Lixiviação de glyphosate e imazapyr em solos com diferentes texturas e composição química: I - método do bioensaio

Souza, Adailson P. de; Ferreira, Francisco A.; Silva, Antônio A. da; Ruiz, Hugo A.; Prates, Hélio T.

doi:10.1590/S0100-83582000000100001

Resumos

A mobilidade dos herbicidas no perfil do solo é influenciada por vários processos, tais como, retenção, transformação e transporte. O conhecimento destes fenômenos é fundamental para a perfeita compreensão do destino de tais produtos no ambiente. Dentre as várias técnicas utilizadas nesses estudos, o método do bioensaio apresenta-se como de ótima representatividade e reprodutibilidade. Em razão dessas características, associadas a poucas informações sobre a mobilidade de herbicidas nos solos sob condições tropicais, foi conduzido um bioensaio objetivando verificar o movimento vertical do glyphosate e do imazapyr, em colunas de solos de diferentes texturas e composição química, utilizando-se o tomateiro (Lycopersicon esculentum Mill var. Santa Clara) como planta-teste. Os resultados desse estudo permitiram concluir que: a) o limite de detecção do bioensaio para o glyphosate e para o imazapyr corresponde ao menor valor de I50, obtido na curva padrão, 331,52 e 5,4 µg L-1, respectivamente; b) as concentrações do glyphosate biologicamente ativo nos lixiviados dos solos de Viçosa e de Sabará encontram-se abaixo do limite de detecção do bioensaio; c) o glyphosate apresentou, na coluna de 1 cm, mobilidade muito baixa nos solos estudados; d) a mobilidade do imazapyr, na coluna de 30 cm, é maior no solo de textura francoarenosa de Viçosa; e) o alto teor de argila e de matéria orgânica do solo de Sabará apresentam-se como os principais fatores de retenção do imazapyr nesse solo.

Logística; dose-resposta; herbicida

The herbicide mobility in the soil profile is influenced by several processes: retention, transformation and transport. This phenomenon knowledge is essential to the perfect comprehension of these product destines in the environment. Among the several techniques used in such studies, the bioassay method presents optimum representativeness. Because these characteristics and the scarce information about the herbicide mobility in soils under tropical conditions, a bioassay was carried out aiming to verify the vertical movement of glyphosate and imazapyr in soil columns with different textures and chemical composition using the tomato (Lycopersicon esculentum Mill var. Santa Clara) as test-plant. According to the results it may be concluded that: a) the bioassay detection boundary for both the glyphosate and imazapyr corresponds to the lowest I50 value obtained in the pattern curve that is 331.52 and 5.4 µg L-1 respectively; b) the concentrations of the biologically active glyphosate in the leaching products of Viçosa and Sabará soils are bellow the bioassay detection boundary; c) in the 1 cm column, the glyphosate presented a very low mobility in the studied soils; d) in the 30 cm column, the imazapyr mobility is greater in the sandy loam texture soil of Viçosa; e) the high clay and organic matter contents in Sabará soil present as the main retention factors of imazapyr in this soil.

Logistic; dose-response; herbicide

Lixiviação de glyphosate e imazapyr em solos com diferentes texturas e composição química. I - método do bioensaio

Glyphosate and imazapyr leaching in soils with different textures and chemical composition. I - bioassay method

Adailson P. de Souza^I; Francisco A. Ferreira^II; Antônio A. da Silva^II; Hugo A. Ruiz^III; Hélio T. Prates^IV

^IProfº Adjunto do Deptº de Solos e Eng. Rural da UFPB, CEP: 58397 -000, Areia/PB

