A Preliminary Study on Chromium(VI) Tolerance at Early Seedling Stage of Some Barley Cultivars Grown in Turkey

Yıl 2010, Cilt: 10 Sayı: 1, 1 - 10, 01.06.2010

Mustafa Yıldız Behiye Uruşak Hakan Terzi

Öz

Anahtar Kelimeler

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Türkiye'de Ekimi Yapılan Bazı Arpa Çeşitlerinin Erken Fide Evresinde Krom(VI) Toleransı Üzerine Bir Ön Çalışma

Öz

Bu araştırmada, Türkiye’de ekimi yapılan sekiz arpa (Hordeum vulgare L.) çeşidinin hekzavalent kroma [Cr(VI)] karşı toleransı erken fide evresinde hidroponik kültür ortamında incelenmiştir. Sekiz arpa çeşidinin (Angora, Avcı-2002, Aydanhanım, Başgül, Bülbül-89, Orza-96, Tarm-92 ve Zeynelağa) gövde ve kök büyümesi üzerine farklı Cr(VI) konsantrasyonlarının (0, 75, 150 ve 225 µM) etkisi belirlenmiştir. Cr(VI) konsantrasyonunun artışına bağlı olarak arpa çeşitlerinin gövde ve kök uzunlukları, taze ve kuru ağırlıkları genellikle önemli düzeyde azalmıştır (P

