Mineralização de palha de milho e adsorção de carbono, cálcio, magnésio e potássio em substratos com caulinita natural e goethita sintética

Silva, L. S.; Bohnen, H.

doi:10.1590/S0100-06832001000200005

Resumos

Carbono e nutrientes liberados na decomposição de resíduos orgânicos podem sofrer vários tipos de interação com diferentes componentes da fase mineral, alterando sua dinâmica no solo. Com o objetivo de avaliar a retenção de carbono, Ca2+, Mg2+ e K+ em caulinita natural e goethita sintética, foi realizado um experimento com mistura de palha de milho em substratos inorgânicos preparados com areia e quantidades conhecidas de cada componente. Nesses substratos, foram realizadas percolações com água destilada aos 7, 15, 33, 68 e 113 dias de incubação, em temperatura ambiente, sendo as massas dos elementos liberados acumuladas no tempo. Após duzentos dias de incubação, foi determinado o carbono orgânico total que permaneceu nos substratos. A soma das massas de Ca2+, Mg2+, K+ e carbono, liberados com a água de percolação, foi inversamente relacionada com a massa dos componentes inorgânicos nos substratos, exceto para o K+ nos substratos com goethita. A caulinita e a goethita apresentaram diferente retenção do Ca2+, Mg2+ e K+ liberados, independentemente da área superficial, o que pode estar relacionado com suas distintas características eletroquímicas superficiais. A goethita foi mais efetiva do que a caulinita em reter carbono da solução do solo e acumular carbono orgânico total, sendo sua maior reatividade diretamente relacionada com sua superfície específica.

incubação; percolação; decomposição; minerais

Carbon and nutrients released from the mineralization of organic materials can interact with mineral components changing their dynamics in the soil. In this study, mixtures of corn straw, kaolinite, synthetic goethite, and quartz sand were leached with water after 7, 15, 33, 68 and 113 days of incubation at room temperature. Concentrations of soluble carbon, calcium, magnesium, and potassium were measured and accumulated over time. After 200 days, the total carbon remaining in the mixture was quantified. Total calcium, magnesium, and potassium percolated during the experiment were inversely correlated with the amount of kaolinite and goethite in the mixtures, except for potassium in the treatment with goethite. Adsorption of calcium, magnesium, and potassium did not relate with specific surface area of kaolinite and goethite. Otherwise, goethite was more efficient than kaolinite in retaining carbon and this property was clearly related with its surface area.

incubation; percolation; decomposition; minerals

SEÇÃO II - QUÍMICA E MINERALOGIA DO SOLO

Mineralização de palha de milho e adsorção de carbono, cálcio, magnésio e potássio em substratos com caulinita natural e goethita sintética(¹ (1 ) Trabalho apresentado como resumo no III EBSH (24 a 26/11/1999). Santa Maria (RS). )

Corn straw mineralization and carbon, calcium, magnesium and potassium adsorption in mixtures with kaolinite and synthetic goethite

L. S. Silva^I; H. Bohnen^II

^IDoutorando em Ciência do Solo no Departamento de Solos da Faculdade de Agronomia, Universidade Federal do Rio Grande do Sul - UFRGS, Caixa Postal 776, CEP 90.001-970 Porto Alegre (RS). E-mail: lssilva@vortex.ufrgs.br

^IIEngenheiro-Agrônomo, Ph.D. Colaborador convidado. Departamento de Solos, Faculdade de Agronomia, UFRGS, Caixa Postal 776, CEP 90.001-970, Porto Alegre (RS). E-mail: bohnen@conex.com.br