^IIProfº Adjunto do Deptº de Fitotecnia da UFV, CEP: 36571-000, Viçosa/MG

^IIIProfº Adjunto do Deptº de Solos da UFV, CEP: 36571-000, Viçosa/MG

^IVEMBRAPA/CNPMS, C.P. 151, CEP: 35701-970, Sete Lagoas/MG

RESUMO

A mobilidade dos herbicidas no perfil do solo é influenciada por vários processos, tais como, retenção, transformação e transporte. O conhecimento destes fenômenos é fundamental para a perfeita compreensão do destino de tais produtos no ambiente. Dentre as várias técnicas utilizadas nesses estudos, o método do bioensaio apresenta-se como de ótima representatividade e reprodutibilidade. Em razão dessas características, associadas a poucas informações sobre a mobilidade de herbicidas nos solos sob condições tropicais, foi conduzido um bioensaio objetivando verificar o movimento vertical do glyphosate e do imazapyr, em colunas de solos de diferentes texturas e composição química, utilizando-se o tomateiro (Lycopersicon esculentum Mill var. Santa Clara) como planta-teste. Os resultados desse estudo permitiram concluir que: a) o limite de detecção do bioensaio para o glyphosate e para o imazapyr corresponde ao menor valor de I50, obtido na curva padrão, 331,52 e 5,4 µg L-1, respectivamente; b) as concentrações do glyphosate biologicamente ativo nos lixiviados dos solos de Viçosa e de Sabará encontram-se abaixo do limite de detecção do bioensaio; c) o glyphosate apresentou, na coluna de 1 cm, mobilidade muito baixa nos solos estudados; d) a mobilidade do imazapyr, na coluna de 30 cm, é maior no solo de textura francoarenosa de Viçosa; e) o alto teor de argila e de matéria orgânica do solo de Sabará apresentam-se como os principais fatores de retenção do imazapyr nesse solo.

Palavras chave: Logística, dose-resposta, herbicida.

ABSTRACT

The herbicide mobility in the soil profile is influenced by several processes: retention, transformation and transport. This phenomenon knowledge is essential to the perfect comprehension of these product destines in the environment. Among the several techniques used in such studies, the bioassay method presents optimum representativeness. Because these characteristics and the scarce information about the herbicide mobility in soils under tropical conditions, a bioassay was carried out aiming to verify the vertical movement of glyphosate and imazapyr in soil columns with different textures and chemical composition using the tomato (Lycopersicon esculentum Mill var. Santa Clara) as test-plant. According to the results it may be concluded that: a) the bioassay detection boundary for both the glyphosate and imazapyr corresponds to the lowest I50 value obtained in the pattern curve that is 331.52 and 5.4 µg L-1 respectively; b) the concentrations of the biologically active glyphosate in the leaching products of Viçosa and Sabará soils are bellow the bioassay detection boundary; c) in the 1 cm column, the glyphosate presented a very low mobility in the studied soils; d) in the 30 cm column, the imazapyr mobility is greater in the sandy loam texture soil of Viçosa; e) the high clay and organic matter contents in Sabará soil present as the main retention factors of imazapyr in this soil.

Key words: Logistic, dose-response, herbicide.

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LITERATURA CITADA

CARLISLE, S.M., TREVORS, J.T. Glyphosate in the environment. Water air soil pollut., n.39, p.409-420, 1988.

CHEAH, U., KIRKWOOD, R.C., LUM, K. Adsorption, desorption and mobility of four commonly used pesticides in Malaysian agricultural soils. Pestic. sci., n.50, p.53-63, 1997.

CLAY, D.V. Herbicide residues in soils and plants and their bioassay. In: STREIBIG, J.C., KUDSK, P. Herbicide bioassays. Florida: CRC Press, Inc, 1993. p.153-171.

DICKENS, R., WEHTJE, G. Mobility and soil solution characteristics of imazapyr (Arsenal) and sulfometuron methyl (Oust) in Alabama soils. Proc. So. Weed Sci. Soc. Am., n.39, p.368, 1986.

EDWARDS, W.M., GLASS, B.L. Methoxychlor and 2,4,5-T in lysimeter percolation and runoff water. Bull. environ. contam. toxicol., n.6, p.81-84, 1971.

ELRICK, D.E., FRENCH, L.K. Miscible displacement patterns on disturbed and undisturbed soil cores. Soil Sci. Soc. Am. Proc., n.30, p.153-156, 1966.

GLASS, R.L. Adsorption of glyphosate by soils and clay minerals. J. agric. food chem., v.35, n.4, p.497-500, 1987.

GÜNTHER, P., PESTEMER, W., RAHMAN, A., NORDMEYER, H. A bioassay technique to study the leaching behaviour of sulfonylurea herbicides in different soil. Weed Res., n.33, p.177-185, 1993.

HENSLEY, D.L., BEUERMAN, D.S.N., CARPENTER, P.L. The inactivation of glyphosate by various soil and metal salts. Weed Res., n.18, p.287, 1978.

HILLING, C.E. Pesticide mobility in soil. II. Applications of soil thin-layer chromatography. Soil Sci. Soc. Am. Proc., n.35, p.562-563, 1971.

KRZYSZOWSKA, A.J., ALLEN, R.D., VANCE, G.F. Assessment of the fate of two herbicides in a Wyoming rangeland soil: column studies. J. environ. qual., n.23, p.1051-1058, 1994.