Anahtar Kelimeler

Arpa, Cr(VI), Büyüme, Tolerans

Kaynakça

• Ali, N.A., Ater, M., Sunahara, G.I. ve Robidoux, P.Y., 2004. Phytotoxicity and Bioaccumulation of Copper and Chromium Using Barley (Hordeum vulgare L.) in Spiked Artificial and Natural Forest Soils. Ecotoxicology and Environmental Safety, 57, 363– 374.
• Ali, S., Bai, P., Zeng, F., Cai, S., Shamsi, I.H., Qiu, B., Wu, F. ve Zhang, G., 2011. The Ecotoxicological and Aluminum on Growth, Oxidative Damage and Antioxidant Enzymes on Two Barley Genotypes Differing in Al Tolerance. Environmental and Experimental Botany, 70, 185–191. and
• Arduini, I., Masoni, A. ve Ercoli, L., 2006. Effects of High Chromium Applications on Miscanthus During The Period of Maximum Growth. Environmental and Experimental Botany, 58, 234– 243.
• Ayhan, B., Ekmekçi, Y. ve Tanyolaç, D., 2007. Erken Fide Evresindeki Bazı Mısır Çeşitlerinin Ağır Metal (Kadmiyum Dayanıklılığının Üniversitesi Bilim ve Teknoloji Dergisi, 8(2), 411- 422. Stresine Karşı Anadolu
• Bağcı, S.A., Ekiz, H. ve Yılmaz, A., 2003. Determination of The Salt Tolerance of Some Barley Genotypes and The Characteristics Affecting Tolerance. Turkish Journal of Agriculture and Forestry, 27, 253-260.
• Barcelo, J., Poschenrieder, C. ve Gunse, B., 1986. Water Relations of Chromium VI Treated Bush Bean Plants (Phaseolus vulgaris L. cv. Contender) under both Normal and Water Stress Conditions. Journal of Experimental Botany, 37, 178–187.
• Bishnoi, N.R., Chugh, L.K. ve Sawhney, S.K., 1993. Effect of Chromium on Photosynthesis, Respiration and Nitrogen Fixation in Pea (Pisum sativum L.) Seedlings. Journal of Plant Physiology, 142, 25–30.
• Cervantes, C., Garcia, J.C., Devars, S., Corona, F.G., Tavera, H.L., Torres–Guzman, J.C. ve Moreno- Sanchez, R., 2001. Interactions of Chromium with Microorganisms and Plants. FEMS Microbiology Reviews, 25, 335–247.
• Clemens, S., 2006. Toxic Metal Accumulation, Responses to Exposure and Mechanisms of Tolerance in Plants. Biochimie, 88, 1707–1719.
• Dey, S.K., Jena, P.P. ve Kundu, S., 2009. Antioxidative Efficiency of Triticum aestivum L. Exposed to Chromium stress. Journal of Environmental Biology, 30, 539–544.
• Dixit, V., Pandey, V. ve Shyam, R., 2002. Chromium Ions Inactivate Electron Transport and Enhance Superoxide Generation in vivo in Pea (Pisum sativum L. cv. Azad) Root Mitochondria. Plant, Cell and Environment, 25, 687– 690.
• Diwan, H., Khan, I., Ahmad, A. ve Iqbal, M., 2010. Induction of Phytochelatins and Antioxidant Defence System in Brassica juncea and Vigna radiata in Response to Chromium Treatments. Plant Growth Regulation, 61, 97–107.
• Dube, B.K., Tewari, K., Chatterjee, J. ve Chatterjee, C., 2003. Excess Chromium Alters Uptake and Translocation of Certain Nutrients in Citrullus. Chemosphere, 53, 1147-1153.
• Gopal, R., Rizvi, A.H. ve Nautiyal, N., 2009. Chromium Alters Iron Nutrition and Water Relations of Spinach. Journal of Plant Nutrition, 32, 1551–1559.
• Gupta, S., Srivastava, S. ve Saradhi, P.P., 2009. Chromium Increases Photosystem 2 Activity in Brassica juncea. Biologia Plantarum, 53, 100–104.
• Hagemeyer, J., 1999. Structual and Ultrastructural Changes in Heavy Metal Exposed Plants. In: Prasad M.N.V., Hagemeyer, J. (Eds.). Heavy Metal Stress in Plants: From Molecules to Ecosystems, Springer, Berlin, 157–181.
• Henriques, F.S., 2010. Changes in Biomass and Photosynthetic Parameters of Tomato Plants Exposed to Trivalent and Hexavalent Chromium. Biologia Plantarum, 54, 583–586.
• Hussain, M., Ahmad, M.S.A. ve Kausar, A., 2006. Effect of Lead and Chromium on Growth, Photosynthetic Pigments and Yield Components in Mash Bean [Vigna mungo (L.) Hepper]. Pakistan Journal of Botany, 38, 1389–1396.
• Kimbrough, D.E., Cohen, Y., Winer, A.M., Creelam, L. ve Mabuni, C., 1999. A Critical Assessment of Chromium in the Environment. Critical Reviews in Environmental Science and Technology, 29, 1–46.
• Lu, X., Kruatrachue, M., Pokethitiyook, P. ve Hompok, K., 2004. Removal of Cadmium and Zinc by Water Hyacinth, Eichhornia crassipes. Science Asia, 30, 93–103
• McGrath, S.P., 1995. Chromium and Nickel. In: Alloway, B.J. (Ed.), Heavy Metal in Soils, Second Ed. Chapman and Hall, Great Britain, 152–178.
• Panda, S.K. ve Parta, H.K., 1997. Physiology of Chromium Toxicity in Plants-A Review”, Plant Physiology and Biochemistry, 24, 10–17.
• Panda, S.K. ve Choudhury, S., 2005. Chromium Stress in Plants. Brazilian Journal of Plant Physiology, 17, 95–102.
• Panda, S.K., 2007. Chromium–Mediated Oxidative Stress and Ultrastructural Changes in Root Cells of Developing Rice Seedlings. Journal of Plant Physiology, 164, 1419–1428.
• Pandey, V., Dixit, V. ve Shyam, R., 2009a. Chromium (VI) Induced Changes in Growth and Root Plasma Membrane Redox Activities in Pea Plants. Protoplasma, 235, 49–55.
• Pandey, V., Dixit, V. ve Shyam, R., 2009b. Chromium Effect on ROS Generation and Detoxification in Pea Protoplasma, 236, 85–95. Leaf Chloroplasts.
• Rout, G.R., Samantaray, S. ve Das, P., 1997. Differential Chromium Tolerance Among Eight Mung Bean Cultivars Grown in Nutrient Culture. Journal of Plant Nutrition, 20, 341–347.
• Samantaray, S., 2002. Biochemical Responses of Cr– Tolerant and Cr–Sensitive Mung Bean Cultivars Grown Chemosphere, 47, 1065–1072. Levels of Chromium.
• Shanker, A.K. ve Pathmanabhan, G., 2004. Speciation Dependent Antioxidative Response in Roots and Leaves of Sorghum (Sorghum bicolor (L.) Moench cv. CO27) under Cr(III) and Cr(VI) Stress. Plant and Soil, 265, 141–151.
• Shanker, A.K., Cervantes, C., Loza–Tavera, H. ve Avudainayagam, S., 2005. Chromium Toxicity in Plants. Environment International, 31, 739–753.
• Sharma, D.C., Chatterjee, C. ve Sharma, C.P., 1995. Chromium Accumulation and Its Effects on Wheat (Triticum aestivum L. cv. Dh2204) Metabolism. Plant Science, 111, 145–151.
• Subrahmanyam, D., 2008. Effects of Chromium Toxicity on Leaf Photosynthetic Characteristics and Oxidative Changes in Wheat (Triticum aestivum L.). Photosynthetica, 46, 339–345.
• Toppi, L.S.D., Fossati, F., Musetti, R., Mikerezi, I. ve Favali, M.A., 2002. Effects of Hexavalent Chromium on Maize, Tomato and Cauliflower Plants. Journal of Plant Nutrition, 25, 701–717.
• Vernay, P., Gauthier–Moussard, C. ve Hitmi, A., 2007. Interaction of Bioaccumulation of Heavy Metal Chromium with Water Relation, Mineral Nutrition and Photosynthesis in Developed Leaves of Lolium perenne L. Chemosphere, 68, 1563–1575.
• Vernay, P., Gauthier–Moussard, C., Jean, L., Bordas, F., Faure, O., Ledoigt, G. ve Hitmi, A., 2008. Effect of Chromium Species on Phytochemical and Physiological Parameters in Datura innoxia. Chemosphere, 72, 763–771.
• Zayed, A.M. ve Terry, N., 2003. Chromium in the Environment: Remediation. Plant and Soil, 249, 139–156. Affecting Biological