RESUMO

Carbono e nutrientes liberados na decomposição de resíduos orgânicos podem sofrer vários tipos de interação com diferentes componentes da fase mineral, alterando sua dinâmica no solo. Com o objetivo de avaliar a retenção de carbono, Ca²⁺, Mg²⁺ e K⁺ em caulinita natural e goethita sintética, foi realizado um experimento com mistura de palha de milho em substratos inorgânicos preparados com areia e quantidades conhecidas de cada componente. Nesses substratos, foram realizadas percolações com água destilada aos 7, 15, 33, 68 e 113 dias de incubação, em temperatura ambiente, sendo as massas dos elementos liberados acumuladas no tempo. Após duzentos dias de incubação, foi determinado o carbono orgânico total que permaneceu nos substratos. A soma das massas de Ca²⁺, Mg²⁺, K⁺ e carbono, liberados com a água de percolação, foi inversamente relacionada com a massa dos componentes inorgânicos nos substratos, exceto para o K⁺ nos substratos com goethita. A caulinita e a goethita apresentaram diferente retenção do Ca²⁺, Mg²⁺ e K⁺ liberados, independentemente da área superficial, o que pode estar relacionado com suas distintas características eletroquímicas superficiais. A goethita foi mais efetiva do que a caulinita em reter carbono da solução do solo e acumular carbono orgânico total, sendo sua maior reatividade diretamente relacionada com sua superfície específica.

Termos de indexação: incubação, percolação, decomposição, minerais.

SUMMARY

Carbon and nutrients released from the mineralization of organic materials can interact with mineral components changing their dynamics in the soil. In this study, mixtures of corn straw, kaolinite, synthetic goethite, and quartz sand were leached with water after 7, 15, 33, 68 and 113 days of incubation at room temperature. Concentrations of soluble carbon, calcium, magnesium, and potassium were measured and accumulated over time. After 200 days, the total carbon remaining in the mixture was quantified. Total calcium, magnesium, and potassium percolated during the experiment were inversely correlated with the amount of kaolinite and goethite in the mixtures, except for potassium in the treatment with goethite. Adsorption of calcium, magnesium, and potassium did not relate with specific surface area of kaolinite and goethite. Otherwise, goethite was more efficient than kaolinite in retaining carbon and this property was clearly related with its surface area.

Index terms: incubation, percolation, decomposition, minerals.

Texto completo disponível apenas em PDF.