LITTLE, D.L., SHANER, D.L. Absorption and translocation of the imidazolinone herbicides. In: SHANER, D.L., O'CONNOR, S.L. (Eds.). The imidazolinone herbicides, Florida: CRC Press, Inc., 1991. p.53-69.

LIU, S.L., WEBER, J.B. Retention and mobility of AC 252,214, chlorsulfuron, prometryn and SD95481 in soil. Proc. So. Weed Sci. Soc. Am., n.38, p.465, 1985.

MADHUN, Y.A., YOUNG, J.L., FREED, V.H. Binding of herbicides by water-soluble organic materials from soil. J. environ. qual., v.15, n.1, p.64-68, 1986.

MANGELS, G. Behavior of the imidazolinone herbicides in soil - A review of the literature. In: SHANER, D.L., O'CONNOR, S.L. (Eds.). The imidazolinone herbicides, Florida: CRC Press, Inc., 1991. p.191-209.

McKINNON, J., WEBER, J.B. Leaching and capillary movement of imazaquin in soil. Proc. So. Weed Sci. Soc. Am., n.41, p.337, 1988.

MONSANTO. Manual técnico de produtos. [s.n.]: São Paulo, 1990. 31p.

NICHOLLS, P.H. Factors influencing entry of pesticides into soil water. Pestic. sci., n. 22, p.123-137, 1988.

OGNER, G. Glyphosate application in forestecological aspects. II. The quality of water leached from forest soil lysimeters. Scand. j. for. res., n.2, p.469-480, 1987.

PICCOLO, A., CELANO, G., CONTE, P. Adsorption of glyphosate by humic substances. J. agric. food chem., v.44, n.8, p.2442-2446, 1996.

RODRIGUES, B.N., ALMEIDA, F.S. Guia de herbicidas. 3. ed. Londrina, PR, 1995. 675p.

SAEG. Sistema para Análises Estatísticas; versão 7.1. Viçosa: Fundação Arthur Bernardes, 1997.

SÁNCHEZ-MARTÍN, M.J., CRISANTO, T., ARIENZO, M. et al. Evaluation of the mobility of C14-labelled pesticides in soil by thin layer chromatography using a linear analyser. J. environ. sci. health, Part B, n.3, p.473-484, 1994.

SENESI, N., BRUNETTI, G., LA CAVA, P. et al. Adsorption of alachlor by humic acids from sewage sludge and amended and nonamended soils. Soil Sci., v.157, n.3, p.176-184, 1994.

SPRANKLE, P., MEGGITT, W.F., PENNER, D. Rapid inactivation of glyphosate in the soil. Weed Sci., v.23, n.3, p.224-228, 1975a.

SPRANKLE, P., MEGGITT, W.F., PENNER, D. Adsorption, mobility, and microbial degradation of gl yphosate in the soil. Weed Sci., v.23, n.3, p.229-234, 1975b.

SUNDARAM, A., SUNDARAM, K.M.S. Solubility products of six metal-glyphosate complex in water and forestry soils, and their influence on glyphosate toxicity to plants. J. environ. sci. Health, Part B, n.4, p.583-598, 1997.

WEBER. J.B. Model soil systems, herbicide leaching and sorption. In: WILKINSON, R.E. (Ed.). Research methods in weed science. Atlanta: POP Enterprise, Inc., 1972. p.145-160.

WEBER, J.B., MILLER, C.T. Organic chemical movement over and through soil. In: SAWHNEY, B.L., BROWN, K. (Eds.). Reactions and movement of organic chemicals in soil, Madison, Wisconsin, USA: SSSA Inc., 1989. p.305-334 (SSSA Special Publication, 22).

WEBER. J.B., SWAIN, L.R., STREK, H.L. et al. Herbicide mobility in soil leaching columns. In: CAMPER, N.D. (Ed.). Research methods in weed science. 3. ed., Atlanta: POP Enterprise, Inc., 1986. p.187- 217.

WEHTJE, G., DICKENS, R., WILCUT, J.W. et al. Sorption and mobility of sulfometuron and imazapyr in five Alabama soils. Weed Sci., v.35, p.858, 1987.

WINTON, K., WEBER, J.B. A review of field lysimeter studies to describe the environmental fate of pesticides. Weed Technol., n.10, p.202-209, 1996.

Recebido para publicação em 28/05/98 e na forma revisada em 13/08/99.

