Estudos sobre a nutrição mineral do sorgo granífero: VI. absorção de fosfato por raizes destacadas de plantas de três variedades comerciais

Malavolta, E.; Freire, F.M.; Casagrande, J.C.; Carretero, M.V.; Stolf, R.; Pedras, J.F.; Dematté, M.E.S.P.; Pitelli, R. A.; Politano, W.

doi:10.1590/S0071-12761977000100029

Resumos

Foi estudada a absorção de fosfato marcado com 32P por raizes destacadas de três variedades de sorgo granífero. A influência do tempo, concentração iônica externa, pH, aeração, venenos respiratórios e desacopladores de fosforilação oxidativa foi considerada; o estudo da cinéstica da absorção mostrou diferenças entre as variedades nos parâmetros michaelianos.

Experiments were carried out in order to study the effect of time external concentration, pH, temperature, aeration and inhibitors (KF, KCN and 2,4-DNP) on the phosphate absorption by the excised roots of grain Sorghum bicolor L. Moench var. Contibrasil 102, DeKalb and Tey-101, using 32P as tracer.

Estudos sobre a nutrição mineral do sorgo granífero. VI. Absorção de fosfato por raizes destacadas de plantas de três variedades comerciais

Studies on the mineral nutrition of grain sorghum. VI. Absorpition of phosphate by excised roots of three commercial varieties

E. Malavolta^I; F.M. Freire^I; J.C. Casagrande^I; M.V. Carretero^I; R. Stolf^I; J.F. Pedras^I; M.E.S.P. Dematté^II; R. A. Pitelli^II; W. Politano^II

^IDepartamento de Química e CENA, E.S.A. "Luiz de Queiroz", USP

^IIEstudantes pós graduados de Solos & Nutrição de Plantas

RESUMO

Foi estudada a absorção de fosfato marcado com ³²P por raizes destacadas de três variedades de sorgo granífero. A influência do tempo, concentração iônica externa, pH, aeração, venenos respiratórios e desacopladores de fosforilação oxidativa foi considerada; o estudo da cinéstica da absorção mostrou diferenças entre as variedades nos parâmetros michaelianos.

SUMMARY

Experiments were carried out in order to study the effect of time external concentration, pH, temperature, aeration and inhibitors (KF, KCN and 2,4-DNP) on the phosphate absorption by the excised roots of grain Sorghum bicolor L. Moench var. Contibrasil 102, DeKalb and Tey-101, using ³²P as tracer.

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LITERATURA CITADA

Entregue para publicação em 12-12-1977.

Com ajuda do BNDE (FUNTEC 293), FAPESP e CNEN.

BUTTLER, G.W., 1953. Ion uptake by young wheat plants. III. Phosphate absorption by excised roots. In: Physiologia Plantarum Copenhagen. Amsterdam. Ed. Scandinavica 6: 637-661.
EPSTEIN, E. 1975. Nutrição Mineralde Plantas. Rio de Janeiro, Livros Técnicos e Cieníficos S.A. Tradução de E. Malavolta, 341 p.
HAGEN, C.E. & H.T. HOPKINS. 1955. Ionic species in orthophosphate absorption by barley roots. Plant Physiol. Washington, USA 30: 193-199.
HOAGLAND, D.R. & D.I. ARNON. 1950. The water culture method for growing plants without soil. Calif. Agr. Exp. Sta. Circ. 347.
HOFSTEE, B.H.J. 1952. On the evoluation of the constants Vm and Km in enzyme reactions. Science Washington, USA, 116: 329-331.
HOPKINS, H.T. 1956. Absorption of ionic species of othophosphate by barley roots: effects of 2,4 dinitrophenol and oxigen tension. Plant Physiology, Washington, U.S.A. 31(2): 155-161.
HUMBERT, R.P. 1968. The Growing of Sugar Cane. Amsterdam. Elsevier Pyblishing Company, 779 p.
JACKON, S.B., S.B. HENDRICKS & B.M. VASTA. 1962. Phosphorylation by barley root mitocondria & phosphate absorption by barley roots, Plant Physiology. Washington, U.S.A. 37(15): 8-17.
JAMES, W.O. 1953. The use of respiratory inhibitors. Annual review of plant physiology. Standord, California, U.S.A. 4: 59-90.
KNOLL, H .A. D.J. LATHWELL & N.C. BRADY. 1964. The influence of root zone temperature on the growth and cpntents of phosphorus and anthocyanin. Soil Sci. Soc. Amer. Proc. Madison, Wisconsin 28(3): 400-403.
LINGLE, J.C. & R.M. DAVIS. 1959. The influence of soil temperature and phospharus fertilization on the growth and mineral absorption of tomato seedlings. Proc. Amer. Soc. Hort. Sci., Ithaca. New York. 73: 312-322.
LOUGHMAN, B.C. & R.S. RUSSELL, 1957. The absorption and utilization of phosphate by young barley plants. Journal of Experimental Botany. Oxford, England, 8(23): 280-293.
MALAVOLTA, E. 1976. Manual de Química Agrícola. São Paulo, Editora Agronômica Ceres. 528 p.
MALAVOLTA, E. 1970. Nutrição Mineral de Plantas. Curso Pós Graduado de Solos e Nutrição de Plantas. Piracicaba, São Paulo, ESALQ 234 p. (niimeografado)
MCNULTY, I.B. & J.L. LORDS. 1960. Possible explanation of fluoride-idduced respiration in Chlorella purenoidosa Science, Washington U.S.A. 132(3439): 1553-1554.
NIELSEN, K.F.; R.L. HALSTEAD; A.J. MACLEN, S.I. BOURGET & R.M. HOLMES. 1961. The influence of soil temperature on the growth and mineral composition of corn, bromegrass and potatos. Soil Sci. Soc. of Am. Pioc. Madison, Wisconsin 26: 369-372.
NISSEN, P. 1973. Multiphasic Uptake in plants. I. Phosphate and sulphate. Plant Physiol. Washington U.S.A. 28: 304-316.
NOGGLE, J.C. & M. FRIED, 1960. A kinetic analysis of phosphate absorption by excised roots of millet, barley and alfafa. Sod Sic. Soc. Amer. Proc. Madison, Wisconsin. 24(1): 33-35.
PHILLIPS, J.W., D.E. EAKER & CO. CLAGETT, 1971. Kinctcs of P absorption by excised roots and leaves of corn hybrids. Agronomy Journal, Madison. Wisconsin, 63(4): 517-520.

