Estudos sobre a nutrição mineral do sorgo granífero: VII absorção de sulfato marcado por raizes destacadas

Malavolta, E.; Ponchio, C.O.; Monteiro, F.A.; Silva, G.M.A.; Chitolina, J.C.; Nogueira, F.D.; Jaha, P.A.; Del Giudice, R.M.; Assis, V.L..G; Aguirre, A.C.P.; Caetano, A.A.; Garcia, L.L.C.; Matsui, E.; Dantas, E.C.S.; Castanheira, L.C.; Santos, E.; Gonçalves, A.N.; Faganello, B.F.; Moraes, M.; Cicero, S.M.

doi:10.1590/S0071-12761977000100032

Resumos

Um estudo da absorção de sulfato por raizes destacadas de sorgo granífero mostrou: mecanismo (ou sítios) múltiplo para absorção; o tamanho do espaço livre aparente; a influência da temperatura, pH; a dependência da atividade metabólica.

Some aspects of SO4² absorption by excised roots of "Sorghum bicolor (L.) Moench" namely, inibition effects of NaF, KCN, 2,4- DNP and factors such as aeration, solution pH and temperature on the rate of absorption were studied. The excised roots showed multiphasic mecanism of SO4²- absorption. The relative absorption rates, presented by three varieties, were in decreasing order: Tey-101, Contibrasil-101 and Dekalb-E-57. Inhibition effects on the absorption of SO4²- by excised roots were shown in the case of the three ihibitors studied hereof-. Aeration and solution temperature are important factors on SO4²- absorption. At the external solutio n concentration of Na,2SO(4)10-³M the best fitted equation to the experimental values was shown to be: umoles/g dry matter = 1,639- 1,585 exp. (-0,006618t)

Estudos sobre a nutrição mineral do sorgo granífero. VII absorção de sulfato marcado por raizes destacadas(^*)

Studies on the mineral nutrition of grain sorghum, VII sulfate uptake by excised roots

E. Malavolta^I; C.O. Ponchio^I, F.A. Monteiro, G.M.A. Silva^I; J.C. Chitolina^I; F.D. Nogueira^I; P.A. Jaha^I; R.M. Del Giudice^I; V.L..G Assis^I; A.C.P. Aguirre^I; A.A. Caetano^I; L.L.C. Garcia^I; E. Matsui^I; E.C.S. Dantas^I; L.C. Castanheira^I; E. Santos^I; A.N. Gonçalves^I; B.F. Faganello^I; M. Moraes^I; S.M. Cicero^II

^IDepartamento de Química e CENA, ESALQ, Piracicaba

^IIEstudantes pós graduados de Solos & Nutrição de Plantas

RESUMO

Um estudo da absorção de sulfato por raizes destacadas de sorgo granífero mostrou: mecanismo (ou sítios) múltiplo para absorção; o tamanho do espaço livre aparente; a influência da temperatura, pH; a dependência da atividade metabólica.

SUMMARY

Some aspects of SO₄² absorption by excised roots of "Sorghum bicolor (L.) Moench" namely, inibition effects of NaF, KCN, 2,4- DNP and factors such as aeration, solution pH and temperature on the rate of absorption were studied.

The excised roots showed multiphasic mecanism of SO₄²- absorption. The relative absorption rates, presented by three varieties, were in decreasing order: Tey-101, Contibrasil-101 and Dekalb-E-57. Inhibition effects on the absorption of SO₄²- by excised roots were shown in the case of the three ihibitors studied hereof-. Aeration and solution temperature are important factors on SO₄²- absorption.

At the external solutio n concentration of Na,₂SO₄10-³M the best fitted equation to the experimental values was shown to be:

umoles/g dry matter = 1,639- 1,585 exp. (-0,006618t)

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LITERATURA CITADA

Entregue para publicação em 22-12-1977.