CARLISLE, S.M., TREVORS, J.T. Glyphosate in the environment. Water air soil pollut., n.39, p.409-420, 1988.
CHEAH, U., KIRKWOOD, R.C., LUM, K. Adsorption, desorption and mobility of four commonly used pesticides in Malaysian agricultural soils. Pestic. sci., n.50, p.53-63, 1997.
CLAY, D.V. Herbicide residues in soils and plants and their bioassay. In: STREIBIG, J.C., KUDSK, P. Herbicide bioassays Florida: CRC Press, Inc, 1993. p.153-171.
DICKENS, R., WEHTJE, G. Mobility and soil solution characteristics of imazapyr (Arsenal) and sulfometuron methyl (Oust) in Alabama soils. Proc. So. Weed Sci. Soc. Am., n.39, p.368, 1986.
EDWARDS, W.M., GLASS, B.L. Methoxychlor and 2,4,5-T in lysimeter percolation and runoff water. Bull. environ. contam. toxicol., n.6, p.81-84, 1971.
ELRICK, D.E., FRENCH, L.K. Miscible displacement patterns on disturbed and undisturbed soil cores. Soil Sci. Soc. Am. Proc., n.30, p.153-156, 1966.
GLASS, R.L. Adsorption of glyphosate by soils and clay minerals. J. agric. food chem., v.35, n.4, p.497-500, 1987.
GÜNTHER, P., PESTEMER, W., RAHMAN, A., NORDMEYER, H. A bioassay technique to study the leaching behaviour of sulfonylurea herbicides in different soil. Weed Res., n.33, p.177-185, 1993.
HENSLEY, D.L., BEUERMAN, D.S.N., CARPENTER, P.L. The inactivation of glyphosate by various soil and metal salts. Weed Res., n.18, p.287, 1978.
HILLING, C.E. Pesticide mobility in soil. II. Applications of soil thin-layer chromatography. Soil Sci. Soc. Am. Proc., n.35, p.562-563, 1971.
KRZYSZOWSKA, A.J., ALLEN, R.D., VANCE, G.F. Assessment of the fate of two herbicides in a Wyoming rangeland soil: column studies. J. environ. qual., n.23, p.1051-1058, 1994.
LITTLE, D.L., SHANER, D.L. Absorption and translocation of the imidazolinone herbicides. In: SHANER, D.L., O'CONNOR, S.L. (Eds.). The imidazolinone herbicides, Florida: CRC Press, Inc., 1991. p.53-69.
LIU, S.L., WEBER, J.B. Retention and mobility of AC 252,214, chlorsulfuron, prometryn and SD95481 in soil. Proc. So. Weed Sci. Soc. Am., n.38, p.465, 1985.
MADHUN, Y.A., YOUNG, J.L., FREED, V.H. Binding of herbicides by water-soluble organic materials from soil. J. environ. qual., v.15, n.1, p.64-68, 1986.
MANGELS, G. Behavior of the imidazolinone herbicides in soil - A review of the literature. In: SHANER, D.L., O'CONNOR, S.L. (Eds.). The imidazolinone herbicides, Florida: CRC Press, Inc., 1991. p.191-209.
McKINNON, J., WEBER, J.B. Leaching and capillary movement of imazaquin in soil. Proc. So. Weed Sci. Soc. Am., n.41, p.337, 1988.
MONSANTO. Manual técnico de produtos [s.n.]: São Paulo, 1990. 31p.
NICHOLLS, P.H. Factors influencing entry of pesticides into soil water. Pestic. sci., n. 22, p.123-137, 1988.
OGNER, G. Glyphosate application in forestecological aspects. II. The quality of water leached from forest soil lysimeters. Scand. j. for. res., n.2, p.469-480, 1987.
PICCOLO, A., CELANO, G., CONTE, P. Adsorption of glyphosate by humic substances. J. agric. food chem., v.44, n.8, p.2442-2446, 1996.
RODRIGUES, B.N., ALMEIDA, F.S. Guia de herbicidas 3. ed. Londrina, PR, 1995. 675p.
SAEG. Sistema para Análises Estatísticas; versão 7.1. Viçosa: Fundação Arthur Bernardes, 1997.
SÁNCHEZ-MARTÍN, M.J., CRISANTO, T., ARIENZO, M. et al. Evaluation of the mobility of C14-labelled pesticides in soil by thin layer chromatography using a linear analyser. J. environ. sci. health, Part B, n.3, p.473-484, 1994.
SENESI, N., BRUNETTI, G., LA CAVA, P. et al. Adsorption of alachlor by humic acids from sewage sludge and amended and nonamended soils. Soil Sci., v.157, n.3, p.176-184, 1994.
SPRANKLE, P., MEGGITT, W.F., PENNER, D. Rapid inactivation of glyphosate in the soil. Weed Sci., v.23, n.3, p.224-228, 1975a.
SPRANKLE, P., MEGGITT, W.F., PENNER, D. Adsorption, mobility, and microbial degradation of gl yphosate in the soil. Weed Sci., v.23, n.3, p.229-234, 1975b.
SUNDARAM, A., SUNDARAM, K.M.S. Solubility products of six metal-glyphosate complex in water and forestry soils, and their influence on glyphosate toxicity to plants. J. environ. sci. Health, Part B, n.4, p.583-598, 1997.
WEBER. J.B. Model soil systems, herbicide leaching and sorption. In: WILKINSON, R.E. (Ed.). Research methods in weed science Atlanta: POP Enterprise, Inc., 1972. p.145-160.
WEBER, J.B., MILLER, C.T. Organic chemical movement over and through soil. In: SAWHNEY, B.L., BROWN, K. (Eds.). Reactions and movement of organic chemicals in soil, Madison, Wisconsin, USA: SSSA Inc., 1989. p.305-334 (SSSA Special Publication, 22).
WEBER. J.B., SWAIN, L.R., STREK, H.L. et al. Herbicide mobility in soil leaching columns. In: CAMPER, N.D. (Ed.). Research methods in weed science 3. ed., Atlanta: POP Enterprise, Inc., 1986. p.187- 217.
WEHTJE, G., DICKENS, R., WILCUT, J.W. et al. Sorption and mobility of sulfometuron and imazapyr in five Alabama soils. Weed Sci., v.35, p.858, 1987.
WINTON, K., WEBER, J.B. A review of field lysimeter studies to describe the environmental fate of pesticides. Weed Technol., n.10, p.202-209, 1996.