Datas de Publicação

Publicação nesta coleção
17 Maio 2012
Data do Fascículo
1977

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] BUTTLER, G.W., 1953. Ion uptake by young wheat plants. III. Phosphate absorption by excised roots. In: Physiologia Plantarum Copenhagen. Amsterdam. Ed. Scandinavica 6: 637-661.

[2] EPSTEIN, E. 1975. Nutrição Mineralde Plantas. Rio de Janeiro, Livros Técnicos e Cieníficos S.A. Tradução de E. Malavolta, 341 p.

[3] HAGEN, C.E. & H.T. HOPKINS. 1955. Ionic species in orthophosphate absorption by barley roots. Plant Physiol. Washington, USA 30: 193-199.

[4] HOAGLAND, D.R. & D.I. ARNON. 1950. The water culture method for growing plants without soil. Calif. Agr. Exp. Sta. Circ. 347.

[5] HOFSTEE, B.H.J. 1952. On the evoluation of the constants Vm and Km in enzyme reactions. Science Washington, USA, 116: 329-331.

[6] HOPKINS, H.T. 1956. Absorption of ionic species of othophosphate by barley roots: effects of 2,4 dinitrophenol and oxigen tension. Plant Physiology, Washington, U.S.A. 31(2): 155-161.

[7] HUMBERT, R.P. 1968. The Growing of Sugar Cane. Amsterdam. Elsevier Pyblishing Company, 779 p.

[8] JACKON, S.B., S.B. HENDRICKS & B.M. VASTA. 1962. Phosphorylation by barley root mitocondria & phosphate absorption by barley roots, Plant Physiology. Washington, U.S.A. 37(15): 8-17.

[9] JAMES, W.O. 1953. The use of respiratory inhibitors. Annual review of plant physiology. Standord, California, U.S.A. 4: 59-90.

[10] KNOLL, H .A. D.J. LATHWELL & N.C. BRADY. 1964. The influence of root zone temperature on the growth and cpntents of phosphorus and anthocyanin. Soil Sci. Soc. Amer. Proc. Madison, Wisconsin 28(3): 400-403.

[11] LINGLE, J.C. & R.M. DAVIS. 1959. The influence of soil temperature and phospharus fertilization on the growth and mineral absorption of tomato seedlings. Proc. Amer. Soc. Hort. Sci., Ithaca. New York. 73: 312-322.

[12] LOUGHMAN, B.C. & R.S. RUSSELL, 1957. The absorption and utilization of phosphate by young barley plants. Journal of Experimental Botany. Oxford, England, 8(23): 280-293.

[13] MALAVOLTA, E. 1976. Manual de Química Agrícola. São Paulo, Editora Agronômica Ceres. 528 p.

[14] MALAVOLTA, E. 1970. Nutrição Mineral de Plantas. Curso Pós Graduado de Solos e Nutrição de Plantas. Piracicaba, São Paulo, ESALQ 234 p. (niimeografado)

[15] MCNULTY, I.B. & J.L. LORDS. 1960. Possible explanation of fluoride-idduced respiration in Chlorella purenoidosa Science, Washington U.S.A. 132(3439): 1553-1554.

[16] NIELSEN, K.F.; R.L. HALSTEAD; A.J. MACLEN, S.I. BOURGET & R.M. HOLMES. 1961. The influence of soil temperature on the growth and mineral composition of corn, bromegrass and potatos. Soil Sci. Soc. of Am. Pioc. Madison, Wisconsin 26: 369-372.

[17] NISSEN, P. 1973. Multiphasic Uptake in plants. I. Phosphate and sulphate. Plant Physiol. Washington U.S.A. 28: 304-316.

[18] NOGGLE, J.C. & M. FRIED, 1960. A kinetic analysis of phosphate absorption by excised roots of millet, barley and alfafa. Sod Sic. Soc. Amer. Proc. Madison, Wisconsin. 24(1): 33-35.

[19] PHILLIPS, J.W., D.E. EAKER & CO. CLAGETT, 1971. Kinctcs of P absorption by excised roots and leaves of corn hybrids. Agronomy Journal, Madison. Wisconsin, 63(4): 517-520.

Brasil

Brasil

Estudos sobre a nutrição mineral do sorgo granífero: VI. absorção de fosfato por raizes destacadas de plantas de três variedades comerciais

Studies on the mineral nutrition of grain sorghum: VI. absorpition of phosphate by excised roots of three commercial varieties

Resumos

Datas de Publicação