Az Eszterházy Károly Tanárképző Főiskola Tudományos Közleményei. 2004. Sectio Biologiae. (Acta Academiae Paedagogicae Agriensis : Nova series ; Tom. 25)
Zsoldos, F., Vashegyi, Á., Pécsváradi, A. and Bóna, L.: Aluminium toxicity in roots: correlation between root elongation and potassium fluxes in aluminium-sensitive and aluminium-tolerant cereal species
166 Zsoldos, F. et al. Moustakas, M.), pp. 277-280. Kluwer Acad. Publ., Dordrecht, The Netherlands. BÓNA , E-, R. J. WRIGHT AND V. C. BALIGAR . (1992) Acid soil tolerance of Triticum aestivum L. and Triticum durum Desf. genotypes. Cereal. Res. Commun. 20, 95-101. BÓNA , L., V. C. BALIGAR AND R. J. WRIGHT. (1995): Soil acidity effects on agribotanical traits of durum and common wheat. In: Plant-Soil Interaction at Low pH: Principles and Management, (eds. Date, R. A., Gurdon, N. J., Rayment, G. E. and Probert, M. E.), pp. 425-428. Kluwer Acad. Publ., Hecht-Buchholz, C. and Foy, C. D. 1981 Effect of aluminium toxicity on root morphology of barley. Plant and Soil 63, 93-95. Kochian, L. V. (1995): Cellular mechanisms Dordrecht, The Netherlands. CLARKSON, D. T. (1967): Interactions between aluminium and phosphorus on root surfaces and cell wall materials. Plant Soil 27, 347-356. ERDEI, L. AND ZSOLDOS, F. (1977): Potassium absorption by rice at different levels of organization. I. Effects of temperature and calcium on K' fluxes and content. Physiol. Plant. 41, 99-104. FOY, C. D. (1992): Soil chemical factors limiting plant growth. Adv. Soil Sci. 19:97-149.of aluminium toxicity and resistance in plants. Annu. Rev. Plant Physiol. Mol. Biol. 46, 237-260. KOCHIAN, L. V. AND JONES, D .L. (1997): Aluminum toxicity and resistance in plants. In: Research Issues in Aluminum Toxicity, (eds. Yokel, R. and Golub, M. S.) pp. 69-89. Taylor and Francis Publishers, Washington, D. C. LIBAGA, A., SHEN, H., SHIBATA, K., YAMAMOTO, Y., TANAKAMARU, S. AND MATSUMOTO, H. (2004): The role of phosphorus in aluminium-induced citrate and malate exudation from rape (Brassica napus). Physiol. Plant. 120, 575-584. LIPTON, D. S., BALANCHAR, R. W. AND BLEVINS, D. G. (1987): Citrate, malate and succinate concentration in exudates from P-sufficient and P-stressed Medicago sativa L. seedlings. Plant Physiol. 85, 315-317. LÜTTGE, U. AND CLARKSON, D. T. (1992): Mineral Nutrition: Aluminium. Progress in Botany. 53, 63-77. MA, J. F., RYAN, P. R. AND DELHAIZE, E. (2001): Aluminium tolerance in plants and the complexing role of organic acids. Trends in Plant Sci. 6, 273-278. MARSCHNER, H. (1995): Mineral Nutrition of Higher Plants, pp. 605-626. Acad. Press, New York. MCCORMICK, L. H. AND BORDEN, F. Y. (1973) The occurrence of aluminiumphosphate precipitate in plant roots. Soil. Sci. Soc. Amer. Proc. 38, 931-934. MIYASAKA, S. C., BUTA, J. G. HOWELL, R. K. AND FOY C. F. (1991): Mechanism of aluminium tolerance in snap beans. Root exudation of citric acid. Plant Physiol. 96, 737-743. NAIDOO, G., STEWART, J. M. AND LEWIS, J. R. (1978): Accumulation sites of Al in snap bean and cotton roots. Agronomy J. 70, 489-492. OGAWA, H. AND MATSUMOTO, H. (2001): Possible involvement of protein phosphorilation in aluminium responsive malate efflux from wheat root apex. Plant Physiol. 126, 411-420.
