Abstract
Tuzluluk, topraklarda veya toprak horizonlarında suda çözünen tuzların birikmesidir. Tuzluluğun bitki gelişimini etkileyen önemli faktörlerden birisi olduğu bilinmektedir. Bitkilerin tuzlu şartlarda gelişme ve büyüme kapasiteleri birbirinden farklılık göstermektedir ve tuza karşı toleranslanrı genetik özelliklerinin yanısıra çevresel faktörlerden de etkilenmektedir. Genellikle, tuzlu bir ortamda yetişen bitkilerin gelişimi zayıf olmakta ve bitki bodur kalmaktadır. Çünkü tuzlu şartlar altında toprak çözeltisinin osmotik potansiyeli yükselmekte ve bu nedenle bitkilerin su alımı güçleşmektedir. Ayrıca bazı elementler doğrudan toksik etki yapmaktadırlar (örneğin; Cl, B). Tuzluluk, bitkilerin hem gelişim safhaları boyunca hem de metabolik işlevleri üzerine olumsuz etkide bulunmaktadır. Bitki türlerinin tuz toleranslarına karar vermede bir kriter olarak tuzlu şartlarda hayatta kalabilen bitkiler kullanılmakta ve bunun en iyi göstergesi olarak da bitkinin verimi dikkate alınmaktadır. Yapılan çalışmalar ortamdaki tuz miktarının artmasıyla doğru orantılı olarak verimin düştüğünü göstermektedir.
References
- 1. ACEVES, N.E., STOLZY, L.H., MEHUYS, G.R. Combined Effects of Low Oxygen and Salinity on Germination of a Semidwarf Mexican Wheat. Agron. J., 67: 530- 532. 1975.
- 2. AYERS, A.D., EBERHARD, D.L.. Response of Edible Broad Bean to Several Levels of Salinity. Agron.J., 52: 110-111. I960.
- 3. BERNSTEIN, L, FIREMAN, M.. Laboratory Studies on Salt Distribution in Furrow Irrigated Soil with Special Reference to Pre-emergence Period. Soil Sci., 83: 249- 263. 1957.
- 4. CLAY, D.W.T., DA VISION, J.G. Effect of Soil Salinity on Glasshouse Crops. A.R.Nott. Univ. Sch. Agric., 58: 38-42. 1958.
- 5. GALE, L, KOHL, H.C., HAGEN, R. M. Changes in the water Balance and Photosynthesis of Onion, Bean and Cotton Plants Under saline Conditions. Physiol Plant, 20: 408- 420. 1967.
- 6. HOFFMAN, G.J., JOBES, J.A. Growth and Water Relations of Cereal Crops as Influenced by Salinity and Relative Humidity. Agron. J. 70: 765-769. 1978.
- 7. KAPLAN, M., AKAY (SÖNMEZ), S. Salinity of Irrigation Water of Greenhouses and Its Effects on the Soil Salinity in Kumluca and Finike Regions. IXth International Symposium of Scientific Centre of Fertilizers, p: 379-384, 25-30 September 1995, Kuşadası- TURKEY, 1995.
- 8. MAAS, E.V., HOFFMAN, G.J. Crop Salt Tolerance Current Assesment. J.Irrig. Dram. Div. ASCE, 103: 115- 134. 1977.
- 9. MARSHNER, H. Mineral Nutrition of Higher Plants. Institute of Hohenheim, Federal Republic of Germany. Typeset and Pnnted by W. and G.Baird Ltd., The Greystone Press, Antrim, Northern Ireland. 1986.
- 10. NEWTON, W. The Toxicity of D- alanine and L-alamne. Proc. Can. Phytopath. Soc., 24: 21-28. 1956.
- 11. NIEMAN, R.H. Some Effects of Sodium Chloride on Growth. Photosynthesis and Respiration of Twelve Crop Plants. Bot. Gaz., 123: 279-285. 1962.
- 12. NIEMAN, R.H, PAULSEN, L.L. Plant Growth Suppression on Saline Media Interactions with Light. Bot. Gaz., 132: 14-19. 1971.
- 13. OSAWA, T. Effects of Various Concentrations of Sodium Chloride on the Growth, Flowering, Fruit bearing and Chemical Composition of Eggplants in Sand Culture. J. Hort. Assoc. Japan, 26: 9-14. 1957.
