Efeito do alumínio sobre a absorção de cálcio, crescimento e composição mineral de cultivares de soja

Autores

  • Alfredo Joaquim Castelis UFV
  • Nairam Félix de Barros UFV
  • Renato Sant'Anna UFV
  • Roberto Ferreira de Novais UFV
  • Júlio César Lima Neves UFV

Palavras-chave:

absorção de cálcio, toxicidade do alumínio, composição mineral, cultivares de soja, solução nutritiva

Resumo

A nutrient solution experiment was carried out under greenhouse and growth chamber conditions to evaluate calcium (Ca) intake as a criterion of selection of soybean cultivars to aluminum (Al tolerance. The cultivars tested were Bragg, IAC-2, UFV-1, UFV-4, UFV-79-55, and UFV-80-65. A modified Andrews nutrient solution, pH 4.2, with and without aluminum (2 ppm), was used.

Referências

ANDREW, C.8. Effect of calcium, pH and nitrogen on the growth and chemical composition of some tropical and temperate pasture legumes. I Nodulation and growth. Aust J. Agric. Res., 27:611-623. 1976.

ANDREW, C.S. & JOHNSON, A.D. Effect of calcium, pH and nitrogen on the growth and chemical composition of some tropical and temperate pasture legumes. II Chemical Composition (calcium, nitrogen, potassium, magnesium sodium and phosphorus). Aust J. Agric. Res., 27:625-636. 1976.

ANDREW, C.S.; JOHNSON, A.D. & SANDLAND, R.L. Effect of aluminium on the growth and chemical composition of some tropical and temperate pasture legumes. Aust. J. Agric. Res., 24:325-339. 1973.

ARMINGER, W.R.; FOY, C.D.; FLEMING, AL. & CALDWELL, R. E. Differential tolerance of soybean varieties to an acid soil high in exchangeable aluminium. Agron. J., 60:67-70. 1968.

ARRUDA, ML.R.; FERNANDEZ, M.S. & ROSSIELLO, R.O.P. Alumínio e nitrogênio, nas variações do pH e capacidade de troca catiônica em Brachiaria decumbens. Pesq. Agron. Bras., 18:1031-1036. 1983.

BRAGA, J.M. & DEFELIPO, B.V. Determinação espectrofotométrica de fósforo em extratos de solo e material vegetal. Rev. Ceres, 21:73-85. 1974.

BRAUNER, J L. & SARRUGE, JR. Tolerância de cultivares de trigo (Triticum aestivum L.) ao alumínio e ao manganês. V. Influência do alumínio e do manganês e do grau de tolerância a cada elemento na absorção de cálcio. An. Esc. Sup. Agric. «Luiz de Queiroz», 37:865-894. 1980.

CANAL, LC. & MIELNICZUK, J. Parâmetros de absorção de potássio em milho (Zea mays L.), afetados pela interação alumínio-cálcio. Ciência e Cultura, 35:336-340. 1983.

CASTELLS, A.J.; BARROS, N.F.; NOVAIS, R.F.; SANT'ANNA, R. & NEVES, J.C.L. Absorção de fósforo como critério de seleção de genótipos de soja quanto à tolerância ao alumínio. Pesq. Agropec. Bras., 20:1163-1170. 1985.

CHEW, V. Comparing treatments means: a compendium. HortScience, 11:348-357. 1983.

CLARK, R.B. & BROWN, J.C. Differential phosphorus uptake by phosphorus-stressed corn inbreds. Crop Science, 14:505-508. 1974.

CLARKSON, D.T. Effect of aluminium on the uptake and metabolism of phosphorus by barley seedlings. Plant Physiol., 41:165-172. 1966.

CLARKSON, D.T. Interactions between aluminium and phosphorus on root surface and cell wall material. Plant and Soil, 27:347-356. 1967.

CLARKSON, D.T. & SANDERSON, J. Inhibition of the uptake and long-distance transport of calcium by áluminium and other polyvalent cations. J. Exp. Bot., 22:837-851. 1971.

COSTA, A. & BRAGA, J.M. Comportamento de variedades de soja a diferentes níveis de fosforo e saturação de alumínio. Rev. Ceres, 31:434-443. 1984.

CROOKE, W.M. Effect of soil pH and nitrogen fertilization on uptake and fractions of calcium and magnesium in two barley cultivars. Commun. Soil Sci. Pl. Anal., 11:209-221. 1980.

FERREIRA, R.P. Tolerância de cultivares de soja (Glycine max (L.) Merrill) ao alumínio em solução nutritiva. Universidade Federal de Viçosa, 1983. 53 p. (Tese de M.S.).

FOY, C.D. Effects of aluminium on plant growth. In: Carson, EW. (ed). The plant root and its environment. Charlottesville, University Press of Virginia, 1974. pp. 601-642.

FOY, C.D.; FLEMING, AL. & ARMINGER, W.H. Aluminum tolerance of soybean varieties in relation to caleium nutrition. Agron. J., 61:505-511. 1969.

