חיפוש מתקדם
Journal of Soil Science
LEVY, G.J., Soil and Irrigation Research Institute, Private Bag X79, Pretoria, 0001, South Africa
ALPEROVITCH, N., Soil and Irrigation Research Institute, Private Bag X79, Pretoria, 0001, South Africa
van der MERWE, A.J., Soil and Irrigation Research Institute, Private Bag X79, Pretoria, 0001, South Africa
SHAINBERG, I., Soil and Irrigation Research Institute, Private Bag X79, Pretoria, 0001, South Africa
The hydrolysis of four kaolinitic soils from the Transvaal (RSA), and the effects of exchangeable Na, Ca and Mg were studied by monitoring the changes in the electrical conductivity of the soil suspension with time. The rate of the hydrolysis was found to be linearly related to the square root of time. The rates of the hydrolysis of the Half‐Way House and Krugersdorp soils were appreciably lower than those of the Potchefstroom and Amsterdam soils, and rates reported in the literature for smectite soils. This was probably because of the low content of hydrolysable bases in the Half‐Way House and Krugersdorp soils, resulting from the low cation exchange capacity of their clay fraction. The extensive hydrolysis observed in the Potchefstroom and Amsterdam soils could be ascribed to the presence of significant amounts of smectite in the former and high silt content in the latter; both factors are known to enhance the rate of weathering and hydrolysis. With the exception of the Potchefstroom soil, the rate of hydrolysis was not affected by the cationic composition of the adsorbed phase. Contrary to expectations, exchangeable Mg did not inhibit hydrolysis in the soils studied, probably because of the limited isomorphic substitutions in kaolinite which lead to very small amounts of octahedral Mg in the crystal. The hydrolysis of the Potchefstroom soil was enhanced in the presence of exchangeable Mg compared to exchangeable Ca; the reason for this is not fully understood. Copyright © 1989, Wiley Blackwell. All rights reserved
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The hydrolysis of kaolinitic soils as affected by the type of the exchangeable cation
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LEVY, G.J., Soil and Irrigation Research Institute, Private Bag X79, Pretoria, 0001, South Africa
ALPEROVITCH, N., Soil and Irrigation Research Institute, Private Bag X79, Pretoria, 0001, South Africa
van der MERWE, A.J., Soil and Irrigation Research Institute, Private Bag X79, Pretoria, 0001, South Africa
SHAINBERG, I., Soil and Irrigation Research Institute, Private Bag X79, Pretoria, 0001, South Africa
The hydrolysis of kaolinitic soils as affected by the type of the exchangeable cation
The hydrolysis of four kaolinitic soils from the Transvaal (RSA), and the effects of exchangeable Na, Ca and Mg were studied by monitoring the changes in the electrical conductivity of the soil suspension with time. The rate of the hydrolysis was found to be linearly related to the square root of time. The rates of the hydrolysis of the Half‐Way House and Krugersdorp soils were appreciably lower than those of the Potchefstroom and Amsterdam soils, and rates reported in the literature for smectite soils. This was probably because of the low content of hydrolysable bases in the Half‐Way House and Krugersdorp soils, resulting from the low cation exchange capacity of their clay fraction. The extensive hydrolysis observed in the Potchefstroom and Amsterdam soils could be ascribed to the presence of significant amounts of smectite in the former and high silt content in the latter; both factors are known to enhance the rate of weathering and hydrolysis. With the exception of the Potchefstroom soil, the rate of hydrolysis was not affected by the cationic composition of the adsorbed phase. Contrary to expectations, exchangeable Mg did not inhibit hydrolysis in the soils studied, probably because of the limited isomorphic substitutions in kaolinite which lead to very small amounts of octahedral Mg in the crystal. The hydrolysis of the Potchefstroom soil was enhanced in the presence of exchangeable Mg compared to exchangeable Ca; the reason for this is not fully understood. Copyright © 1989, Wiley Blackwell. All rights reserved
Scientific Publication
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