Influência da aplicação parcelada do Ca(OH)2 e do fósforo na produção de matéria seca do sorgo (Sorghum bicolor L. Moench) e nas principais formas de fósforo do solo

Figueroa, Oscar O. Loli; Neptune, André M. Louis

doi:10.1590/S0071-12761987000200005

Resumos

Empregando-se o sorgo (Sorghum bicolor L. Moench), c.v. Brandes como planta teste e um solo Podzólico Vermelho-Amarelo da zona de Capão Bonito, ordem Oxissol, São Paulo, foi conduzido o presente trabalho experimental em vasos com capacidade para três quilos de TFSA instalados na casa de vegetação do Departamento de Solos, Geologia e Fertilizantes da Escola Superior de Agricultura "Luiz de Queiroz", USP, de setembro de 1983 até fevereiro de 1984, período em que predominaram altas temperaturas. Calagem feita parceladamente e aplicação parcelada do fertilizante fosfatado em doses diferentes foram testados, na segunda cultura do sorgo, após a qual, a matéria seca foi colhida e analisada. Amostras de solo foram retiradas para as determinações do fósforo ligado ao cálcio, ferro e ao alumínio. De acordo com as condições nas quais executou-se o experimento e com os resultados obtidos, chegou-se às seguintes conclusões: a. Há um melhor aproveitamento do fertilizante fosfatado, pela segunda cultura do sorgo, quando este foi aplicado parceladamente. b. A calagem permite um melhor desenvolvimento da planta, mas este desenvolvimento é bem melhor quando o fertilizante fosfatado ê fornecido. c. Não existe uma liberação do fósforo ligado ao ferro com a aplicação da calagem. d. Ofosfato de cálcio sofre um acréscimo na sua concentração devido à calagem, o que é acentuado com as doses de fósforo. e. A concentração do fósforo ligado ao cálcio e ao alumínio encontra-se inversamente relacionado com o fósforo ligado ao ferro e com a produção de matéria seca na segunda cultura do sorgo.

A pot experiment was conducted in a greenhouse using soil taken from a Red-Yellow Podzolic and sorghum as the test plant. The main objective of the experiment was to verify the following hypothesis: split application of phosphate fertilizer results in higher efficiency in the uptake of this nutrient by the plant.. The experiment was run from September 1983 till February 1984, a period in which high temperature prevails. The variables considered in this study were: date of liming, rates and forms of phosphate application1. Various levels of these factors were combined making up a total of 15 treatments for the second sorghum crop. The data collected were as follows, dry matter weight, contents of calcium,iron and aluminum phosphates of soil samples taken from each treatment. These data were statistically analysed at the CENA Computer Center. The following conclusions were drawn based on the experimental conditions and on the results obtained a. split application of phosphate led to a better use of phosphate fertilizer by the second sorghum crop. b. liming contributes to a better development of the plant which is enhanced by the application of phosphate fertilizer. c. limimg does not affect the availability of iron phosphoris d. there is an increase in the concentration of calcium phosphate due to lining and that increases with the rate of phosphorus application. e. the concentration of calcium linked to phosphates relates inversely to aluminum phosphate and to the yield of dry matter in the second sorghum crop.

Influência da aplicação parcelada do Ca(OH)₂ e do fósforo na produção de matéria seca do sorgo (Sorghum bicolor L. Moench) e nas principais formas de fósforo do solo

Influence of split application of Ca(OH)₂ and phosphorus on the dry matter yield of sorghum (Sorghum bicolor L. Moench) cv. brandes and the main forms of soil phosphorus

Oscar O. Loli Figueroa^I; André M. Louis Neptune^II

^IUniversidade Nacional Agrária de la Selva Tingo Maria, Peru

^IIUniversidade de São Paulo-ESALQ-Piracicaba, SP

RESUMO

Empregando-se o sorgo (Sorghum bicolor L. Moench), c.v. Brandes como planta teste e um solo Podzólico Vermelho-Amarelo da zona de Capão Bonito, ordem Oxissol, São Paulo, foi conduzido o presente trabalho experimental em vasos com capacidade para três quilos de TFSA instalados na casa de vegetação do Departamento de Solos, Geologia e Fertilizantes da Escola Superior de Agricultura "Luiz de Queiroz", USP, de setembro de 1983 até fevereiro de 1984, período em que predominaram altas temperaturas.

