FORMATION OF IMOGOLITE AND ALLOPHANE IN SHATTERED SANDSTONE UNDERLYING BROWN FOREST SOIL

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概要

• 論文の詳細を見る

• The occurrence of imogolite, as gel films associated with allophane, in the fractures of shattered sandstone is being reported. The sandstone was overlain by a Brown Forest soil about 50 cm thick, derived from the same sandstone, in which neither of the minerals was found to be formed. The mode of occurrence of the minerals was similar to that in a fresh gravel bed (lapilli-fall deposit) underlying an ash-derived soil and in podzols from many locations. This, together with the results of a synthetic experiment with soil solutions extracted, suggested that imogolite and allophane in the shattered sandstone were formed by precipitation of a hydroxy-Al orthosilicate complex transported from the overlying soil horizons. The finding suggests that imogolite and allophane may be distributed in soils more widely than hitherto reported, irrespective of the type of parent materials and type of soils.

著者

• Henmi T

  Ehime Univ. Matsuyama Jpn

• Henmi Teruo

  Faculty Of Agricultural Ehime University

• YOSHlNAGA Naganori

  Faculty of Agriculture

• NAKAI Makoto

  Faculty of Agriculture

• MlNAGAWA Tetsuo

  Faculty of Science, Ehime University

• Mlnagawa Tetsuo

  Faculty Of Science Ehime University

関連論文

• ADSORPTION OF WATER ON NANO-BALL ALLOPHANE AS AFFECTED BY HEAT TREATMENT
• Adsorption of Water on Nano-ball Allophane(Soil and Non-Crystalline Clays,Proceedings of the 13^ International Clay Conference)
• Validity of Proposed Model for the Chemical Structure of Allophane with Nano-ball Morphology(Soil and Non-Crystalline Clays,Proceedings of the 13^ International Clay Conference)
• MOLECULAR ORBITAL ANALYSIS ON THE DISSOLUTION OF NANO-BALL ALLOPHANE UNDER ALKALINE CONDITION
• DISSOLUTION MECHANISM OF NANO-BALL ALLOPHANE WITH DILUTE ALKALI SOLUTION
• B1 DISSOLUTION OF ALLOPHANE WITH ALKALINE SOLUTION
• MINERALOGY OF RED- AND YELLOW-COLORED SOILS FROM THAILAND
• CLAY MINERALOGY OF RED- _AND YELLOW-COLORED SOILS FROM KOREA
• FORMATION OF IMOGOLITE AND ALLOPHANE IN SHATTERED SANDSTONE UNDERLYING BROWN FOREST SOIL
• A DEVICE IN THE DETERMINATION OF Si IN DITHIONITE-CITRATE-BICARBONATE EXTRACT
• UNUSUAL ACCUMULATION OF GIBBSITE AND HALLOYSITE IN THE KITAKAMI PUMICE BED, WITH A NOTE ON THEIR GENESIS
• B20 Synthesis of CeO_2-ZSM-11 Nanocomposite from Inorganic Silicon Source and its Characterization
• A11 Change in surface acidity of allophane upon P adsorption and its Mechanism Analysis by Molecular Orbital Method
• 4-7 Novel Mechanism of Change in Charge Characteristics of Allophane Associated with Phosphate Adsorption
• P69. Fate of Surface Charge Induced by P Adsorption on Allophane (Abstracts of Paper Presented at the 1998 Annval Meeting)
• P69 Fate of Surface Charge Induced by P Adsorption on Allophane
