有機ハロゲン物質の土壌との吸脱着について

森澤 眞輔

doi:10.2965/jswe1978.8.282

Adsorption-Desorption of Organic Halogenide between Soil and Water

Shinsuke Morisawa

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JOURNAL FREE ACCESS

1985 Volume 8 Issue 5 Pages 282-288

DOI https://doi.org/10.2965/jswe1978.8.282

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Published: May 10, 1985 Received: - Available on J-STAGE: September 10, 2009 Accepted: April 16, 1985 Advance online publication: - Revised: -
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Date of correction: September 10, 2009 Reason for correction: - Correction: CITATION Details: Wrong : 1) I.G. Burns et als. (1973) Some Physico-chemical Interactions of Paraquat with Soil Organic Materials and Model Compunds, I. Effect of Temperature, Time and Adsorbate Degradation on Paraquat Adsorption, weed Res., 13, 67-78
2) I.G. Burns et als. (1973) ibid, II. Adsorption and Desorption Equilibrium in Aqueous Suspensions, weed Res., 13, 79-90
3) O.P. Bansal et als. (1981) Adsorption and Interaction of Oxamyl with Acid and Base Saturated Illite, J. Colloid and Interface Sci., 81(1), 180-187
4) O.P. Bansal et al. (1980) Influence of Time, pH, Temperature, Organic Mater and Exchangeable Cations on the Adsorption of Oxamyl on Illite and Kaolinites, J. Agri. Sci., Camb., 94,557-563
5) S.W. Li et al. (1981) Interactions of Buthidazole with Clay Minerals and Soils, Weed Sci., 29,667-671
8) J.P. Singhal et al. (1978) Adsorption and Interaction of Dimecron with Monmorillonite, Soil Sci., 125(5), 301-305
9) S.U. Khan (1973) Equilibrium and Kinetic Studies of the Adsorption of 2, 4-D and Picrolam on Humic Acid, Can. J. Soil Sci., 53,429-434
10) A. Moreale et al. (1979) Soil Interactions of Herbicide-Derived Aniline Residues : A Thermodynamic Approach, Soil Sci., 127(1), 1-9
11) K.S. LaFleur (1979) Sorption of Pesticides by Model Soils and Agronomic Soils : Rates and Equilibria, Soil Sci., 127(2), 94-101
12) A.C. Mills et al. (1969) Solubility-Temperature Effect on the Adsorption of γ-BHC from Aqueous and Hexane Solutions by Soil Materials, Soil Sci. Soc. Amer. Proc., 33(2), 210-216
13) W.J. Farmer et al. (1974) Picloram Sorption by Soils, Soil Sci. Soc. Amer. Proc., 38(3), 418-423
14) P.S.C. Rao et al. (1980) Estimation of Pesticide Retention and Transformation Parameters Required in Nonpoint Source Pollution Models, "Environmental Impact of Nonpoint Source Pollution" (ed. M.R.Overcash & J.M. Davidson), 23-68, Ann Arbor Sci. Pub. Inc.
15) J.M. Davidson et al. (1972) Transport of Picloram in Relation to Soil Physical Conditions and Pore-water Velocity, Soil Sci. Soc. Amer. Proc., 36(2), 257-261
16) C.S. Helling (1971) Pesticide Mobility in Soils, III. Influence of Soil Properties, Soil Sci. Soc. Amer. Proc., 35,743-748
17) M.T.V. Genuchten et al. (1979) Movement of Solutes in Soil : Computer-Simulated and Laboratory Results, "Soil Chemistry B. Physico-Chemical Models" (ed. C.H. Bolt), 349-386, Elsevier Sci. Pub. Co
18) D.R. Cameron et al. (1977) Convective-Dispersive Solute Transport with a Combined Equilibrium and Kinetic Adsorption Model, Water Resources Res., 13(1), 183-188
20) P.S.C. Rao et al. (1979) Evaluation of Conceptual Models for Describing Non-Equilibrium Adsorption-Desorption of Pesticides during Steady Flow in Soil, Soil. Sci. Soc. Amer. J., 43(1), 22-28
21) B.T. Bowman (1979) Method of Repearted Addition for Generating Pesticide Adsorption-Desorption Isotherm Data, Can. J. Soil Cci., 59(11), 435-437
24) P.S.C. Rao et al. (1979) Adsorption and Movement of Selected Pesticides at High Concentrations in Soils, Water Res., 13(4), 375-380
25) M.T.V. Genuchten et als. (1974) An Evaluation of Kinetic and Equilibrium Fquations for the Prediction of Pesticide Movement through Porous Media, Soil Sci. Soc. Amer. Proc., 38, 29-35
27) Y. Inoue et al. (1963) Prediction of Movement of Radio-nuclides in Solution through Porous Media, Health Physics, 9,705-715
28) C.S. Helling (1971) Pesticide Mobilities in Soils, II. Application of Soil Thin-Layer Chromatography, Soil Sci. Soc. Amer. Proc., 35(5), 737-743

