The response strategy of maize, pea and broad bean plants to different osmotic potential stress

Автор: Abd el-samad Hamdia M., Shadadd M.A.K.

Журнал: Журнал стресс-физиологии и биохимии @jspb

Статья в выпуске: 3 т.9, 2013 года.

Бесплатный доступ

This investigation was conducted to study the tolerance strategy of maize, broad bean and pea plants to salinity stress with exogenous applications of proline or phenylalanine on seed germination and seedlings growth. From the results obtained, it can be observed that osmotic stress affected adversely the rate of germination in maize, broad bean and pea plants. The excessive inhibition was more prominent at higher concentration of NaCl. The seeds and grains tested were exhibited some differential responses to salinity, in a manner that the inhibitory effect of salinity on seed germination ran in the order, maize higher than broad bean and the later was higher than pea plant. Treatment with proline or phenylalanine (100 ppm) significantly increased these seed germination and seedlings growth characteristics even at lowest salinity level tested.

Еще

Salinity, broad bean, maize, pea, proline, phenylalanine

Короткий адрес: https://sciup.org/14323770

IDR: 14323770

Список литературы The response strategy of maize, pea and broad bean plants to different osmotic potential stress

Ahmad I., Hellebust J.A. (1988) The relationship between inorganic nitrogen metabolism and proline accumulation in osmoregulatory responses of two eurythaline microalgae. Plant Physiol 88: 348-354
Carvajal M., Del Amor F.M., Fernández-Ballester G., Martínez V. and Cerda A. (1998) Time course of solute accumulation and water relation in muskmelon plants exposed to salt during different growth stages. Plant Sci. 138: 103-112.
Catalan L., Balzarini M., Taleisnik E., Sereno R., Karlin U. (1994) Effects of salinity on germination and seedling growth of Prosopis flexuosa (D.C.). For Ecol. Manage. 63: 347-357.
Francois L.E. (1994) Growth, seed yield, and oil content of canola grown under saline conditions. Agronomy Journal 86: 233-237.
Geng P., Laa H., Wang H. and Stevens E.J.C. (2008) Effect of sorbitol concentration on regeneration of embrogenic cali in upland rice varieties (Oryza sativa L.). Plant Cell Tissue Organ Cult. 92: 303-313.
Hamada A., Shono M., Xia T., Ohta M., Hayashi Y., Tanaka A., Hayakawa T. (2001) Isolation and characterization of a Na+/H+ antiporter gen (Medicago sativa L.). American Society of Agronomy, Madison, pp 1089-1142.
Hamdia M.A., Shaddad, M.A.K. (2010) Salt tolerance of crop plants. Journal of Stress Physiology & Biochemistry, 6: 64-90.
Hamdia, M.A., Shadad, M.A.K. (1996) Salt tolerance of soybean cultivars. Biologia Plantarum. 39: 263-269.
Hamdia. M.A., Shaddad M.A.K., and Barakat N. (2012) Improvement of plants salt tolerance by exogenous application of amino acids. Journal of Medicinal Plants Research. 5: 5692-5699.
Hellmann H., Funck D., and Frommer W. (2000) Hypersensitivity of an Arabidopsis sugar signaling mutant to ward exogenous proline application. Plant Physiology. 122: 357-367.
Kabala K. and Russak M.J. (2012) Na+/H+ antiport activity in plasma membrane and tonoplast vesicles isolated from NaCl-treated cucumber roots. Biologia Plantarum. 56(2): 377-382
Kadota M.K., Imizu K. and Hirano T. (2001) Double-phase in vitro culture using sorbitol increase shoot proliferation and reduces hyperhydrcity in Japanese pear. Sci. Horticult., 89: 207-215.
Katembe W., Ungars I.R., Mitchel J. (2012) Effect of Salinity on Germination and Seedling Growth of two Atriplex species (Chenopodiaceae). Annals of Botany. 82: 167-175.