- 14. OSAWA, T. Studies on the Salt Tolerance of Vegetable Crops in Sand Culture. Iv. On the Relative Salt Tolerance and Salt Injury in Vegetable Crops with Reference to Mineral Nutrition. J.Jap. Soc. Hort. Sci., 30: 214-252. 1960.
- 15. PANDEY, R.M., DIVATE, M.R. Salt Tolerance in Grapes. I. Effect of Sodium Salts Singly and in Combination on Some of the Morphological Characters of Grape Varieties. Indian J. Plant Physiol., 19: 230-239. 1976.
- 16. PIRUZYAN, S.S. Sov. Soil Sci., 2: 221-225. 1959.
- 17. POLJAKOFF-MAYBER, A. Morphological and Anatomical Changes in Plants as a Response to Salinity Stress. In: Plants in Saline Environment, pp. 97-117. Springer- Verlag Berlin Heidelberg, Newyork. 1975.
- 18. PRISCO, J.T., O’LEARY, J.W. Effect of Humidity and Cytokinin on Growth of Wheat Irrigated with Bicarbonate Rich Water. J. Indian Soc. Soil Sci., 20: 281-285.
- 19. REPP, G. Salt Tolerance of Plants. Basic Research and Tests. Salinity Prob. Arid Zone, Proc. Tehran Symp., pp. 153-161. 1961.
- 20. SOMANI, L.L. Crop Production with Saline Water, Agro Botanical Publishers (India) IVE-176. J.N. Vyas Nagar, Bikaner 334 001, New Delhi, 308 p. 1991.
- 21. STROGONOV, B.P., KABANOV, V.V., SHEVJAKOVA, N.I., LAPINA, L.P., KOMIZERRA, E.I., POPOV, B.A., DOSTANOVA, R.Kh., L.S., Rnykhodko. Structure and Function of Plant Cells Under Salinity. Moskow, Nauko. 1970.
- 22. VESKATESWARA, P.S., GURURAJA RAO, G., RAJESWARA RAO, G. Studies on Salt Tolerance of Ragi. I. Germination and Free Proline Accumulation. Proc. Indian Acad. Sci., 89: 481-484. 1980.
- 23. WAISEL, V. Biology of Halophtes. Academic Press, Newyork. 1972.
Abstract
Salinity is the accumulation of water soluble salt in soils or soil horizons. It is one of the most important factors affecting plant grovvth. Crop plants differ widely in their capability to grow and develop under saline conditions. The tolerance of a plant to salinity is affected by the environmental factors apart from the genetic properties. In general, the main characteristics of crops on a salt affected soil are the presence of a poor and patchy crop stand along with the stunted plant growth due to the increase at the osmotic pressure of the soil solution and the decrease of water absorption of crop plants. Moreover, some elements may have direct toxic effects (for example; Cl, B). Salinity adversely affect both all the stages of growth and the metabolic processes in crop plants. It is used plant survival in saline environment as a criteria to decide the salt tolerance of plant species and crop yield is considered as an important indication of this. Investigations on salt tolerance indicate that the yield of the crop plants shows a linearly decrease with increasing salinity.
References
- 1. ACEVES, N.E., STOLZY, L.H., MEHUYS, G.R. Combined Effects of Low Oxygen and Salinity on Germination of a Semidwarf Mexican Wheat. Agron. J., 67: 530- 532. 1975.
- 2. AYERS, A.D., EBERHARD, D.L.. Response of Edible Broad Bean to Several Levels of Salinity. Agron.J., 52: 110-111. I960.
- 3. BERNSTEIN, L, FIREMAN, M.. Laboratory Studies on Salt Distribution in Furrow Irrigated Soil with Special Reference to Pre-emergence Period. Soil Sci., 83: 249- 263. 1957.
- 4. CLAY, D.W.T., DA VISION, J.G. Effect of Soil Salinity on Glasshouse Crops. A.R.Nott. Univ. Sch. Agric., 58: 38-42. 1958.
- 5. GALE, L, KOHL, H.C., HAGEN, R. M. Changes in the water Balance and Photosynthesis of Onion, Bean and Cotton Plants Under saline Conditions. Physiol Plant, 20: 408- 420. 1967.