Datas de Publicação

Publicação nesta coleção
04 Maio 2010
Data do Fascículo
2000

Histórico

Recebido
28 Maio 1998
Aceito
13 Ago 1999

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

[1] CARLISLE, S.M., TREVORS, J.T. Glyphosate in the environment. Water air soil pollut., n.39, p.409-420, 1988.

[2] CHEAH, U., KIRKWOOD, R.C., LUM, K. Adsorption, desorption and mobility of four commonly used pesticides in Malaysian agricultural soils. Pestic. sci., n.50, p.53-63, 1997.

[3] CLAY, D.V. Herbicide residues in soils and plants and their bioassay. In: STREIBIG, J.C., KUDSK, P. Herbicide bioassays Florida: CRC Press, Inc, 1993. p.153-171.

[4] DICKENS, R., WEHTJE, G. Mobility and soil solution characteristics of imazapyr (Arsenal) and sulfometuron methyl (Oust) in Alabama soils. Proc. So. Weed Sci. Soc. Am., n.39, p.368, 1986.

[5] EDWARDS, W.M., GLASS, B.L. Methoxychlor and 2,4,5-T in lysimeter percolation and runoff water. Bull. environ. contam. toxicol., n.6, p.81-84, 1971.

[6] ELRICK, D.E., FRENCH, L.K. Miscible displacement patterns on disturbed and undisturbed soil cores. Soil Sci. Soc. Am. Proc., n.30, p.153-156, 1966.

[7] GLASS, R.L. Adsorption of glyphosate by soils and clay minerals. J. agric. food chem., v.35, n.4, p.497-500, 1987.

[8] GÜNTHER, P., PESTEMER, W., RAHMAN, A., NORDMEYER, H. A bioassay technique to study the leaching behaviour of sulfonylurea herbicides in different soil. Weed Res., n.33, p.177-185, 1993.

[9] HENSLEY, D.L., BEUERMAN, D.S.N., CARPENTER, P.L. The inactivation of glyphosate by various soil and metal salts. Weed Res., n.18, p.287, 1978.

[10] HILLING, C.E. Pesticide mobility in soil. II. Applications of soil thin-layer chromatography. Soil Sci. Soc. Am. Proc., n.35, p.562-563, 1971.

[11] KRZYSZOWSKA, A.J., ALLEN, R.D., VANCE, G.F. Assessment of the fate of two herbicides in a Wyoming rangeland soil: column studies. J. environ. qual., n.23, p.1051-1058, 1994.

[12] LITTLE, D.L., SHANER, D.L. Absorption and translocation of the imidazolinone herbicides. In: SHANER, D.L., O'CONNOR, S.L. (Eds.). The imidazolinone herbicides, Florida: CRC Press, Inc., 1991. p.53-69.

