salinity stress ” . In SalinityEnvironment–Plants–Molecules , Edited by: Läuchli , A and Lüttge , U . 205 – 227 . Dordrecht : Kluwer Academic Publishers .
- Reid , RJ and Smith , FA . 2000 . The limits of sodium/calcium interactions in plant growth . AustJPlant Physiol , 27 : 709 – 715 .
- Essah , PA , Davenport , R and Tester , M . 2003 . Sodium influx and accumulation in Arabidopsis . Plant Physiol , 133 : 307 – 318 .
- Läuchli , A . 1990 . Calcium, salinity and the plasma membraneCalcium in Plant Growth and Development , American Society of Plant Physiologists Symposium Series Edited by: Leonard , RT and Hepler , PK . vol4 , 26 – 35 . Rockville : American Society of Plant Physiologists .
- Tester , M and Davenport , R . 2003 . Na+tolerance and Na+transport in higher plants . AnnBot , 91 : 503 – 527 .
- Russell , RS and Shorrocks , VM . 1959 . The relationship between transpiration and the absorption of inorganic ions by intact plants . JExpBot , 10 : 301 – 316 .
- Pitman , MG . 1976 . “ Ion uptake by plant roots ” . In Transport in Plants, 2Part BTissues and Organs , Edited by: Lutge , U and Pitman , MG . 95 – 128 . Berlin : Springer-Verlag .
- Maathuis , FJM and Sanders , D . 1995 . Contrasting roles in ion transport of two K+-channel types in root cells of Arabidopsis thaliana . Planta , 197 : 456 – 464 .
- Jacoby , B and Hanson , JB . 1985 . Controls on 22Na+influx in corn roots . Plant Physiol , 77 : 930 – 934 .
- Rains , DW and Epstein , E . 1967 . Sodium absorption by barley roots: its mediation by mechanism 2 of alkali cation transport . Plant Physiol , 42 : 319 – 323 .
- Breazeale , EL , McGeorge , WT and Breazeale , JF . 1951 . Water absorption and transport by leaves . Soil Sci , 72 : 239 – 242 .
- Baker , JM and Van Baver , CHM . 1988 . Water transfer through cotton plants connecting soil regions of differing water potential . AgrJ , 30 : 993 – 996 .
- Xu , X and Bland , WL . 1993 . Reverse water-flow in sorghum roots . AgrJ , 85 : 384 – 387 .
- Suhayda , CG , Redmann , RE and Wang , XY . 1994 . “ Salinity alters root cell wall properties and trace metal uptake in barley ” . In Biochemistry of Metal Micronutrients in the Rhizosphere , Edited by: Manthey , JA , Crowley , DE Luster , DG . 325 – 342 . Boca Raton : Lewis Publishers .
- Baba , T and Fujiyama , H . 2003 . Differences in short-term responses of rice and tomato to sodium salinization and supplemental potassium and calcium . Soil SciPlant Nutr , 49 : 669 – 675 .
- Song , JQ and Fujiyama , H . 1996 . Ameliorative effect of potassium on rice and tomato subjected to sodium salinization . Soil Sci. Plant Nutr. , 42 : 493 – 501 .
- Song , JQ and Fujiyama , H . 1998 . Importance of Na content and water status for growth in Na-salinized rice and tomato plants . Soil Sci. Plant Nutr. , 44 : 197 – 208 .