Kiyosue T., Yoshiba Y., Yamaguchi-Shinozaki K., Shinozaki K. (1996) A nuclear gene encoding mitochondrial proline dehydrogenase, an enzyme involved in proline metabolism, is upregulated by proline but downregulated by dehydration in A. thaliana. Plant Cell 8: 1323-1335.
Levitt J. (1980) Salt stresses. In. Responses of plants to environmental stresses. Vol. II. Academic press., P. 365-454.
Liu Y.D., Yin Z.J., Yu J.W., Li J., Wei H.L., Han X.I. and Shen F.F. (2012) Improved salt tolerance and delayed leaf senescence in transgenic cotton expressing the Agrobacterium IPT gene. Biologia Plantarum. 65: 237-246.
Maas E.V., Poss J.A. (1989) Salt sensitivity of cowpea at various growth stages. Irrigation Science 10: 313-320.
Maftoun, M., Sepaskhah, A.R. (1978) Effect of temperature and osmotic potential on germination of sunflower and saffflower on hormone-treatment of sunflower seeds. Can. J. Plant. Sci. 58: 295-301.
Najafi F., Nejad R.A. and Ali M.S. (2010) The effects of salt stress on certain physiological parameters in summer savory (Satureja hortensis L.) plants. Journal of Stress Physiology & Biochemistry, 6(1), 13-21.
Nielsen T.H., Krapp A., Roeper-Schwarz U., Stitt M. (1998) The sugar-mediated regulation of genes encoding the small subunit of Rubisco and the regulatory subunit of ADP glucose pyrophosphorylase is modified by phosphate and nitrogen. Plant Cell Environ 21: 443-454
Quayum H.A., Panaullah G.M., and Haque M.S. (1991) A comparative study of osmotic ion effects of salinity on two rice varietie, Okkali and Mi 48. Bangladesh J. Bot. 20: 137-142.
Rajjou L., Duval M., Gallardo K., Catusse J., Bally J., Job C. and Job D. (2011) Seed Germination and Vigor. Annual Review of Plant Biology. 63: 507-533.
Rhoades JD, Loveday J (1990) Salinity in irrigated agriculture. In: Steward BA, Nielsen DR (eds) American Society of Civil Engineers, Irrigation of Agricultural Crops, Monograph 30.
Rogers ME, Noble CL, Halloran GM, Nicholas ME. (1995) The effect of NaCl on the germination and early seedling growth of white clover (Trifolium repens L.) populations selected for high and low salinity tolerance. Seed Sciencie Technology, 23: 277-287.
Smirnoff N., Cumbes Q.J. (1989) Hydroxyl radical scavenging activity of compatible solutes. Phytochemistry, 28: 1057-1060
Song H.L., Sun Z.G., Mou X.J. and Zhao J.Y. (2012) Salinity effect and seed priming treatments on the germination of Suaeda salsa in the tidal marsh of the Yellow River estuary. African Journal of Biotechnology, 11: 7923-7933
Steel R.G., Torrie J.H. (1960) Principles and Procedures of Statistics. McGraw-Hill Book Co., New York
Steppuhn H., Wall K.G. (1997) Grain yields from spring-sown. Canadian wheats grown in saline rooting media. Canadian Journal of Plant Science, 77: 63-68.
Theerakulpisut P. and Gunnula W. (2012) Exogenous sorbitol and trehalose tolerance rice seedlings. Asian Journal of Crop Science, 4: 165-170.
Timoshchenko A.S., Semikhov V.F., and Rakitin L.Yu. (2000) Intensification of the Initial Stage in Amino Acid Metabolism in Germinating Cereal Seeds with Exogenous Glutamine and Proline. Applied Biochemistry and Microbiology. 36: 292-295.
Wallsgrove R.M. (ed.). (1995) Amino Acids and their Derivatives in Higher Plants. Society for Experimental Biology Seminar Series 56. Cambridge University Press, Cambridge.
Watschke T. and Borger J. (2012) Evaluation of amino acid biofertilizers for stress tolerance on Poa annua. (Penn State University). 2009-2012 Nutramax Laboratories. Inc.
Wilson C., Lesch S.M. and Grieve M. (2000) Growth Stage Modulates Salinity Tolerance of New Zealand Spinach (Tetragonia tetragonioides, Pall.) and Red Orach (Atriplex hortensis L.). Annals of Botany. 85: 501-509.

Еще

Статья научная