• 4-7 Characterization and Mechanism in Surface Charge Induced Allophane by P Adsorption
• PHOSPHATE ADSORPTION ON NANO-BALL ALLOPHANE AND ITS MOLECULAR ORBITAL ANALYSIS
• B20.P44. Change in surface acidity of nano-ball allophane by B adsorption (Abstracts of Paper Presented at the 1998 Annval Meeting)
• 4-8 Boron adsorption and change in CEC of nano-ball allophane by the adsorption
• Boron adsorption on allophane with nanoball morphology
• 4-7 Competitive Adsorption of Phosphate with Oxalate on Nano-ball Allophane
• CHARGE CHARACTERISTICS MODIFICATION MECHANISMS OF NANO-BALL ALLOPHANE UPON ORTHOSILICIC ACID ADSORPTION
• CHANGE IN SURFACE CHARGE PROPERTIES OF NANO-BALL ALLOPHANE AS INFLUENCED BY SULFATE ADSORPTION
• A12 CHANGE IN SURFACE CHARGE PROPERTIES OF NANO-BALL ALLOPHANE AS INFLUENCED BY SULFATE ADSORPTION
• ADSORPTION MECHANISMS OF COPPER AND ZINC ON NANO-BALL ALLOPHANE
• B5 Orthosilicic Acid Adsorptive and Some Surface Property Modification Mechanisms of Nano-Ball allophane
• B3 ADSORPTION OF SOME HEAVY METALS ON NANO-BALL ALLOPHANE
• B2 Sulfate and Nitrate Adsorption on Nano-ball Allophane
• ZINC ADSORPTION ON NANO-BALL ALLOPHANES WITH DIFFERENT Si/Al RATIOS
• CHANGE IN CHARGE CHARACTERISTICS OF ALLOPHANE WITH ADSORPTION OF LOW MOLECULAR WEIGHT ORGANIC ACIDS
• B3 ADSORPTION OF SULFATE ON NANO-BALL ALLOPHANE
• 4-13 ADSORPTION MECAHNISM OF SOME ORGANIC ANIONS ON NANO-BALL ALLOPHANE
• ADSORPTIVE MECHANISMS OF ORTHOSILICIC ACID ON NANO-BALL ALLOPHANE
• ADSORPTION OF SOME LOW MOLECULAR WEIGHT ORGANIC ACIDS ON NANO-BALL ALLOPHANE
• 4-2 Chemical and Thermal Changes in Allophane by Some Organic Acids and Their Salts
• NEW CONCEPTS FOR CHANGE IN CHARGE CHARACTERISTICS OF ALLOPHANE WITH-PHOSPHATE ADSORPTION
• A5.P61. Dissolution of Al and Si from Allophane by some organic solutions (Abstracts of Paper Presented at the 1998 Annval Meeting)
• B20 Change in surface acidity of nano-ball allophane by B adsorption
• A5 Dissolution of Al and Si from Allophane by Some Organic Solutions
• ADSORPTION OF SULFATE AND NITRATE ON NANO-BALL ALLOPHANE
• BORON ADSORPTION ON ALLOPHANE WITH NANO-BALL MORPHOLOGY
• ADSORPTION OF MOLYBDATE ON NANO-BALL ALLOPHANE
• A9 Effect of Temperature on Dissolution of Allophane with Alkaline Solution
• INFLUENCE OF NaOH CONCENTRATIONS DISSOLVED IN SEAWATER AND HYDROTHERMAL TEMPERATURES ON THE SYNTHESIS OF ARTIFICIAL ZEOLITE FROM COAL FLY ASH
• EFFECT OF MOLYBDATE ADSORPTION ON SOME SURFACE PROPERTIES OF NANO-BALL ALLOPHANE
• B4 Effect of Molybdate Adsorption on Some Surface Properties of Nano-Ball Allophane
• CHANGE IN THE SURFACE ACIDITY OF ALLOPHANE BY PHOSPHATE ADSORPTION
• THE OCCURRENCE OF ALLOPHANE IN STREAM-DEPOSITS FROM SHISHIGAHANA AT THE NORTHERN FOOT OF MT. CHOKAI, JAPAN
• ADSORPTION OF AMINES ON NANO-BALL ALLOPHANE AND ITS MOLECULAR ORBITAL ANALYSIS
• Preparation of Composite Material of Na-P1-Type Zeolite and Magnetite for Cs Decontamination

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