Calagem feita parceladamente e aplicação parcelada do fertilizante fosfatado em doses diferentes foram testados, na segunda cultura do sorgo, após a qual, a matéria seca foi colhida e analisada. Amostras de solo foram retiradas para as determinações do fósforo ligado ao cálcio, ferro e ao alumínio.

De acordo com as condições nas quais executou-se o experimento e com os resultados obtidos, chegou-se às seguintes conclusões:

a. Há um melhor aproveitamento do fertilizante fosfatado, pela segunda cultura do sorgo, quando este foi aplicado parceladamente.

b. A calagem permite um melhor desenvolvimento da planta, mas este desenvolvimento é bem melhor quando o fertilizante fosfatado ê fornecido.

c. Não existe uma liberação do fósforo ligado ao ferro com a aplicação da calagem.

d. Ofosfato de cálcio sofre um acréscimo na sua concentração devido à calagem, o que é acentuado com as doses de fósforo.

e. A concentração do fósforo ligado ao cálcio e ao alumínio encontra-se inversamente relacionado com o fósforo ligado ao ferro e com a produção de matéria seca na segunda cultura do sorgo.

SUMMARY

A pot experiment was conducted in a greenhouse using soil taken from a Red-Yellow Podzolic and sorghum as the test plant. The main objective of the experiment was to verify the following hypothesis: split application of phosphate fertilizer results in higher efficiency in the uptake of this nutrient by the plant..

The experiment was run from September 1983 till February 1984, a period in which high temperature prevails. The variables considered in this study were: date of liming, rates and forms of phosphate application1. Various levels of these factors were combined making up a total of 15 treatments for the second sorghum crop. The data collected were as follows, dry matter weight, contents of calcium,iron and aluminum phosphates of soil samples taken from each treatment. These data were statistically analysed at the CENA Computer Center.

The following conclusions were drawn based on the experimental conditions and on the results obtained

a. split application of phosphate led to a better use of phosphate fertilizer by the second sorghum crop.

b. liming contributes to a better development of the plant which is enhanced by the application of phosphate fertilizer.

c. limimg does not affect the availability of iron phosphoris

d. there is an increase in the concentration of calcium phosphate due to lining and that increases with the rate of phosphorus application.

e. the concentration of calcium linked to phosphates relates inversely to aluminum phosphate and to the yield of dry matter in the second sorghum crop.