Referências bibliográficas

EPSTEIN, E. 1955. Passive permeation and active transport of ions in plant roots. Plant Physiol. 30: 529-535.
EPSTEIN, E. 1975. Nutrição Mineral de Plantas: Princípios e Perspectivas. Tradução e notas de E. Malavolta. Rio de Janeiro. Livros Técnicos e Científicos. São Paulo. USP.
FERRARI, G. e PASSERA, C. 1962. The penetration of ions into plants tissues. II. Active, transport of sulphates in pectocellulose tissues, and critical, considerations on the method of its measurement. Agrochimica, 6: 323-336.
FERRARI, G. e F. RENOSTO. 1972. Regulation of sulface uptake by Excised Barley Roots in the Presence of Selenate; Plant Physiol. 49: 114-116.
HENDRIX, J. E. 1967. The effect of pH on the uptake and accumulation of phosphate and sulfate ions by bean plants. Am. J. Bot. 54:560-564.
HOFSTEE, B.H. 1952. On the evaluation of the constante Vm and Km in enzyme reactions. Science 116:329-331.
JACKSON, P.C. & ADAMS, H.R. 1963. Cation anion balance during potassium and sodium absorption by garley rots. J. Gen. Physiol. 46:369-386.
LAUCHLI, A. e EPSTEIN, E. 1970. Transport of potassium and rubidium in plant roots: the significance of calcium. Plant Physiol. 45:639-641.
LEGGET, E.J. e EPSTEIN, E. 1956. Kinetcs of sulfate absorption by barley roots. Plant Physiol. 31(3):222-226.
LINEWWAVER, H. e BURK. D. 1934. The determination of enzyme dissociation consents. Jour. Amer. Chem. Soc. 56:658-666.
LUNDEGARDH, H. 1939. An electric chemical theory of salt absorption and respiration. Nature. 143:203-204.
MALAVOLTA, E. 1970. Curso Pós Graduado de Solos e Nutrição de Plantas. Nutrição Mineral de Plantas. Piracicaba, Escola Superior de Agricultura "Luiz de Queiroz", (mimeografado).
MALAVOLTA, E. 1975. Práticas de Nutrição Mineral de Plantas, Piracicaba ESALQ, (Apostila mimeografada).
PERSSON, L. 1969. Labile-boud sulfate in wheat roots: Localization, nature and possible connection to the active absorption mechanism Physio., Plant 22: 959-976.
PR NISSEN, P. 1971. Uptake of sulfate by roots and leaf slices of barley Plant Physiol. 24: 315-324.
PETTERSSON, SUNE. 1966. Artificially induced water and sulfate transportion through sunflower roots. Physiol. Plant 19: 581-601.
PHILLIPS, J.W., D.E. BAKER e C.O. GLAGETT. 1971. Kinetcs of P absorption by excised roots and leaves of corn hybrids. Agron. Journ. 63: 517-519.
PIMENTEL GOMES, F. 1970. Estatística Experimental. 4.Ş ed. São Paulo, Nobel.
SHARGOOL, P.D. e NGO, T.T. 1975. The uptake of sulfate by excised roots of rape seedlings (Brasica napus, var. Target). Can J. Bot. 53: 914-20.

*

Com ajuda do BNDE (FUNTEC 293), FAPESP, CNEN, CAPES & CNPq

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] EPSTEIN, E. 1955. Passive permeation and active transport of ions in plant roots. Plant Physiol. 30: 529-535.

[2] EPSTEIN, E. 1975. Nutrição Mineral de Plantas: Princípios e Perspectivas. Tradução e notas de E. Malavolta. Rio de Janeiro. Livros Técnicos e Científicos. São Paulo. USP.

[3] FERRARI, G. e PASSERA, C. 1962. The penetration of ions into plants tissues. II. Active, transport of sulphates in pectocellulose tissues, and critical, considerations on the method of its measurement. Agrochimica, 6: 323-336.

[4] FERRARI, G. e F. RENOSTO. 1972. Regulation of sulface uptake by Excised Barley Roots in the Presence of Selenate; Plant Physiol. 49: 114-116.

[5] HENDRIX, J. E. 1967. The effect of pH on the uptake and accumulation of phosphate and sulfate ions by bean plants. Am. J. Bot. 54:560-564.

[6] HOFSTEE, B.H. 1952. On the evaluation of the constante Vm and Km in enzyme reactions. Science 116:329-331.

[7] JACKSON, P.C. & ADAMS, H.R. 1963. Cation anion balance during potassium and sodium absorption by garley rots. J. Gen. Physiol. 46:369-386.

[8] LAUCHLI, A. e EPSTEIN, E. 1970. Transport of potassium and rubidium in plant roots: the significance of calcium. Plant Physiol. 45:639-641.

[9] LEGGET, E.J. e EPSTEIN, E. 1956. Kinetcs of sulfate absorption by barley roots. Plant Physiol. 31(3):222-226.

[10] LINEWWAVER, H. e BURK. D. 1934. The determination of enzyme dissociation consents. Jour. Amer. Chem. Soc. 56:658-666.

[11] LUNDEGARDH, H. 1939. An electric chemical theory of salt absorption and respiration. Nature. 143:203-204.

[12] MALAVOLTA, E. 1970. Curso Pós Graduado de Solos e Nutrição de Plantas. Nutrição Mineral de Plantas. Piracicaba, Escola Superior de Agricultura "Luiz de Queiroz", (mimeografado).

[13] MALAVOLTA, E. 1975. Práticas de Nutrição Mineral de Plantas, Piracicaba ESALQ, (Apostila mimeografada).

[14] PERSSON, L. 1969. Labile-boud sulfate in wheat roots: Localization, nature and possible connection to the active absorption mechanism Physio., Plant 22: 959-976.

[15] PR NISSEN, P. 1971. Uptake of sulfate by roots and leaf slices of barley Plant Physiol. 24: 315-324.

[16] PETTERSSON, SUNE. 1966. Artificially induced water and sulfate transportion through sunflower roots. Physiol. Plant 19: 581-601.

[17] PHILLIPS, J.W., D.E. BAKER e C.O. GLAGETT. 1971. Kinetcs of P absorption by excised roots and leaves of corn hybrids. Agron. Journ. 63: 517-519.

[18] PIMENTEL GOMES, F. 1970. Estatística Experimental. 4.Ş ed. São Paulo, Nobel.

[19] SHARGOOL, P.D. e NGO, T.T. 1975. The uptake of sulfate by excised roots of rape seedlings (Brasica napus, var. Target). Can J. Bot. 53: 914-20.

Estudos sobre a nutrição mineral do sorgo granífero: VII absorção de sulfato marcado por raizes destacadas

Studies on the mineral nutrition of grain sorghum: VII sulfate uptake by excised roots

Resumos

Referências bibliográficas

Datas de Publicação