Comparison of Pesticide Sorption by Physicochemically Modified Soils with Natural Soils as a Function of Soil Properties and Pesticide Hydrophobicity

The objectives of this paper were to determine the efficiency of physicochemically modified soils with a surfactant in the sorption of pesticides, the stability against washing of the pesticides sorbed, and the effective sorption capacity of surfactant adsorbed by soils as a function of pesticide hy...

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Published in	Soil & sediment contamination Vol. 15; no. 4; pp. 401 - 415
Main Authors	Rodríguez-Cruz, M. S., Sánchez-Martín, M. J., Andrades, M. S., Sánchez-Camazano, M.
Format	Journal Article
Language	English
Published	Boca Raton Taylor & Francis Group 01.08.2006 Taylor & Francis Ltd
Subjects	Cationic surfactant desorption modified soils pesticides sorption water pollution
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Abstract	The objectives of this paper were to determine the efficiency of physicochemically modified soils with a surfactant in the sorption of pesticides, the stability against washing of the pesticides sorbed, and the effective sorption capacity of surfactant adsorbed by soils as a function of pesticide hydrophobicity and soil characteristics. Five soils of different characteristics and five pesticides (penconazole, linuron, alachlor, atrazine and metalaxyl) with different Kow values were selected and octadecyltrimethylammonium bromide (ODTMA) was chosen as model of cationic surfactants. Sorption-desorption isotherms were obtained and constants Kf and Kfd for natural soils (from Freundlich equation) and K and Kd for ODTMA-soils (from linear equation) were determined. Sorption on ODTMA-soils was higher than on natural soils. K increased 27-165 times for penconazole, 22-77 times for linuron, 7-14 times for alachlor, 9-23 times for atrazine, and 21-333 times for metalaxyl in relation to Kf. Sorption coefficients normalized to 100% of total organic matter (TOM) from organo soils K OM (K 100/%TOM), were always higher than those from natural soils Kf OM (Kf 100/%OM), indicating that the organic matter (OM) derived from the ODTMA (OM ODTMA ) had a greater sorption capacity than the OM of the natural soil. K OM values were also higher than the Kow (octanol/water distribution coefficient) value for each pesticide. The similarity of the high K OM values for the sorption of each pesticide by the five soils and the linearity of isotherms point to a partitioning of the pesticides between surfactant and water. The use in this work of different soils and various pesticides, unusual in this type of investigation, allowed us to obtain equations to know the sorbed amount of a given pesticide by the surfactant-modified soils as a function of the OM content derived from the cation and the Kow of the pesticide. The results obtained are of interest when it becomes necessary to increase the sorption capacity of soils with low OM contents with a view to delaying pesticide mobility in soils from pollution point sources (high concentration in small area), and preventing the pollution of waters.
AbstractList	The objectives of this paper were to determine the efficiency of physicochemically modified soils with a surfactant in the sorption of pesticides, the stability against washing of the pesticides sorbed, and the effective sorption capacity of surfactant adsorbed by soils as a function of pesticide hydrophobicity and soil characteristics. Five soils of different characteristics and five pesticides (penconazole, linuron, alachlor, atrazine and metalaxyl) with different Kow values were selected and octadecyltrimethylammonium bromide (ODTMA) was chosen as model of cationic surfactants. Sorption-desorption isotherms were obtained and constants Kf and Kfd for natural soils (from Freundlich equation) and K and Kd for ODTMA-soils (from linear equation) were determined. Sorption on ODTMA-soils was higher than on natural soils. K increased 27-165 times for penconazole, 22-77 times for linuron, 7-14 times for alachlor, 9-23 times for atrazine, and 21-333 times for metalaxyl in relation to Kf. Sorption coefficients normalized to 100% of total organic matter (TOM) from organo soils K sub(Om) (K 100/%TOM), were always higher than those from natural soils Kf sub(OM) (Kf 100/%OM), indicating that the organic matter (OM) derived from the ODTMA (OM sub(odtma)) had a greater sorption capacity than the OM of the natural soil. K sub(om) values were also higher than the Kow (octanol/water distribution coefficient) value for each pesticide. The similarity of the high K sub(om) values for the sorption of each pesticide by the five soils and the linearity of isotherms point to a partitioning of the pesticides between surfactant and water. The use in this work of different soils and various pesticides, unusual in this type of investigation, allowed us to obtain equations to know the sorbed amount of a given pesticide by the surfactant-modified soils as a function of the OM content derived from the cation and the Kow of the pesticide. The results obtained are of interest when it becomes necessary to increase the sorption capacity of soils with low OM contents with a view to delaying pesticide mobility in soils from pollution point sources (high concentration in small area), and preventing the pollution of waters. The efficiency of physicochemically modified soils with a surfactant in the sorption of pesticides, the stability against washing of pesticides sorbed, and the effective sorption capacity of surfactant adsorbed by soils were determined. Five soils of different characteristics and five pesticides with different Kow values were selected and octadecyltrimethylammonium bromide (ODTMA) was chosen as model of cationic surfactants. Unlabelled and super(14)C-labelled pesticides were used in the study. Sorption isotherms of all the pesticides by the natural and organo soils were obtained using the batch equilibrium technique. It was found that the sorption and desorption isotherms of the pesticides by the ODTMA-soils were all linear. The objectives of this paper were to determine the efficiency of physicochemically modified soils with a