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LITERATURA CITADA

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ALCARDE, J.C. 1983. Características de qualidade dos corretivos da acidez do solo. VI Reunião Brasileira de Fertilidade do Solo, 30 VIII ao 03 IX,1982. Campinas. Sociedade Brasileira da Ciência do Solo.
BARROW, N.J. 1979. The effects of temperature on the reactions between inorganic phosphate and soil. Journal of Soil Science, 30(2):271-279.
BARROW, N.J. e T.C. SHAW. 1975.The slow reactions between soil and anions. 2. Effect of time and temperature on the decrease in phosphate concentration in the soil solution. Soil Science, 119(2):167-177.
BARROW, N.J. e T.C. SHAW. 1979. Effect of ionic strengh and nature of the cation on desorption of phosphate from soil. Journal of Soil Science, 30(1):53-65.
BARTLETT, R.J. e D.C. RIEGO. 1972. Toxicity of Hidroxy aluminum in relation to pH and phosphorus. Soil Science, 114(3): 194-200.
BLUE, W.G. 1970. The effect of lime on retention of fertilizer phosphorus in Leon fine sand. Proceedings Soil Crop Science Society. Florida. 30:141-150.
BORNEMISZA, E. 1966. El fósforo organico en Suelos tropicales. Turrialba, 16(1):33-38.
BRENES, E. e R. W. PEARSON. 1973. Root responses of three gramineas species to soil acidity in an Oxisol and an Ultisol. Soil Science, 116(4):295-302.
CATANI, R.A. e O.C. BATAGLI A. 1968. Formas e ocorrências do fósforo no solo latossólico roxo. Anais da Escola Superior de Agricultura "Luiz de Queiroz", XXV: 99-119.
CHANG, S.C e M.L. JACKSON. 1958. Soil phosphorus fractions in some representative soils. Journal of Soil Science 9(1) :109-119.
CHIEN, S.H.; SAVANT, N.K. e U. MOKMUNYE. 1982 Effects of temperature on phosphate sorption and desorption in two acid soils. Soil Science, 133 (3):160-166.
COLEMAN, N.T., KAMPRATH, E.J. e WEED, S.B. 1958. Liming. Adv. Agron., 10:475-522.
FASSBENDER, H.W. 1966. Formas de los fosfatos en algunos suelos de la zona oriental de la Meseta Central y de las Llanuras Atlânticas de Costa Rica. Fitotecnia Latinoamericana, 3(1,2):187-202.
FASSBENDER, H.W. 1981. Química de suelos. Instituto Interamericano de Ciências Agrícolas.
FASSBENDER, H.W.; BEINR0TH, F.H. e L.S. SARMIENT0. 1978. Amount and forms of phosphorus in ten highly weathered soils of Puerto Rico. Turrialba, 28(1):9-13.
FASSBENDER, H.; MULLER, L. e F. BALERDI. 1968. Estudo del fósforo en suelos de América Central. III. Formas y su relación con las plantas. Turrialba, 18(4):333-347.
FOX, R.L. e E.J. KAMPRATH. 1970. Phosphate sorption isotherms for evaluating the phosphate requirement of soil. Proceedings of Soil Science Society of America, 34(6):902-907.
FOY, C.D. e BROWN, J.C. 1963. Toxic factors in acid soils. I. Characterization of aluminium toxicity in cotton. Proc. Soil Sci. Soc. Amer., 27:403-407.
FRIED, M. e R.E. SHAPIRO. 1960. Soil-Plant relations in phosphorus uptake. Soil Science, 90(1):69-76.
GRANT, W. 1975. The relations between organic matter content and exchangeable aluminum in acid soil. Proceedings os Soil Science Society of America, 39(3): 591.
GUTIERREZ, J. 1979. The relationships between inorganic phosphorus and the degree of weathering in Andosols. Anales Edafologia Agrobiologia, 1979, 38(9.10):1479-1494. In: Phosphorus in Agriculture, 1982, nş 82, p.64.
HAYNES, R.J. 1982. Effects of liming on phosphate availability in acid soil. Plant and Soil, 68(3):289-308.
HEMWALL, J. 1957. The fixation of phosphorus by soils. Advances in Agronomy, IX:95-112.
HSU, P.H. e M.L. JACKSON. 1960. Inorganic phosphate transformation by chemical wathering in soil influenced by pH. Soil Science, 90(1):16-24.
JACKSON, M.L. 197O. Análisis químico de suelos. OMEGA. 2Ş edición-Barcelona-Espanha.
JORGE, J. e J. VALADARES, 1969. Formas de fósforo em solos do Estado de São Paulo. Bragantia, 28(2):23-30.
JUO, A.S. e R.L. FOX. 1977. Phosphate sorption characteristics of some Bench mark soils of West-Africa. Soil Science 124(6):370-376.
KAMPRATH, E.J. 1976. Phosphorus fixation and availability in highly wathered soils. IV Simpósio sobre o Cerrado: bases para a utilização agropecuária. 333-347.
KUO, S. and E.G. LOTSE. 1974. Kinetics of phosphate adsorption and desorption by hematite and gibbsite. Soil Science, 116(6):400-406.
LANCE, J.C. e PEARSON, R.W. 1969. Effect of low concentrations of aluminium on growth and water nutrient uptake by cotton roots. Proc. Soil Sci. Soc. Amer. 33:95-98.
LARSEN, S. 1967. Soil phosphorus. Adv. Agron. 19:151-207.
LINDSAY, W.L.; FRAZIER, A.W. e H.F. STEPHENSON.1962. Identification of reaction products from phosphate fertilizer in soils. Proceedings of Soil Science Society of America, 26(5):446-452.
MACK, A.R. e S. BARBER. 1960. Influence of temperature and moisture on soil phosphorus. I. Effect on soil phosphorus fractions. Proceedings of Soil Science Society of America, 24(5):381-385.
MALAVOLTA, E. 1981. Manual de química agrícola: adubos e adubação. Editora Agronômica Ceres Ltda. São Paulo. 3a. ed.
MATTIAZZO, P.M. 1979. Fracionamento de fósforo de solos incubados com vinhaça. Dissertação apresentada à Escola Superior de Agricultura "Luiz de Queiroz", para obter o título de Mestre em Solos e Nutrição de Plantas. Piracicaba.
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MISRA, S.G. e B.P. GUPTA. 1971. Distribution of added phosphorus in soits as influenced by ferro ferric and aluminum ions. Anales INIA 1971. Serie geral. nş 1. 201-207. In. Phosphorus in Agriculture. Octubre 1973. nş 61. p. 58.
MULJADI, D.; POSNER, A.M. e J.P. QUIRK. 1966. The mechanism of phosphate adsorption by kaolimite, gibbsite and pseudoboehmite. l.ll.lll. Journal of Soil Science, 17(2):212-237.
NAGARAJAH, S.; POSNER, A.M. e J.P. QUIRK. 1968. Desorption of phosphate from kaolinite by citrate and bicarbonate. Journal of Soil Science Society of America, 32(4):507-510.
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Datas de Publicação