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LITERATURA CITADA

Recebido para publicação em abril de 2000

Aprovado em janeiro de 2001

CORNEJO, J. & HERMOSÍN, M.C. Interaction of humic substances and soil clays. In: PICCOLO, A., ed. Humic substances in terrestrial ecosystems. Amsterdam, Elsevier, 1996. p.595-624.
DOUGLAS, L.A. Vermiculites. In: DIXON, J.B. & WEED, S.B., eds. Mineral in soil environments. 2.ed. Wisconsin, Soil Science Society of America, 1989. p.635-674.
GREENLAND, D.J. Interactions between humic and fulvic acids and clays. Soil Sci., 111:34-41, 1971.
GU, B.; SCHMITT, J.; CHEN, Z.; LIANG, L. & McCARTHY, J.F. Adsorption and desorption of natural organic matter on iron oxide: mechanisms and models. Environ. Sci. Technol., 28:38-46, 1994.
JARDINE, P.M.; WEBER, N.L. & McCARTHY, J.F. Mechanisms of dissolved organic carbon adsorption on soil. Soil Sci. Soc. Am J., 53:1378-1385, 1989.
MARTIN, J.P. & HAIDER, K. Influence of mineral colloids on turnover rates of soil organic carbon. In: HUANG, P.M. & SCHNITZER, M., eds. Interactions of soil minerals with natural organics and microbes. Madison, Soil Science Society of America, 1986. p.283-304.
MOORE, T.R. The spectrophotometric determination of dissolved organic carbon in peat waters. Soil Sci. Soc. Am. J., 49:1590-1592, 1985.
MORTLAND, M.M. Mechanisms of adsorption of non humic organic species by clays. In: HUANG, P.M. & SCHNITZER, M., eds. Interactions of soil minerals with natural organics and microbes. Madison, Soil Science Society of America, 1986. p.59-76.
MURPHY, E.M.; ZACHARA, J.M. & SMITH, S.C. Influence of mineral-bound humic substances on the sorption of hidrophobic organic compounds. Environ. Sci. Technol., 24:1507-1516, 1990.
OADES, J.M. The retention of organic matter in soils. Biogeochem., 5:35-70, 1988.
OADES, J.M.; GILMAM, G.P. & UEHARA, G. Interactions of soil organic matter and variable-charge clays. In: COLEMAN, D.C.; OADES, J.M. & UEHARA, G., eds. Dynamics of soil organic matter in tropical ecosystems. Honolulu, University of Hawaii Press, 1989. p.69-95.
PARTON, W.J.; SCHIMEL, D.S.; COLE, C.V. & OJIMA, D.S. Analysis of factors controlling soil organic matter levels in Great Plains Grasslands. Soil Sci. Soc. Am. J., 51:1173-1179, 1987.
QUIRK, J.P. Significance of surface areas calculated from water vapour sorption isotherms by the use of B.E.T. equation. Soil Sci., 80:423-430, 1955.
SCHULTHESS, C.P. & HUANG, C.P. Humic and fulvic acid adsorption by silicon and aluminum oxide surfaces on clay minerals. Soil Sci. Soc. Am. J., 55:34-42, 1991.
SCOTT, N.A.; COLE ,C.V.; ELLIOT, E.T. & HUFFMAN, S.A. Soil textural control on decomposition and soil organic matter dynamics. Soil Sci. Soc. Am. J., 60:1102-1109, 1996.
SPOSITO, G. The chemistry of soils. New York, Oxford Univ. Press., 1989. 277p.
STEVENSON, F.J. Humus chemistry: genesis, composition, reactions. 2.ed. New York, John Wiley & Sons, 1994. 496p.
STUMM, W. Chemistry of the solid-water interface. New York, John Wiley & Sons, 1992. 428p.
TEDESCO, M.J.; GIANELLO, C.; BISSANI, C.A.; BOHNEN, H. & VOLKWEISS, S.J. Análises de solo, planta e outros materiais. 2.ed. Porto Alegre, Universidade Federal do Rio Grande do Sul, 1995. 174p. (Boletim técnico, 5)
VARADACHARI, C.; MONDAL, A.H. & GHOSH, K. Some aspects of clay-humus complexation: effect of exchangeable cations and lattice charge. Soil Sci., 151:220-227, 1991.
VARADACHARI, C.; MONDAL, A.H. & GHOSH, K. The influence of crystal edges on clay-humus complexation. Soil Sci., 159:185-190, 1995.
VASUDEVAN, D. & STONE, A.T. Adsorption of dissolved organic ligands. In: HUANG, P.M., ed. Soil chemistry and ecosystem health. Madison, Soil Science Society of America, 1998. p.133-156.
WIELAND, E. & STUMM, W. Dissolution kinetics of kaolinite in acidic aqueous solutions at 25^oC. Geochim. & Cosmochim. Acta, 56:3339-3355, 1992.
ZECH, W.; SENESI, N.; GUGGENBERGER, G.; KAISER, K.; LEHMANN, J.; MIANO, T.M.; MILTNER, A. & SCHROTH, G. Factors controlling humification and mineralization of soil organic matter in the tropics. Geoderma, 79:117-161, 1997.

(1

) Trabalho apresentado como resumo no III EBSH (24 a 26/11/1999). Santa Maria (RS).

Datas de Publicação

Publicação nesta coleção
02 Out 2014
Data do Fascículo
Jun 2001

Histórico

Aceito
Jan 2001
Recebido
Abr 2000

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

[1] CORNEJO, J. & HERMOSÍN, M.C. Interaction of humic substances and soil clays. In: PICCOLO, A., ed. Humic substances in terrestrial ecosystems. Amsterdam, Elsevier, 1996. p.595-624.

[2] DOUGLAS, L.A. Vermiculites. In: DIXON, J.B. & WEED, S.B., eds. Mineral in soil environments. 2.ed. Wisconsin, Soil Science Society of America, 1989. p.635-674.

[3] GREENLAND, D.J. Interactions between humic and fulvic acids and clays. Soil Sci., 111:34-41, 1971.

[4] GU, B.; SCHMITT, J.; CHEN, Z.; LIANG, L. & McCARTHY, J.F. Adsorption and desorption of natural organic matter on iron oxide: mechanisms and models. Environ. Sci. Technol., 28:38-46, 1994.

[5] JARDINE, P.M.; WEBER, N.L. & McCARTHY, J.F. Mechanisms of dissolved organic carbon adsorption on soil. Soil Sci. Soc. Am J., 53:1378-1385, 1989.

[6] MARTIN, J.P. & HAIDER, K. Influence of mineral colloids on turnover rates of soil organic carbon. In: HUANG, P.M. & SCHNITZER, M., eds. Interactions of soil minerals with natural organics and microbes. Madison, Soil Science Society of America, 1986. p.283-304.