- 6. HOFFMAN, G.J., JOBES, J.A. Growth and Water Relations of Cereal Crops as Influenced by Salinity and Relative Humidity. Agron. J. 70: 765-769. 1978.
- 7. KAPLAN, M., AKAY (SÖNMEZ), S. Salinity of Irrigation Water of Greenhouses and Its Effects on the Soil Salinity in Kumluca and Finike Regions. IXth International Symposium of Scientific Centre of Fertilizers, p: 379-384, 25-30 September 1995, Kuşadası- TURKEY, 1995.
- 8. MAAS, E.V., HOFFMAN, G.J. Crop Salt Tolerance Current Assesment. J.Irrig. Dram. Div. ASCE, 103: 115- 134. 1977.
- 9. MARSHNER, H. Mineral Nutrition of Higher Plants. Institute of Hohenheim, Federal Republic of Germany. Typeset and Pnnted by W. and G.Baird Ltd., The Greystone Press, Antrim, Northern Ireland. 1986.
- 10. NEWTON, W. The Toxicity of D- alanine and L-alamne. Proc. Can. Phytopath. Soc., 24: 21-28. 1956.
- 11. NIEMAN, R.H. Some Effects of Sodium Chloride on Growth. Photosynthesis and Respiration of Twelve Crop Plants. Bot. Gaz., 123: 279-285. 1962.
- 12. NIEMAN, R.H, PAULSEN, L.L. Plant Growth Suppression on Saline Media Interactions with Light. Bot. Gaz., 132: 14-19. 1971.
- 13. OSAWA, T. Effects of Various Concentrations of Sodium Chloride on the Growth, Flowering, Fruit bearing and Chemical Composition of Eggplants in Sand Culture. J. Hort. Assoc. Japan, 26: 9-14. 1957.
- 14. OSAWA, T. Studies on the Salt Tolerance of Vegetable Crops in Sand Culture. Iv. On the Relative Salt Tolerance and Salt Injury in Vegetable Crops with Reference to Mineral Nutrition. J.Jap. Soc. Hort. Sci., 30: 214-252. 1960.
- 15. PANDEY, R.M., DIVATE, M.R. Salt Tolerance in Grapes. I. Effect of Sodium Salts Singly and in Combination on Some of the Morphological Characters of Grape Varieties. Indian J. Plant Physiol., 19: 230-239. 1976.
- 16. PIRUZYAN, S.S. Sov. Soil Sci., 2: 221-225. 1959.
- 17. POLJAKOFF-MAYBER, A. Morphological and Anatomical Changes in Plants as a Response to Salinity Stress. In: Plants in Saline Environment, pp. 97-117. Springer- Verlag Berlin Heidelberg, Newyork. 1975.
- 18. PRISCO, J.T., O’LEARY, J.W. Effect of Humidity and Cytokinin on Growth of Wheat Irrigated with Bicarbonate Rich Water. J. Indian Soc. Soil Sci., 20: 281-285.
- 19. REPP, G. Salt Tolerance of Plants. Basic Research and Tests. Salinity Prob. Arid Zone, Proc. Tehran Symp., pp. 153-161. 1961.
- 20. SOMANI, L.L. Crop Production with Saline Water, Agro Botanical Publishers (India) IVE-176. J.N. Vyas Nagar, Bikaner 334 001, New Delhi, 308 p. 1991.
- 21. STROGONOV, B.P., KABANOV, V.V., SHEVJAKOVA, N.I., LAPINA, L.P., KOMIZERRA, E.I., POPOV, B.A., DOSTANOVA, R.Kh., L.S., Rnykhodko. Structure and Function of Plant Cells Under Salinity. Moskow, Nauko. 1970.
- 22. VESKATESWARA, P.S., GURURAJA RAO, G., RAJESWARA RAO, G. Studies on Salt Tolerance of Ragi. I. Germination and Free Proline Accumulation. Proc. Indian Acad. Sci., 89: 481-484. 1980.
- 23. WAISEL, V. Biology of Halophtes. Academic Press, Newyork. 1972.
Details
| Primary Language | Turkish |
|---|---|
| Subjects | Agricultural Engineering |
| Journal Section | Articles |
| Authors | |
| Publication Date | December 1, 1997 |
| Published in Issue | Year 1997 Volume: 10 Issue: 1 |