Publicação nesta coleção
20 Ago 2010
Data do Fascículo
1987

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

[1] AL-ABBAS, A. e S.A. BARBER, 1964. A soil test for phosphorus based upon fractionation of soil phosphorus: I. Correlation of soil phosphorus fractions with plant available phosphorus. Proceedings Soil Science Society of America, 28(2): 218-221.

[2] ALCARDE, J.C. 1983. Características de qualidade dos corretivos da acidez do solo. VI Reunião Brasileira de Fertilidade do Solo, 30 VIII ao 03 IX,1982. Campinas. Sociedade Brasileira da Ciência do Solo.

[3] BARROW, N.J. 1979. The effects of temperature on the reactions between inorganic phosphate and soil. Journal of Soil Science, 30(2):271-279.

[4] BARROW, N.J. e T.C. SHAW. 1975.The slow reactions between soil and anions. 2. Effect of time and temperature on the decrease in phosphate concentration in the soil solution. Soil Science, 119(2):167-177.

[5] BARROW, N.J. e T.C. SHAW. 1979. Effect of ionic strengh and nature of the cation on desorption of phosphate from soil. Journal of Soil Science, 30(1):53-65.

[6] BARTLETT, R.J. e D.C. RIEGO. 1972. Toxicity of Hidroxy aluminum in relation to pH and phosphorus. Soil Science, 114(3): 194-200.

[7] BLUE, W.G. 1970. The effect of lime on retention of fertilizer phosphorus in Leon fine sand. Proceedings Soil Crop Science Society. Florida. 30:141-150.

[8] BORNEMISZA, E. 1966. El fósforo organico en Suelos tropicales. Turrialba, 16(1):33-38.

[9] BRENES, E. e R. W. PEARSON. 1973. Root responses of three gramineas species to soil acidity in an Oxisol and an Ultisol. Soil Science, 116(4):295-302.

[10] CATANI, R.A. e O.C. BATAGLI A. 1968. Formas e ocorrências do fósforo no solo latossólico roxo. Anais da Escola Superior de Agricultura "Luiz de Queiroz", XXV: 99-119.