surfactant in the sorption of pesticides, the stability against washing of the pesticides sorbed, and the effective sorption capacity of surfactant adsorbed by soils as a function of pesticide hydrophobicity and soil characteristics. Five soils of different characteristics and five pesticides (penconazole, linuron, alachlor, atrazine and metalaxyl) with different Kow values were selected and octadecyltrimethylammonium bromide (ODTMA) was chosen as model of cationic surfactants. Sorption-desorption isotherms were obtained and constants Kf and Kfd for natural soils (from Freundlich equation) and K and Kd for ODTMA-soils (from linear equation) were determined. Sorption on ODTMA-soils was higher than on natural soils. K increased 27-165 times for penconazole, 22-77 times for linuron, 7-14 times for alachlor, 9-23 times for atrazine, and 21-333 times for metalaxyl in relation to Kf. Sorption coefficients normalized to 100% of total organic matter (TOM) from organo soils K OM (K 100/%TOM), were always higher than those from natural soils Kf OM (Kf 100/%OM), indicating that the organic matter (OM) derived from the ODTMA (OM ODTMA ) had a greater sorption capacity than the OM of the natural soil. K OM values were also higher than the Kow (octanol/water distribution coefficient) value for each pesticide. The similarity of the high K OM values for the sorption of each pesticide by the five soils and the linearity of isotherms point to a partitioning of the pesticides between surfactant and water. The use in this work of different soils and various pesticides, unusual in this type of investigation, allowed us to obtain equations to know the sorbed amount of a given pesticide by the surfactant-modified soils as a function of the OM content derived from the cation and the Kow of the pesticide. The results obtained are of interest when it becomes necessary to increase the sorption capacity of soils with low OM contents with a view to delaying pesticide mobility in soils from pollution point sources (high concentration in small area), and preventing the pollution of waters. The objectives of this paper were to determine the efficiency of physicochemically modified soils with a surfactant in the sorption of pesticides, the stability against washing of the pesticides sorbed, and the effective sorption capacity of surfactant adsorbed by soils as a function of pesticide hydrophobicity and soil characteristics. Five soils of different characteristics and five pesticides (penconazole, linuron, alachlor, atrazine and metalaxyl) with different Kow values were selected and octadecyltrimethylammonium bromide (ODTMA) was chosen as model of cationic surfactants. Sorption-desorption isotherms were obtained and constants Kf and Kfd for natural soils (from Freundlich equation) and K and Kd for ODTMA-soils (from linear equation) were determined. Sorption on ODTMA-soils was higher than on natural soils. K increased 27-165 times for penconazole, 22-77 times for linuron, 7-14 times for alachlor, 9-23 times for atrazine, and 21-333 times for metalaxyl in relation to Kf. Sorption coefficients normalized to 100% of total organic matter (TOM) from organo soils KOM (K 100/%TOM), were always higher than those from natural soils KfOM (Kf 100/%OM), indicating that the organic matter (OM) derived from the ODTMA (OMODTMA) had a greater sorption capacity than the OM of the natural soil. KOM values were also higher than the Kow (octanol/water distribution coefficient) value for each pesticide. The similarity of the high KOM values for the sorption of each pesticide by the five soils and the linearity of isotherms point to a partitioning of the pesticides between surfactant and water. The use in this work of different soils and various pesticides, unusual in this type of investigation, allowed us to obtain equations to know the sorbed amount of a given pesticide by the surfactant-modified soils as a function of the OM content derived from the cation and the Kow of the pesticide. The results obtained are of interest when it becomes necessary to increase the sorption capacity of soils with low OM contents with a view to delaying pesticide mobility in soils from pollution point sources (high concentration in small area), and preventing the pollution of waters.
Author	Rodríguez-Cruz, M. S. Sánchez-Martín, M. J. Andrades, M. S. Sánchez-Camazano, M.
Author_xml	– sequence: 1 givenname: M. S. surname: Rodríguez-Cruz fullname: Rodríguez-Cruz, M. S. organization: Instituto de Recursos Naturales y Agrobiología de Salamanca, CSIC – sequence: 2 givenname: M. J. surname: Sánchez-Martín fullname: Sánchez-Martín, M. J. organization: Instituto de Recursos Naturales y Agrobiología de Salamanca, CSIC – sequence: 3 givenname: M. S. surname: Andrades fullname: Andrades, M. S. organization: Dpto. Agricultura y Alimentación , Universidad de La Rioja – sequence: 4 givenname: M. surname: Sánchez-Camazano fullname: Sánchez-Camazano, M. organization: Instituto de Recursos Naturales y Agrobiología de Salamanca, CSIC
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Cites_doi	10.1007/978-1-4684-7092-5_1 10.1021/jf000152d 10.1260/0263617042879410 10.1021/es00026a014 10.1002/ps.2780250305 10.1016/0147-6513(94)90030-2 10.1007/BF01702369 10.1021/j150467a009 10.1021/jf990812i 10.1016/S0169-1317(01)00037-0 10.1080/03601239909373207 10.1016/j.clay.2003.02.001 10.1021/jf970112i 10.1039/jr9600003973 10.1111/j.1365-2389.1973.tb00761.x 10.1021/jf001233c 10.1021/es00051a008 10.1346/CCMN.1999.0470312 10.1002/etc.5620130102 10.1002/etc.5620100511 10.1007/s002449900232 10.1007/0-387-21725-8_3 10.1016/S0045-6535(97)00353-6 10.1021/bk-1996-0630.ch018 10.1007/978-1-4612-1958-3_4 10.2134/jeq2003.9200 10.1097/00010694-200012000-00005 10.1016/S0043-1354(96)00337-5 10.1016/S0065-2113(08)60052-8 10.2134/jeq1998.00472425002700040013x 10.1080/10588330091134329
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SubjectTerms	Cationic surfactant desorption modified soils pesticides sorption water pollution
Title	Comparison of Pesticide Sorption by Physicochemically Modified Soils with Natural Soils as a Function of Soil Properties and Pesticide Hydrophobicity
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