References
- Ammal, U.B., Mahendran, P.P. and Arunachalam, G. 1999. Identifi cation of sea water intrusion in coastal belt of Tirunelveli district. Madras Agric. J. 86 : 513–515.
- Ashraf, M., McNeilly, T. and Bradshaw, A.D. 1989. The potential for evolution of tolerance to sodium chloride, calcium chloride, magnesium chloride and seawater in four grass species. New Phytol. 112 : 245–254.
- Ben-Hayyim, G., Kafkafi, U. and Ganmore-Neumann, R. 1987. Role of internal potassium in maintaining growth of cultured Citrus Cells on increasing NaCl and CaCl2 concentrations. Plant Physiol. 85 : 434–439.
- Cox, R.M. and Hutchinson, T.C. 1979. Metal co-tolerances in the grass Deschampsia cespitosa. Nature 279 : 231–233.
- Dvorák, J. and Ross, K. 1986. Expression of tolerance of Na+, K+, Mg2+, Cl-, and SO42- ions and sea water in the amphiploid of Triticum aestivum ą Elytrigia elongata. Crop Sci. 26 : 658–660.
- Gorham, J. 1992. Grass responses to salinity. In G. P. Chapman ed., Desertified Grasslands: Their Biology and Management. Academic Press, New York. 165–180.
- Greub, L.J., Drolsom, P.N. and Rohweder, D.A. 1985. Salt tolerance of grasses and legumes for roadside use. Agron. J. 77 : 76–80.
- Hoagland, D.R. and Arnon, D.I. 1950. The water-culture method for growing plants without soil. California Agric. Exp. Stn. Circular 347.
- Hodson, M.J., Smith, M.M., Wainwright, S.J. and Opik, H. 1981. Cation cotolerance in a salt-tolerant clone of Agrostis stolonifera L. New Phytol. 90 : 253–261.
- Marcar, N.E. and Termaat, A. 1990. Effects of root-zone solutes on Eucalyptus camaldulensis and Eucalyptus bicostata seedlings: Responses to Na+, Mg2+ and Cl-. Plant Soil 125 : 245–254.
- Marcum, K.B. and Murdoch, C.L. 1990. Growth responses, ion relations, and osmotic adaptations of eleven C4 turfgrasses to salinity. Agron. J. 82 : 892–896.
- Oizumi, H., Takasaki, Y., Kanari, Z., Nojima, H., Shimada, N., Sato, Y. and Ashihara, S. 1979. Cultivation of grasses as a remedy for excessive salt accumulation in soils of plastic greenhouse. I. Growth of grasses under soils of different salt concentrations in short-term culture of summer. Technical Bulletin of the Faculty of Horticulture, Chiba University 26 : 9–13 .
- Rogers, M.E., Noble, C.L. and Pederick, R.J. 1996. Identifying suitable grass species for saline areas. Aust. J. Exp. Agric. 36 : 197–202.
- Royo, A. and Aragues, R. 1993. Validation of salinity crop production functions obtained with the triple line source sprinkler system. Agron. J. 85 : 795–800.
- Royo, A. and Aragues, R. 1999. Salinity-yield response functions of barley genotypes assessed with a triple line source sprinkler system. Plant Soil 209 : 9–20.
- Shah, S.H., Wainwright, S.J. and Merrett, M.J. 1993. Cation cotolerance in callus cultures of Medicago sativa L. tolerant to sodium chloride. Plant Sci. 89 : 81–84.
- van Genuchten, M.Th. and Hoffman, G.J. 1984. Analysis of crop salt tolerance data. In I. Shainberg and J. Shalhevet eds., Soil Salinity under Irrigation: Processes and Management. Springer Verlag, Berlin. 258–271.
- Wu, L. 1981. The potential for evolution of salinity tolerance in Agrostis stolonifera L. and Agrostis tenuis Sibth. New Phytol. 89 : 471–486.