Right : 1) I.G. Burns et als. (1973) Some Physico-chemical Interactions of Paraquat with Soil Organic Materials and Model Compunds, I. Effect of Temperature, Time and Adsorbate Degradation on Paraquat Adsorption, weed Res., 13, 67-78
2) I.G. Burns et als. (1973) ibid, II. Adsorption and Desorption Equilibrium in Aqueous Suspensions, weed Res., 13, 79-90
3) O.P. Bansal et als. (1981) Adsorption and Interaction of Oxamyl with Acid and Base Saturated Illite, J. Colloid and Interface Sci., 81(1), 180-187
4) O.P. Bansal et al. (1980) Influence of Time, pH, Temperature, Organic Mater and Exchangeable Cations on the Adsorption of Oxamyl on Illite and Kaolinites, J. Agri. Sci., Camb., 94,557-563
5) S.W. Li et al. (1981) Interactions of Buthidazole with Clay Minerals and Soils, Weed Sci., 29,667-671
8) J.P. Singhal et al. (1978) Adsorption and Interaction of Dimecron with Monmorillonite, Soil Sci., 125(5), 301-305
9) S.U. Khan (1973) Equilibrium and Kinetic Studies of the Adsorption of 2, 4-D and Picrolam on Humic Acid, Can. J. Soil Sci., 53,429-434
10) A. Moreale et al. (1979) Soil Interactions of Herbicide-Derived Aniline Residues : A Thermodynamic Approach, Soil Sci., 127(1), 1-9
11) K.S. LaFleur (1979) Sorption of Pesticides by Model Soils and Agronomic Soils : Rates and Equilibria, Soil Sci., 127(2), 94-101
12) A.C. Mills et al. (1969) Solubility-Temperature Effect on the Adsorption of γ-BHC from Aqueous and Hexane Solutions by Soil Materials, Soil Sci. Soc. Amer. Proc., 33(2), 210-216
13) W.J. Farmer et al. (1974) Picloram Sorption by Soils, Soil Sci. Soc. Amer. Proc., 38(3), 418-423
14) P.S.C. Rao et al. (1980) Estimation of Pesticide Retention and Transformation Parameters Required in Nonpoint Source Pollution Models, “Environmental Impact of Nonpoint Source Pollution”(ed. M.R.Overcash & J.M. Davidson), 23-68, Ann Arbor Sci. Pub. Inc.
15) J.M. Davidson et al. (1972) Transport of Picloram in Relation to Soil Physical Conditions and Pore-water Velocity, Soil Sci. Soc. Amer. Proc., 36(2), 257-261
16) C.S. Helling (1971) Pesticide Mobility in Soils, III. Influence of Soil Properties, Soil Sci. Soc. Amer. Proc., 35,743-748
17) M.T.V. Genuchten et al. (1979) Movement of Solutes in Soil : Computer-Simulated and Laboratory Results, “Soil Chemistry B. Physico-Chemical Models”(ed. C.H. Bolt), 349-386, Elsevier Sci. Pub. Co
18) D.R. Cameron et al. (1977) Convective-Dispersive Solute Transport with a Combined Equilibrium and Kinetic Adsorption Model, Water Resources Res., 13(1), 183-188
20) P.S.C. Rao et al. (1979) Evaluation of Conceptual Models for Describing Non-Equilibrium Adsorption-Desorption of Pesticides during Steady Flow in Soil, Soil. Sci. Soc. Amer. J., 43(1), 22-28
21) B.T. Bowman (1979) Method of Repearted Addition for Generating Pesticide Adsorption-Desorption Isotherm Data, Can. J. Soil Cci., 59(11), 435-437
24) P.S.C. Rao et al. (1979) Adsorption and Movement of Selected Pesticides at High Concentrations in Soils, Water Res., 13(4), 375-380
25) M.T.V. Genuchten et als. (1974) An Evaluation of Kinetic and Equilibrium Fquations for the Prediction of Pesticide Movement through Porous Media, Soil Sci. Soc. Amer. Proc., 38, 29-35
27) Y. Inoue et al. (1963) Prediction of Movement of Radio-nuclides in Solution through Porous Media, Health Physics, 9,705-715
28) C.S. Helling (1971) Pesticide Mobilities in Soils, II. Application of Soil Thin-Layer Chromatography, Soil Sci. Soc. Amer. Proc., 35(5), 737-743

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