Abstract
Using water culture technique, some experiments have been performed to investigate the effect of 60 days salinization treatments (0.0–100 meq 1−1 NaCl) on dry weight and on the content of some nutrient elements (Na, K, Ca, Mg, P, N) in castor bean, sunflower and flax plants. In general the content of sodium increased progressively with the rise of salinity level. The relatively low and moderate salinization levels (20 and 40 meq I−1 NaCl) resulted in a promotion rather than inhibition of the dry weight and in the content of most of the investigated elements in the different organs of the test plants. However with the rise of salinization level from 60 to 100 meq l−1, the dry weight and the content of these nutrient elements were mostly reduced.
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Ahmed, A. M., Heikal, M. M., Shaddad, M. A.: Photosynthetic activity, pigment content and growth ofRicinus communis plant as influenced by salinization treatments. — Proc. Annu. Meeting of Saudi Arabian Biol. Soc. In press, 1978a.
Ahmed, A. M., Heikal, M. M., Shaddad, M. A.: Photosynthetic activity, pigment content and growth ofHelianthus annuus andLinum usitatissimum plants as influenced by salinization treatments. — Bull. Fac. Sci. Assiut Univ. In press, 1978b.
Bernstein, L.: Salt affected soils and plants. The problems of the arid zone. — Proceeding of the Paris Symp. Arid Zone Research, UNESCO18: 139–174, 1962.
Bernstein, L.: Effects of salinity and sodicity on plant growth. — Annu. Rev. Phytopathol.13: 295–312, 1975.
Bierhuizen, J. F., Ploegman, C.: Salt tolerance of tomato. — Meded. Dir. Tuninb.30: 302 to 310, 1967.
Chen, D., Kessler, B., Monselise, S. B.: Studies on water regime and nitrogen metabolism of citrus seedling grown under water stress. — Plant Physiol.39: 379–386, 1964.
El-Shourbagy, M. N., Missak, N. L.: Effect of growing season and salinity on growth, mineral composition and seed-lipid characteristics of someRicinus communia L. varieties. — Flora164: 51–71, 1975.
Epstein, E.: Mineral Nutrition of Plants: Principles and Perspectives. — John Wiley & Sons, New York 1972.
Gale, J., Poljakoff-Mayber, A.: Interrelations between growth and photosynthesis of saltbush (Atriplex halimus L.) grown in saline media. — Aust. J. biol. Sci.23: 937–945, 1970.
Gates, C. T., Haydock, K. P., Claringbold, P. J.: Response to salinity inGlycine. Differences in cultivars ofGlycine javanica in dry weight, nitrogen and water content. — Aust. J. exp. Agr. anim. Husb.6: 374–379, 1966.
Gates, C. T., Haydock, K. P., Robins, M. F.: Response to salinity inGlycine: 4. Salt concentration and the content of phosphorus, potassium, sodium and chloride in cultivars ofGlycine wightii (G. javanica). — Aust. J. exp. Agr. anim. Husb.10: 99–110, 1970.
Greenway, H.: Salinity, plant growth and metabolism. — J. aust. Inst. agr. Sci.1973: 24–34, 1973.
Heikal, M. M. D.: Physiological studies on salinity. 1-Effect of saline irrigation on growth and photosynthetic pigments of safflower and sunflower plants. — Bull. Fac. Sci. Assiut Univ.4: 1–11, 1975.
Heikal, M. M. D.: Physiological studies on salinity. 6-Changes in the water content and mineral composition of some plants over a range of salinity stresses. — Plant Soil48: 223 to 233, 1977.
Hutton, E. M.: Variation in salt response between tropical pasture legumes. — SABRAO Newslett.3: 75–81, 1971.
Jacoby, B.: Sodium retention in excised bean stem. — Physiol. Plant.18: 730–739, 1965.
Jennings, D. H.: Halophytes, succulence and sodium in plants — a unified theory. — New Phytol.67: 899–911, 1968.
Kaddah, M. T., Ghowail, S. L.: Salinity effect on the growth of corn at different stages of development. — Agron. J.56: 214–217, 1964.
Kleinkopf, G. E., Wallace, A., Cha, W. J.: Sodium relations in desert plants: 4. Some physiological responses ofAtriplex confertifolia to different levels of sodium chloride. — Soil Sci.120: 45–48, 1975.
Lahaye, P. A., Epstein, E.: Salt toleration by plants. Enhancement with calcium. — Science166: 395–396, 1969.
Lashin, M. H., Atanasiu, H.: Studies on the effect of salt concentration on the formation of dry matter, uptake of mineral nutrients and mineral composition of cotton plants during the vegetative growth period. — Z. Acker-Pflanzenbau135: 178–188, 1972.
Morani, V., Fortini, S.: Sodium in the mineral ofAvena sativa. — Plant Soil1: 140–142, 1963.
Paech, K., Tracey, M. V.: Modern Methods of Plant Analysis. Vol. I. — Springer Verlag, Berlin 1956.
Pfeffer, W.: The mechanism cf absorption and translocation. — In: Physiology of Plants. Vol. 1. Pp. 86–175. Oxford University Press, London 1900.
Poljakoff-Mayber, A., Gale, J. (ed.): Plants in Saline Environments. Ecological Studies 15. — Springer Verlag, Berlin—Heidelberg—New York 1975.
Radi, A. F., Heikai, M. M., Ahmed, A. M., Shaddad, M.: Physiological studies on salinity. 3 — Effect of salinity on the contents of some cations in cotton, safflower and maize plants. — Bull. Fac. Sci. Assiut Univ.5: 215–225, 1976.
Radi, A. F., Moubasher, A. H., Heikal, M. M.: Nutrient uptake by plants as affected by calcium and magnesium concentration. — Proc. Agr. Tim. Acad.3: 14–18, 1973.
Schwarzenbach, G., Biedermann, W.: Komplexone. X. Erdalkalikomplexe von 0, 6-Dioxyazofarbstoffen. — Helv. chim. Acta31: 678–687, 1948.
Shimose, N.: Physiology of salt injury in crops. 5-Rice plants grown in K and Ca deficient solutions and in solutions with excessive amount of NaCl or sulphate. — J. Sci. Soil Tokyo35: 148–151, 1964.
Shimose, N.: Physiology of salt injury in crops. (X) Effect of environmental conditions on the growth of rice plants grown in excess salt solutions. — Sci. Rep. Fac. Agr. Okayama Univ.41: 69–78, 1973.
Wilson, J. R., Haydock, K. P., Robins, M. F.: Response to salinity inGlycine. 5-Changes in the chemical composition of three Australian species ofG. wightii (G. javanica) over a range of salinity stresses. — Aust. J. exp. Agr. anim. Husb.10: 156–165, 1970.
Woods, J. T., Mellon, M. G.: Molybdenum blue reaction. — Ind. Eng. Chem., anal. Ed.13: 760–764, 1941.
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Heikal, M.M., Ahmed, A.M. & Shaddad, M.A. Changes in dry weight and mineral composition of some oil producing plants over a range of salinity stresses. Biol Plant 22, 25–33 (1980). https://doi.org/10.1007/BF02878124
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DOI: https://doi.org/10.1007/BF02878124