[13] LIU, S.L., WEBER, J.B. Retention and mobility of AC 252,214, chlorsulfuron, prometryn and SD95481 in soil. Proc. So. Weed Sci. Soc. Am., n.38, p.465, 1985.

[14] MADHUN, Y.A., YOUNG, J.L., FREED, V.H. Binding of herbicides by water-soluble organic materials from soil. J. environ. qual., v.15, n.1, p.64-68, 1986.

[15] MANGELS, G. Behavior of the imidazolinone herbicides in soil - A review of the literature. In: SHANER, D.L., O'CONNOR, S.L. (Eds.). The imidazolinone herbicides, Florida: CRC Press, Inc., 1991. p.191-209.

[16] McKINNON, J., WEBER, J.B. Leaching and capillary movement of imazaquin in soil. Proc. So. Weed Sci. Soc. Am., n.41, p.337, 1988.

[17] MONSANTO. Manual técnico de produtos [s.n.]: São Paulo, 1990. 31p.

[18] NICHOLLS, P.H. Factors influencing entry of pesticides into soil water. Pestic. sci., n. 22, p.123-137, 1988.

[19] OGNER, G. Glyphosate application in forestecological aspects. II. The quality of water leached from forest soil lysimeters. Scand. j. for. res., n.2, p.469-480, 1987.

[20] PICCOLO, A., CELANO, G., CONTE, P. Adsorption of glyphosate by humic substances. J. agric. food chem., v.44, n.8, p.2442-2446, 1996.

[21] RODRIGUES, B.N., ALMEIDA, F.S. Guia de herbicidas 3. ed. Londrina, PR, 1995. 675p.

[22] SAEG. Sistema para Análises Estatísticas; versão 7.1. Viçosa: Fundação Arthur Bernardes, 1997.

[23] SÁNCHEZ-MARTÍN, M.J., CRISANTO, T., ARIENZO, M. et al. Evaluation of the mobility of C14-labelled pesticides in soil by thin layer chromatography using a linear analyser. J. environ. sci. health, Part B, n.3, p.473-484, 1994.

[24] SENESI, N., BRUNETTI, G., LA CAVA, P. et al. Adsorption of alachlor by humic acids from sewage sludge and amended and nonamended soils. Soil Sci., v.157, n.3, p.176-184, 1994.

[25] SPRANKLE, P., MEGGITT, W.F., PENNER, D. Rapid inactivation of glyphosate in the soil. Weed Sci., v.23, n.3, p.224-228, 1975a.

[26] SPRANKLE, P., MEGGITT, W.F., PENNER, D. Adsorption, mobility, and microbial degradation of gl yphosate in the soil. Weed Sci., v.23, n.3, p.229-234, 1975b.

[27] SUNDARAM, A., SUNDARAM, K.M.S. Solubility products of six metal-glyphosate complex in water and forestry soils, and their influence on glyphosate toxicity to plants. J. environ. sci. Health, Part B, n.4, p.583-598, 1997.

[28] WEBER. J.B. Model soil systems, herbicide leaching and sorption. In: WILKINSON, R.E. (Ed.). Research methods in weed science Atlanta: POP Enterprise, Inc., 1972. p.145-160.

[29] WEBER, J.B., MILLER, C.T. Organic chemical movement over and through soil. In: SAWHNEY, B.L., BROWN, K. (Eds.). Reactions and movement of organic chemicals in soil, Madison, Wisconsin, USA: SSSA Inc., 1989. p.305-334 (SSSA Special Publication, 22).

[30] WEBER. J.B., SWAIN, L.R., STREK, H.L. et al. Herbicide mobility in soil leaching columns. In: CAMPER, N.D. (Ed.). Research methods in weed science 3. ed., Atlanta: POP Enterprise, Inc., 1986. p.187- 217.

[31] WEHTJE, G., DICKENS, R., WILCUT, J.W. et al. Sorption and mobility of sulfometuron and imazapyr in five Alabama soils. Weed Sci., v.35, p.858, 1987.

[32] WINTON, K., WEBER, J.B. A review of field lysimeter studies to describe the environmental fate of pesticides. Weed Technol., n.10, p.202-209, 1996.

Brasil

Brasil

Lixiviação de glyphosate e imazapyr em solos com diferentes texturas e composição química: I - método do bioensaio

Glyphosate and imazapyr leaching in soils with different textures and chemical composition: I - bioassay method

Resumos

Datas de Publicação

Histórico