[11] CHANG, S.C e M.L. JACKSON. 1958. Soil phosphorus fractions in some representative soils. Journal of Soil Science 9(1) :109-119.

[12] CHIEN, S.H.; SAVANT, N.K. e U. MOKMUNYE. 1982 Effects of temperature on phosphate sorption and desorption in two acid soils. Soil Science, 133 (3):160-166.

[13] COLEMAN, N.T., KAMPRATH, E.J. e WEED, S.B. 1958. Liming. Adv. Agron., 10:475-522.

[14] FASSBENDER, H.W. 1966. Formas de los fosfatos en algunos suelos de la zona oriental de la Meseta Central y de las Llanuras Atlânticas de Costa Rica. Fitotecnia Latinoamericana, 3(1,2):187-202.

[15] FASSBENDER, H.W. 1981. Química de suelos. Instituto Interamericano de Ciências Agrícolas.

[16] FASSBENDER, H.W.; BEINR0TH, F.H. e L.S. SARMIENT0. 1978. Amount and forms of phosphorus in ten highly weathered soils of Puerto Rico. Turrialba, 28(1):9-13.

[17] FASSBENDER, H.; MULLER, L. e F. BALERDI. 1968. Estudo del fósforo en suelos de América Central. III. Formas y su relación con las plantas. Turrialba, 18(4):333-347.

[18] FOX, R.L. e E.J. KAMPRATH. 1970. Phosphate sorption isotherms for evaluating the phosphate requirement of soil. Proceedings of Soil Science Society of America, 34(6):902-907.

[19] FOY, C.D. e BROWN, J.C. 1963. Toxic factors in acid soils. I. Characterization of aluminium toxicity in cotton. Proc. Soil Sci. Soc. Amer., 27:403-407.

[20] FRIED, M. e R.E. SHAPIRO. 1960. Soil-Plant relations in phosphorus uptake. Soil Science, 90(1):69-76.

[21] GRANT, W. 1975. The relations between organic matter content and exchangeable aluminum in acid soil. Proceedings os Soil Science Society of America, 39(3): 591.

[22] GUTIERREZ, J. 1979. The relationships between inorganic phosphorus and the degree of weathering in Andosols. Anales Edafologia Agrobiologia, 1979, 38(9.10):1479-1494. In: Phosphorus in Agriculture, 1982, nş 82, p.64.

[23] HAYNES, R.J. 1982. Effects of liming on phosphate availability in acid soil. Plant and Soil, 68(3):289-308.

[24] HEMWALL, J. 1957. The fixation of phosphorus by soils. Advances in Agronomy, IX:95-112.

[25] HSU, P.H. e M.L. JACKSON. 1960. Inorganic phosphate transformation by chemical wathering in soil influenced by pH. Soil Science, 90(1):16-24.

[26] JACKSON, M.L. 197O. Análisis químico de suelos. OMEGA. 2Ş edición-Barcelona-Espanha.

[27] JORGE, J. e J. VALADARES, 1969. Formas de fósforo em solos do Estado de São Paulo. Bragantia, 28(2):23-30.

[28] JUO, A.S. e R.L. FOX. 1977. Phosphate sorption characteristics of some Bench mark soils of West-Africa. Soil Science 124(6):370-376.

[29] KAMPRATH, E.J. 1976. Phosphorus fixation and availability in highly wathered soils. IV Simpósio sobre o Cerrado: bases para a utilização agropecuária. 333-347.

[30] KUO, S. and E.G. LOTSE. 1974. Kinetics of phosphate adsorption and desorption by hematite and gibbsite. Soil Science, 116(6):400-406.

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

[32] LARSEN, S. 1967. Soil phosphorus. Adv. Agron. 19:151-207.

[33] LINDSAY, W.L.; FRAZIER, A.W. e H.F. STEPHENSON.1962. Identification of reaction products from phosphate fertilizer in soils. Proceedings of Soil Science Society of America, 26(5):446-452.

