Abstract
In order to assess its usefulness in increasing forage production on saline wastelands, seed germination and seedling growth of highly salt-tolerant grass Sporobolus madraspatanus growing in Gujarat were studied. Seed germinability up to 16 dS m−1, its ability to grow in 32 dS m−1 seawater and greater accumulation of organic solutes such as alanine, asparagine, aspartic acid, proline, sugars and of inorganic ions Na+ and Cl− in leaves, stems and roots of 61-day-old plants collectively showed its reasonably good growth in saline condition. Thus, Sporobolus madraspatanus could be a vital resource component of the cash crop halophytes.
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References
Costa, A.L. and Cacador, I. Chemical composition variation during root decomposition in Tagus estuary salt marshes. Kluwer Academic Publishers, Dordrecht, The Netherlands, 2002.
Chapman, V.J. Coastal Vegetation. Robert Maxwell Publishers. Vol. 111, Pergamon Press, New York, 1964.
Clark, J.R. Coastal zone management. Lewis Publishers. CRC Press, New York, 1996.
EL-Shobagy, M.N. and Kishk, H.T. Sodium chloride effects on sugar metabolism of several plants. Phyton Australia 1975; 17: 101–8.
Everitt, J.H. Effects of single salt solution and PH on seed germination of two native range grasses. J Rio Grande Val Hortic Sic 1983; 36: 23–8.
Folin, O. and Malmros, H. Micro methods for glucose estimation in blood. J Biol Chem 1929; 83: 115.
Joshi, A.J. Effect of seawater on amino acid and mineral ions composition in S. brachiata. Roxb. J Plant Physiol 1986; 123: 497–502.
Joshi, A.J. and Misra, M. Fluctuations of proteins, free amino acids and mineral ions in a forage halophyte Sprobolus madraspatanus. Bor. J Ind Bot Soc 1992; 71: 61–4.
Kalir, A. and Polljakoff-Mayber, A. Changes in activity of malate dehydrogenase, catalase, peroxidase and superoxidase dismutase in leaves of Halimione portulacoides (L) Allen exposed to high sodium chloride concentrations. Ann Bot 47: 75–85.
Lowry, O.H., Rosenbrough, N.J., Farr, A.L. and Randall, R.J. Protein measurements with folin phenol reagent. J Biol Chem 1951; 193: 265–75.
Mishra, S.D. and Rao, M.U.K. Quantitative estimation of carbohydrates by paper partition chromaatography. J. Sci Indust Res 1960; 19C.
Misra, M. Studies on salt tolerance in Sporobolus madraspatanus Bor. A forage halophytic grass. Ph.D. Thesis, Bhavnagar University, Bhavnagar, 1989.
Pollak, G. and Waisel, Y. Reproductive biology of Aeluropus litoralis (Willd) Parl. Ann Arid Zone 1971; 10: 165.
Popp, M., Larher, F. and Weigel, P. Chemical composition of Australian mangroves III. Free amino acids, total methylated onium compounds and total nitrogen. Z. Pflanzenphysiol 1984; 114: 15–25.
Rozema, J. An ecophysiological study on the response to salt of four halophytic and glycophytic Juncus species. Flora 1976; 165: 197–209.
Umbreit, W.W., Burris, R.H. and Stauffer, J.E. Manometric techniques. Burgees Publishing Co., Minnesota, 1959.
Vogel, A.I. A text book of quantitative inorganic analysis. ELBS Edition, London, 1978; 506.
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Joshi, A.J., Misra, M. (2003). Halophytic grasses as vital components of cash crop halophytes: Sporobolus madraspatanus Bor.. In: Lieth, H., Mochtchenko, M. (eds) Cash Crop Halophytes: Recent Studies. Tasks for Vegetation Science, vol 38. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-0211-9_19
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DOI: https://doi.org/10.1007/978-94-017-0211-9_19
Publisher Name: Springer, Dordrecht
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