[7] MOORE, T.R. The spectrophotometric determination of dissolved organic carbon in peat waters. Soil Sci. Soc. Am. J., 49:1590-1592, 1985.

[8] MORTLAND, M.M. Mechanisms of adsorption of non humic organic species by clays. In: HUANG, P.M. & SCHNITZER, M., eds. Interactions of soil minerals with natural organics and microbes. Madison, Soil Science Society of America, 1986. p.59-76.

[9] MURPHY, E.M.; ZACHARA, J.M. & SMITH, S.C. Influence of mineral-bound humic substances on the sorption of hidrophobic organic compounds. Environ. Sci. Technol., 24:1507-1516, 1990.

[10] OADES, J.M. The retention of organic matter in soils. Biogeochem., 5:35-70, 1988.

[11] OADES, J.M.; GILMAM, G.P. & UEHARA, G. Interactions of soil organic matter and variable-charge clays. In: COLEMAN, D.C.; OADES, J.M. & UEHARA, G., eds. Dynamics of soil organic matter in tropical ecosystems. Honolulu, University of Hawaii Press, 1989. p.69-95.

[12] PARTON, W.J.; SCHIMEL, D.S.; COLE, C.V. & OJIMA, D.S. Analysis of factors controlling soil organic matter levels in Great Plains Grasslands. Soil Sci. Soc. Am. J., 51:1173-1179, 1987.

[13] QUIRK, J.P. Significance of surface areas calculated from water vapour sorption isotherms by the use of B.E.T. equation. Soil Sci., 80:423-430, 1955.

[14] SCHULTHESS, C.P. & HUANG, C.P. Humic and fulvic acid adsorption by silicon and aluminum oxide surfaces on clay minerals. Soil Sci. Soc. Am. J., 55:34-42, 1991.

[15] SCOTT, N.A.; COLE ,C.V.; ELLIOT, E.T. & HUFFMAN, S.A. Soil textural control on decomposition and soil organic matter dynamics. Soil Sci. Soc. Am. J., 60:1102-1109, 1996.

[16] SPOSITO, G. The chemistry of soils. New York, Oxford Univ. Press., 1989. 277p.

[17] STEVENSON, F.J. Humus chemistry: genesis, composition, reactions. 2.ed. New York, John Wiley & Sons, 1994. 496p.

[18] STUMM, W. Chemistry of the solid-water interface. New York, John Wiley & Sons, 1992. 428p.

[19] TEDESCO, M.J.; GIANELLO, C.; BISSANI, C.A.; BOHNEN, H. & VOLKWEISS, S.J. Análises de solo, planta e outros materiais. 2.ed. Porto Alegre, Universidade Federal do Rio Grande do Sul, 1995. 174p. (Boletim técnico, 5)

[20] VARADACHARI, C.; MONDAL, A.H. & GHOSH, K. Some aspects of clay-humus complexation: effect of exchangeable cations and lattice charge. Soil Sci., 151:220-227, 1991.

[21] VARADACHARI, C.; MONDAL, A.H. & GHOSH, K. The influence of crystal edges on clay-humus complexation. Soil Sci., 159:185-190, 1995.

[22] VASUDEVAN, D. & STONE, A.T. Adsorption of dissolved organic ligands. In: HUANG, P.M., ed. Soil chemistry and ecosystem health. Madison, Soil Science Society of America, 1998. p.133-156.

[23] WIELAND, E. & STUMM, W. Dissolution kinetics of kaolinite in acidic aqueous solutions at 25^oC. Geochim. & Cosmochim. Acta, 56:3339-3355, 1992.

[24] ZECH, W.; SENESI, N.; GUGGENBERGER, G.; KAISER, K.; LEHMANN, J.; MIANO, T.M.; MILTNER, A. & SCHROTH, G. Factors controlling humification and mineralization of soil organic matter in the tropics. Geoderma, 79:117-161, 1997.

Brasil

Brasil

Mineralização de palha de milho e adsorção de carbono, cálcio, magnésio e potássio em substratos com caulinita natural e goethita sintética

Corn straw mineralization and carbon, calcium, magnesium and potassium adsorption in mixtures with kaolinite and synthetic goethite

Resumos

Datas de Publicação

Histórico