[34] MACK, A.R. e S. BARBER. 1960. Influence of temperature and moisture on soil phosphorus. I. Effect on soil phosphorus fractions. Proceedings of Soil Science Society of America, 24(5):381-385.

[35] MALAVOLTA, E. 1981. Manual de química agrícola: adubos e adubação. Editora Agronômica Ceres Ltda. São Paulo. 3a. ed.

[36] MATTIAZZO, P.M. 1979. Fracionamento de fósforo de solos incubados com vinhaça. Dissertação apresentada à Escola Superior de Agricultura "Luiz de Queiroz", para obter o título de Mestre em Solos e Nutrição de Plantas. Piracicaba.

[37] MENGEL, D. e E.A. KIRKBY. 1982. Principles of plant nutrition. Internacional Potash Institute. 3a. ed.

[38] MISRA, S.G. e B.P. GUPTA. 1971. Distribution of added phosphorus in soits as influenced by ferro ferric and aluminum ions. Anales INIA 1971. Serie geral. nş 1. 201-207. In. Phosphorus in Agriculture. Octubre 1973. nş 61. p. 58.

[39] MULJADI, D.; POSNER, A.M. e J.P. QUIRK. 1966. The mechanism of phosphate adsorption by kaolimite, gibbsite and pseudoboehmite. l.ll.lll. Journal of Soil Science, 17(2):212-237.

[40] NAGARAJAH, S.; POSNER, A.M. e J.P. QUIRK. 1968. Desorption of phosphate from kaolinite by citrate and bicarbonate. Journal of Soil Science Society of America, 32(4):507-510.

[41] NELSON, W.L.; KRANTZ, B.A.; COLWELL, W.E.; WOLTZ, W.G.; HAWKINS, A.; DEAN, L.A.; MACKENZIE, A.J. e E.J. RUBINS. 1942. Application of radioactive tracer technique to studies of phosphatic fertilizer utilization by crops. II. Field experiment.Proceedings of Soil Science Society of America. 12:113-123.

[42] NEPTUNE, A.M.L. 1975. Aplicação de calcario em culturas forrageiras. In: Anais do 2ş Simpósio sobre Manejo da Pastagem. ESALQ- Piracicaba, SP.

[43] NEPTUNE, A.M.L. 1976. O fósforo no solo. In: Curso de Nutrição de Plantas, Fertilidade do Solo e Adubação. USP-ESALQ. Ministério da Agricultura. Pag. 157-187.

[44] OTTABONG, E. 1981. Inmobilization and mobilization of phosphorus status of calcium and soil acidity in two peats incubated without and lime. Acta Agric. Scandinávica, 31(2):123-131. In. Fertilizer and Agriculture, setembro 1982., nş 83, p. 60.

[45] PARFITT, R.L.; ATKINSON, R.J. e R.S.C. SMART. 1975. The mechanism of phosphate fixation by iron oxides. Proceedings of Soil Society of America, 39(5):837-841.

[46] PARFITT, R.L.; FRASER, A.R. e V.C. FARMER. 1977. Adsorption on hydrous oxides. III. Fulvic acid and humic acid on goethite, gibbsite and imogolite. Journal of Soil Science, 28(2):289-296.

[47] PERKINS, A. e H.H. KING. 1944. Phosphate fixation by soil minerals: mica and related groups Proceedings of Soil Science Society of America. 8-154-158.

[48] PRATT, P.F. 1961. Phosphorus and aluminum interactions in the modifications of soils. Proceedings of Soil Science Society of America, 25(6): 467-469.

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Brasil

Brasil

Influência da aplicação parcelada do Ca(OH)2 e do fósforo na produção de matéria seca do sorgo (Sorghum bicolor L. Moench) e nas principais formas de fósforo do solo

Influence of split application of Ca(OH)2 and phosphorus on the dry matter yield of sorghum (Sorghum bicolor L. Moench) cv. brandes and the main forms of soil phosphorus

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