HALLSWORTH, E.G.; GREENWOOD, E.AN. & AUDEN, J. Some nutrient interactions affecting the growth of pasture legumes in acid soils. J. Sci. Food Agric., 8:860-865. 1957.

HOWELER, R.H. & CADAVID, L.F. Screening of rice cultivars for tolerance for Al-toxicity in nutrient solutions as compared with a field screening method. Agron. J., 68:551-555. 1976.

HSU, P.H. Effect of initial pH, phosphate, and silicate on the determination of aluminum with aluminon. Soil Sci., 96:230-238. 1963.

JOHNSON, C.M. & ULRICH, A. Analytical methods for use in plant analysis. Berkeley, Univ. of California, California Agric. Exp. Station, 1959. p. 26-78 (Bull.n.© 766).

JOHNSON, R.F. & JACKSON, W.A. Calcium uptake and transport by wheat seedlings as affected by aluminium. Soil Sci. Soc. Amer. Proc., 28:381-386. 1964.

KLIMASHEVSKII, EL; MARKOVA, Yu.A.; SEREGINA, M.L.; GRODZINSKII, D.M. & KOZARENZO, T.D. Specifics of the physiological activity of Pea plants in connection with unequal resistance of different varieties to mobile aluminum. Soviet Plant Physiology. 17:372-378. 1970,

KOTZE, W.A.G. Ionic interactions in the uptake and transport of calcium by apple seedling. Commun. Soil Sci. Pl. Anal., 10:115-127. 1979.

KOTZE, W.A.G.; SHEAR, C.R. & FAUST, M. Effect of nitrogen source and the presence or abscence of aluminium on the growth and calcium nutrition of apple seedlings. J. Amer. Soc. Hort. Sci., 101:305-309. 1976.

LANCE, J.C. & PEARSON, R.W. Effect of low concentrations of aluminium on growth and water and nutrient uptake by cotton roots. Soil Sci. Soc. Amer. Proc., 33: 95-98. 1969.

LONERAGAN, J.F. & SNOWBALL, K. Rate of calcium absorption by plant roots and its relation to growth. Aust. J. Agric. Res., 20:479-490. 1969.

MASS, E.V. Calcium uptake by excised maize roots and interactions with alkali cations. Plant Physiol., 44:985-989. 1969.

MCCORMICK, L.H. & BORDEN, F.Y. The ocurrence of aluminium phosphate precipitate in plant roots. Soil Sci. Soc. Amer Proc., 38:931-934. 1974.

McLEAN, A.A. & CHIASSON, T.C. Differential performance of two barley varieties to varying aluminum concentrations. Can. J. Soil Sci., 46:147-153. 1966.

MENGEL, K. & KIRKBY, E.A. Principles of Plant Nutrition. Bern, Switzerland, International Potash Institute, 1978. 593 p.

MOSQUIN, P.R. Influência do alumínio sobre o crescimento e o metabolismo em plantas de Stylosanthes humilis H. B. R. Universidade Federal de Viçosa, 1978. 29 p. (Tese de M.S.).

MUCHOVEJ, R.C.M. Efeitos de níveis de corretivo em diferentes relações Ca: Mg sobre o comportamento da soja (Glycine max (L.) Merrill). Universidade Federal de Viçosa, 1980. 38 p. (Tese de M.S.).

MUZILLI, O.; SANTOS, D.; PALHANO, J.B.; MANETT], F.J.; LANTMANN, AF.; GARCIA, A. & CAETANO, A. Tolerância de cultivares de soja e de trigo à acidez do solo. Rev. Bras. Ci. Solo, 2:34-40. 1978.

OTSUKA, K. Aluminium — and Manganese — toxicities for plants (Part 3). Effect of aluminium concentration on growth and phosphorus uptake of grafted tomatoes. Soil Sci. and Plant Nutr., 15:130. 1968.

RORISON, LH. The effect of aluminium on the uptake and incorporation of phosphate by excised sainfoin roots. New Phytologist, 64:23-27. 1965.

SILVA, J.B.C. Sele¢do de gendtipos de sorgo (Sorghum bicolor (L.) Moench) e de soja (Glycine max (L.) Merril) tolerantes a toxidez de alumínio. Universidade Federal de Viçosa, 1983. 55 p. (Tese de M.S.).

WRIGHT, K.E. & DONAHUE, B.A. Aluminum toxicity studies with radioactive phosphorus. Plant Physiol., 28:674-680. 1953.

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Publicado

2025-04-10

Como Citar

Castelis, A. J., de Barros, N. F., Sant’Anna, R., Ferreira de Novais, R., & Lima Neves, J. C. (2025). Efeito do alumínio sobre a absorção de cálcio, crescimento e composição mineral de cultivares de soja. Revista Ceres, 34(193), 221–232. Recuperado de https://ojs.ceres.ufv.br/ceres/article/view/7408

Edição

v. 34 n. 193 (1987)

Seção

ARTICLE

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Este trabalho está licenciado sob uma licença Creative Commons Attribution 4.0 International License.

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